/** * Copyright (c) 2013-present, Facebook, Inc. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. * * @noflow * @providesModule ReactFabric-profiling * @preventMunge * @generated */ "use strict"; require("InitializeCore"); var ReactNativeViewConfigRegistry = require("ReactNativeViewConfigRegistry"), UIManager = require("UIManager"), React = require("react"), deepDiffer = require("deepDiffer"), flattenStyle = require("flattenStyle"), TextInputState = require("TextInputState"), FabricUIManager = require("FabricUIManager"), ExceptionsManager = require("ExceptionsManager"); function invariant(condition, format, a, b, c, d, e, f) { if (!condition) { condition = void 0; if (void 0 === format) condition = Error( "Minified exception occurred; use the non-minified dev environment for the full error message and additional helpful warnings." ); else { var args = [a, b, c, d, e, f], argIndex = 0; condition = Error( format.replace(/%s/g, function() { return args[argIndex++]; }) ); condition.name = "Invariant Violation"; } condition.framesToPop = 1; throw condition; } } function invokeGuardedCallback(name, func, context, a, b, c, d, e, f) { this._hasCaughtError = !1; this._caughtError = null; var funcArgs = Array.prototype.slice.call(arguments, 3); try { func.apply(context, funcArgs); } catch (error) { (this._caughtError = error), (this._hasCaughtError = !0); } } var ReactErrorUtils = { _caughtError: null, _hasCaughtError: !1, _rethrowError: null, _hasRethrowError: !1, invokeGuardedCallback: function(name, func, context, a, b, c, d, e, f) { invokeGuardedCallback.apply(ReactErrorUtils, arguments); }, invokeGuardedCallbackAndCatchFirstError: function( name, func, context, a, b, c, d, e, f ) { ReactErrorUtils.invokeGuardedCallback.apply(this, arguments); if (ReactErrorUtils.hasCaughtError()) { var error = ReactErrorUtils.clearCaughtError(); ReactErrorUtils._hasRethrowError || ((ReactErrorUtils._hasRethrowError = !0), (ReactErrorUtils._rethrowError = error)); } }, rethrowCaughtError: function() { return rethrowCaughtError.apply(ReactErrorUtils, arguments); }, hasCaughtError: function() { return ReactErrorUtils._hasCaughtError; }, clearCaughtError: function() { if (ReactErrorUtils._hasCaughtError) { var error = ReactErrorUtils._caughtError; ReactErrorUtils._caughtError = null; ReactErrorUtils._hasCaughtError = !1; return error; } invariant( !1, "clearCaughtError was called but no error was captured. This error is likely caused by a bug in React. Please file an issue." ); } }; function rethrowCaughtError() { if (ReactErrorUtils._hasRethrowError) { var error = ReactErrorUtils._rethrowError; ReactErrorUtils._rethrowError = null; ReactErrorUtils._hasRethrowError = !1; throw error; } } var eventPluginOrder = null, namesToPlugins = {}; function recomputePluginOrdering() { if (eventPluginOrder) for (var pluginName in namesToPlugins) { var pluginModule = namesToPlugins[pluginName], pluginIndex = eventPluginOrder.indexOf(pluginName); invariant( -1 < pluginIndex, "EventPluginRegistry: Cannot inject event plugins that do not exist in the plugin ordering, `%s`.", pluginName ); if (!plugins[pluginIndex]) { invariant( pluginModule.extractEvents, "EventPluginRegistry: Event plugins must implement an `extractEvents` method, but `%s` does not.", pluginName ); plugins[pluginIndex] = pluginModule; pluginIndex = pluginModule.eventTypes; for (var eventName in pluginIndex) { var JSCompiler_inline_result = void 0; var dispatchConfig = pluginIndex[eventName], pluginModule$jscomp$0 = pluginModule, eventName$jscomp$0 = eventName; invariant( !eventNameDispatchConfigs.hasOwnProperty(eventName$jscomp$0), "EventPluginHub: More than one plugin attempted to publish the same event name, `%s`.", eventName$jscomp$0 ); eventNameDispatchConfigs[eventName$jscomp$0] = dispatchConfig; var phasedRegistrationNames = dispatchConfig.phasedRegistrationNames; if (phasedRegistrationNames) { for (JSCompiler_inline_result in phasedRegistrationNames) phasedRegistrationNames.hasOwnProperty( JSCompiler_inline_result ) && publishRegistrationName( phasedRegistrationNames[JSCompiler_inline_result], pluginModule$jscomp$0, eventName$jscomp$0 ); JSCompiler_inline_result = !0; } else dispatchConfig.registrationName ? (publishRegistrationName( dispatchConfig.registrationName, pluginModule$jscomp$0, eventName$jscomp$0 ), (JSCompiler_inline_result = !0)) : (JSCompiler_inline_result = !1); invariant( JSCompiler_inline_result, "EventPluginRegistry: Failed to publish event `%s` for plugin `%s`.", eventName, pluginName ); } } } } function publishRegistrationName(registrationName, pluginModule) { invariant( !registrationNameModules[registrationName], "EventPluginHub: More than one plugin attempted to publish the same registration name, `%s`.", registrationName ); registrationNameModules[registrationName] = pluginModule; } var plugins = [], eventNameDispatchConfigs = {}, registrationNameModules = {}, getFiberCurrentPropsFromNode = null, getInstanceFromNode = null, getNodeFromInstance = null; function executeDispatch(event, simulated, listener, inst) { simulated = event.type || "unknown-event"; event.currentTarget = getNodeFromInstance(inst); ReactErrorUtils.invokeGuardedCallbackAndCatchFirstError( simulated, listener, void 0, event ); event.currentTarget = null; } function executeDirectDispatch(event) { var dispatchListener = event._dispatchListeners, dispatchInstance = event._dispatchInstances; invariant( !Array.isArray(dispatchListener), "executeDirectDispatch(...): Invalid `event`." ); event.currentTarget = dispatchListener ? getNodeFromInstance(dispatchInstance) : null; dispatchListener = dispatchListener ? dispatchListener(event) : null; event.currentTarget = null; event._dispatchListeners = null; event._dispatchInstances = null; return dispatchListener; } function accumulateInto(current, next) { invariant( null != next, "accumulateInto(...): Accumulated items must not be null or undefined." ); if (null == current) return next; if (Array.isArray(current)) { if (Array.isArray(next)) return current.push.apply(current, next), current; current.push(next); return current; } return Array.isArray(next) ? [current].concat(next) : [current, next]; } function forEachAccumulated(arr, cb, scope) { Array.isArray(arr) ? arr.forEach(cb, scope) : arr && cb.call(scope, arr); } var eventQueue = null; function executeDispatchesAndReleaseTopLevel(e) { if (e) { var dispatchListeners = e._dispatchListeners, dispatchInstances = e._dispatchInstances; if (Array.isArray(dispatchListeners)) for ( var i = 0; i < dispatchListeners.length && !e.isPropagationStopped(); i++ ) executeDispatch(e, !1, dispatchListeners[i], dispatchInstances[i]); else dispatchListeners && executeDispatch(e, !1, dispatchListeners, dispatchInstances); e._dispatchListeners = null; e._dispatchInstances = null; e.isPersistent() || e.constructor.release(e); } } var injection = { 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, pluginName; for (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(); } }; function getListener(inst, registrationName) { var listener = inst.stateNode; if (!listener) return null; var props = getFiberCurrentPropsFromNode(listener); if (!props) return null; listener = props[registrationName]; a: switch (registrationName) { case "onClick": case "onClickCapture": case "onDoubleClick": case "onDoubleClickCapture": case "onMouseDown": case "onMouseDownCapture": case "onMouseMove": case "onMouseMoveCapture": case "onMouseUp": case "onMouseUpCapture": (props = !props.disabled) || ((inst = inst.type), (props = !( "button" === inst || "input" === inst || "select" === inst || "textarea" === inst ))); inst = !props; break a; default: inst = !1; } if (inst) return null; invariant( !listener || "function" === typeof listener, "Expected `%s` listener to be a function, instead got a value of `%s` type.", registrationName, typeof listener ); return listener; } function getParent(inst) { do inst = inst.return; while (inst && 5 !== inst.tag); return inst ? inst : null; } function traverseTwoPhase(inst, fn, arg) { for (var path = []; inst; ) path.push(inst), (inst = getParent(inst)); for (inst = path.length; 0 < inst--; ) fn(path[inst], "captured", arg); for (inst = 0; inst < path.length; inst++) fn(path[inst], "bubbled", arg); } function accumulateDirectionalDispatches(inst, phase, event) { if ( (phase = getListener( inst, event.dispatchConfig.phasedRegistrationNames[phase] )) ) (event._dispatchListeners = accumulateInto( event._dispatchListeners, phase )), (event._dispatchInstances = accumulateInto( event._dispatchInstances, inst )); } function accumulateTwoPhaseDispatchesSingle(event) { event && event.dispatchConfig.phasedRegistrationNames && traverseTwoPhase(event._targetInst, accumulateDirectionalDispatches, event); } function accumulateTwoPhaseDispatchesSingleSkipTarget(event) { if (event && event.dispatchConfig.phasedRegistrationNames) { var targetInst = event._targetInst; targetInst = targetInst ? getParent(targetInst) : null; traverseTwoPhase(targetInst, accumulateDirectionalDispatches, event); } } function accumulateDirectDispatchesSingle(event) { if (event && event.dispatchConfig.registrationName) { var inst = event._targetInst; if (inst && event && event.dispatchConfig.registrationName) { var listener = getListener(inst, event.dispatchConfig.registrationName); listener && ((event._dispatchListeners = accumulateInto( event._dispatchListeners, listener )), (event._dispatchInstances = accumulateInto( event._dispatchInstances, inst ))); } } } function functionThatReturnsTrue() { return !0; } function functionThatReturnsFalse() { return !1; } function SyntheticEvent( dispatchConfig, targetInst, nativeEvent, nativeEventTarget ) { this.dispatchConfig = dispatchConfig; this._targetInst = targetInst; this.nativeEvent = nativeEvent; dispatchConfig = this.constructor.Interface; for (var propName in dispatchConfig) dispatchConfig.hasOwnProperty(propName) && ((targetInst = dispatchConfig[propName]) ? (this[propName] = targetInst(nativeEvent)) : "target" === propName ? (this.target = nativeEventTarget) : (this[propName] = nativeEvent[propName])); this.isDefaultPrevented = (null != nativeEvent.defaultPrevented ? nativeEvent.defaultPrevented : !1 === nativeEvent.returnValue) ? functionThatReturnsTrue : functionThatReturnsFalse; this.isPropagationStopped = functionThatReturnsFalse; return 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 = functionThatReturnsTrue)); }, stopPropagation: function() { var event = this.nativeEvent; event && (event.stopPropagation ? event.stopPropagation() : "unknown" !== typeof event.cancelBubble && (event.cancelBubble = !0), (this.isPropagationStopped = functionThatReturnsTrue)); }, persist: function() { this.isPersistent = functionThatReturnsTrue; }, isPersistent: functionThatReturnsFalse, destructor: function() { var Interface = this.constructor.Interface, propName; for (propName in Interface) this[propName] = null; this.nativeEvent = this._targetInst = this.dispatchConfig = null; this.isPropagationStopped = this.isDefaultPrevented = functionThatReturnsFalse; this._dispatchInstances = this._dispatchListeners = null; } }); SyntheticEvent.Interface = { type: null, target: null, currentTarget: function() { return null; }, eventPhase: null, bubbles: null, cancelable: null, timeStamp: function(event) { return event.timeStamp || Date.now(); }, defaultPrevented: null, isTrusted: null }; SyntheticEvent.extend = function(Interface) { function E() {} function Class() { return Super.apply(this, arguments); } var Super = this; 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.extend = Super.extend; addEventPoolingTo(Class); return Class; }; addEventPoolingTo(SyntheticEvent); function getPooledEvent(dispatchConfig, targetInst, nativeEvent, nativeInst) { if (this.eventPool.length) { var instance = this.eventPool.pop(); this.call(instance, dispatchConfig, targetInst, nativeEvent, nativeInst); return instance; } return new this(dispatchConfig, targetInst, nativeEvent, nativeInst); } function releasePooledEvent(event) { invariant( event instanceof this, "Trying to release an event instance into a pool of a different type." ); event.destructor(); 10 > this.eventPool.length && this.eventPool.push(event); } function addEventPoolingTo(EventConstructor) { EventConstructor.eventPool = []; EventConstructor.getPooled = getPooledEvent; EventConstructor.release = releasePooledEvent; } var ResponderSyntheticEvent = SyntheticEvent.extend({ touchHistory: function() { return null; } }); function isStartish(topLevelType) { return "topTouchStart" === topLevelType; } function isMoveish(topLevelType) { return "topTouchMove" === topLevelType; } var startDependencies = ["topTouchStart"], moveDependencies = ["topTouchMove"], endDependencies = ["topTouchCancel", "topTouchEnd"], touchBank = [], touchHistory = { touchBank: touchBank, numberActiveTouches: 0, indexOfSingleActiveTouch: -1, mostRecentTimeStamp: 0 }; function timestampForTouch(touch) { return touch.timeStamp || touch.timestamp; } function getTouchIdentifier(_ref) { _ref = _ref.identifier; invariant(null != _ref, "Touch object is missing identifier."); return _ref; } function recordTouchStart(touch) { var identifier = getTouchIdentifier(touch), touchRecord = touchBank[identifier]; touchRecord ? ((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))) : ((touchRecord = { 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) }), (touchBank[identifier] = touchRecord)); 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.\nTouch 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.\nTouch 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, 20)); 20 < touchBank.length && (printed += " (original size: " + touchBank.length + ")"); return printed; } var ResponderTouchHistoryStore = { recordTouchTrack: function(topLevelType, nativeEvent) { if (isMoveish(topLevelType)) nativeEvent.changedTouches.forEach(recordTouchMove); else if (isStartish(topLevelType)) nativeEvent.changedTouches.forEach(recordTouchStart), (touchHistory.numberActiveTouches = nativeEvent.touches.length), 1 === touchHistory.numberActiveTouches && (touchHistory.indexOfSingleActiveTouch = nativeEvent.touches[0].identifier); else if ( "topTouchEnd" === topLevelType || "topTouchCancel" === topLevelType ) if ( (nativeEvent.changedTouches.forEach(recordTouchEnd), (touchHistory.numberActiveTouches = nativeEvent.touches.length), 1 === touchHistory.numberActiveTouches) ) for (topLevelType = 0; topLevelType < touchBank.length; topLevelType++) if ( ((nativeEvent = touchBank[topLevelType]), null != nativeEvent && nativeEvent.touchActive) ) { touchHistory.indexOfSingleActiveTouch = topLevelType; break; } }, touchHistory: touchHistory }; function accumulate(current, next) { invariant( null != next, "accumulate(...): Accumulated items must be not be null or undefined." ); return null == current ? next : Array.isArray(current) ? current.concat(next) : Array.isArray(next) ? [current].concat(next) : [current, next]; } var responderInst = null, trackedTouchCount = 0; function changeResponder(nextResponderInst, blockHostResponder) { var oldResponderInst = responderInst; responderInst = nextResponderInst; if (null !== ResponderEventPlugin.GlobalResponderHandler) ResponderEventPlugin.GlobalResponderHandler.onChange( oldResponderInst, nextResponderInst, blockHostResponder ); } var eventTypes$1 = { startShouldSetResponder: { phasedRegistrationNames: { bubbled: "onStartShouldSetResponder", captured: "onStartShouldSetResponderCapture" }, dependencies: startDependencies }, scrollShouldSetResponder: { phasedRegistrationNames: { bubbled: "onScrollShouldSetResponder", captured: "onScrollShouldSetResponderCapture" }, dependencies: ["topScroll"] }, selectionChangeShouldSetResponder: { phasedRegistrationNames: { bubbled: "onSelectionChangeShouldSetResponder", captured: "onSelectionChangeShouldSetResponderCapture" }, dependencies: ["topSelectionChange"] }, moveShouldSetResponder: { phasedRegistrationNames: { bubbled: "onMoveShouldSetResponder", captured: "onMoveShouldSetResponderCapture" }, dependencies: moveDependencies }, responderStart: { registrationName: "onResponderStart", dependencies: startDependencies }, responderMove: { registrationName: "onResponderMove", dependencies: moveDependencies }, responderEnd: { registrationName: "onResponderEnd", dependencies: endDependencies }, responderRelease: { registrationName: "onResponderRelease", dependencies: endDependencies }, responderTerminationRequest: { registrationName: "onResponderTerminationRequest", dependencies: [] }, responderGrant: { registrationName: "onResponderGrant", dependencies: [] }, responderReject: { registrationName: "onResponderReject", dependencies: [] }, responderTerminate: { registrationName: "onResponderTerminate", dependencies: [] } }, ResponderEventPlugin = { _getResponder: function() { return responderInst; }, eventTypes: eventTypes$1, extractEvents: function( topLevelType, targetInst, nativeEvent, nativeEventTarget ) { if (isStartish(topLevelType)) trackedTouchCount += 1; else if ( "topTouchEnd" === topLevelType || "topTouchCancel" === topLevelType ) if (0 <= trackedTouchCount) --trackedTouchCount; else return ( console.error( "Ended a touch event which was not counted in `trackedTouchCount`." ), null ); ResponderTouchHistoryStore.recordTouchTrack(topLevelType, nativeEvent); if ( targetInst && (("topScroll" === topLevelType && !nativeEvent.responderIgnoreScroll) || (0 < trackedTouchCount && "topSelectionChange" === topLevelType) || isStartish(topLevelType) || isMoveish(topLevelType)) ) { var JSCompiler_temp = isStartish(topLevelType) ? eventTypes$1.startShouldSetResponder : isMoveish(topLevelType) ? eventTypes$1.moveShouldSetResponder : "topSelectionChange" === topLevelType ? eventTypes$1.selectionChangeShouldSetResponder : eventTypes$1.scrollShouldSetResponder; if (responderInst) b: { var JSCompiler_temp$jscomp$0 = responderInst; for ( var depthA = 0, tempA = JSCompiler_temp$jscomp$0; tempA; tempA = getParent(tempA) ) depthA++; tempA = 0; for (var tempB = targetInst; tempB; tempB = getParent(tempB)) tempA++; for (; 0 < depthA - tempA; ) (JSCompiler_temp$jscomp$0 = getParent(JSCompiler_temp$jscomp$0)), depthA--; for (; 0 < tempA - depthA; ) (targetInst = getParent(targetInst)), tempA--; for (; depthA--; ) { if ( JSCompiler_temp$jscomp$0 === targetInst || JSCompiler_temp$jscomp$0 === targetInst.alternate ) break b; JSCompiler_temp$jscomp$0 = getParent(JSCompiler_temp$jscomp$0); targetInst = getParent(targetInst); } JSCompiler_temp$jscomp$0 = null; } else JSCompiler_temp$jscomp$0 = targetInst; targetInst = JSCompiler_temp$jscomp$0 === responderInst; JSCompiler_temp$jscomp$0 = ResponderSyntheticEvent.getPooled( JSCompiler_temp, JSCompiler_temp$jscomp$0, nativeEvent, nativeEventTarget ); JSCompiler_temp$jscomp$0.touchHistory = ResponderTouchHistoryStore.touchHistory; targetInst ? forEachAccumulated( JSCompiler_temp$jscomp$0, accumulateTwoPhaseDispatchesSingleSkipTarget ) : forEachAccumulated( JSCompiler_temp$jscomp$0, accumulateTwoPhaseDispatchesSingle ); b: { JSCompiler_temp = JSCompiler_temp$jscomp$0._dispatchListeners; targetInst = JSCompiler_temp$jscomp$0._dispatchInstances; if (Array.isArray(JSCompiler_temp)) for ( depthA = 0; depthA < JSCompiler_temp.length && !JSCompiler_temp$jscomp$0.isPropagationStopped(); depthA++ ) { if ( JSCompiler_temp[depthA]( JSCompiler_temp$jscomp$0, targetInst[depthA] ) ) { JSCompiler_temp = targetInst[depthA]; break b; } } else if ( JSCompiler_temp && JSCompiler_temp(JSCompiler_temp$jscomp$0, targetInst) ) { JSCompiler_temp = targetInst; break b; } JSCompiler_temp = null; } JSCompiler_temp$jscomp$0._dispatchInstances = null; JSCompiler_temp$jscomp$0._dispatchListeners = null; JSCompiler_temp$jscomp$0.isPersistent() || JSCompiler_temp$jscomp$0.constructor.release( JSCompiler_temp$jscomp$0 ); JSCompiler_temp && JSCompiler_temp !== responderInst ? ((JSCompiler_temp$jscomp$0 = void 0), (targetInst = ResponderSyntheticEvent.getPooled( eventTypes$1.responderGrant, JSCompiler_temp, nativeEvent, nativeEventTarget )), (targetInst.touchHistory = ResponderTouchHistoryStore.touchHistory), forEachAccumulated(targetInst, accumulateDirectDispatchesSingle), (depthA = !0 === executeDirectDispatch(targetInst)), responderInst ? ((tempA = ResponderSyntheticEvent.getPooled( eventTypes$1.responderTerminationRequest, responderInst, nativeEvent, nativeEventTarget )), (tempA.touchHistory = ResponderTouchHistoryStore.touchHistory), forEachAccumulated(tempA, accumulateDirectDispatchesSingle), (tempB = !tempA._dispatchListeners || executeDirectDispatch(tempA)), tempA.isPersistent() || tempA.constructor.release(tempA), tempB ? ((tempA = ResponderSyntheticEvent.getPooled( eventTypes$1.responderTerminate, responderInst, nativeEvent, nativeEventTarget )), (tempA.touchHistory = ResponderTouchHistoryStore.touchHistory), forEachAccumulated(tempA, accumulateDirectDispatchesSingle), (JSCompiler_temp$jscomp$0 = accumulate( JSCompiler_temp$jscomp$0, [targetInst, tempA] )), changeResponder(JSCompiler_temp, depthA)) : ((JSCompiler_temp = ResponderSyntheticEvent.getPooled( eventTypes$1.responderReject, JSCompiler_temp, nativeEvent, nativeEventTarget )), (JSCompiler_temp.touchHistory = ResponderTouchHistoryStore.touchHistory), forEachAccumulated( JSCompiler_temp, accumulateDirectDispatchesSingle ), (JSCompiler_temp$jscomp$0 = accumulate( JSCompiler_temp$jscomp$0, JSCompiler_temp )))) : ((JSCompiler_temp$jscomp$0 = accumulate( JSCompiler_temp$jscomp$0, targetInst )), changeResponder(JSCompiler_temp, depthA)), (JSCompiler_temp = JSCompiler_temp$jscomp$0)) : (JSCompiler_temp = null); } else JSCompiler_temp = null; JSCompiler_temp$jscomp$0 = responderInst && isStartish(topLevelType); targetInst = responderInst && isMoveish(topLevelType); depthA = responderInst && ("topTouchEnd" === topLevelType || "topTouchCancel" === topLevelType); if ( (JSCompiler_temp$jscomp$0 = JSCompiler_temp$jscomp$0 ? eventTypes$1.responderStart : targetInst ? eventTypes$1.responderMove : depthA ? eventTypes$1.responderEnd : null) ) (JSCompiler_temp$jscomp$0 = ResponderSyntheticEvent.getPooled( JSCompiler_temp$jscomp$0, responderInst, nativeEvent, nativeEventTarget )), (JSCompiler_temp$jscomp$0.touchHistory = ResponderTouchHistoryStore.touchHistory), forEachAccumulated( JSCompiler_temp$jscomp$0, accumulateDirectDispatchesSingle ), (JSCompiler_temp = accumulate( JSCompiler_temp, JSCompiler_temp$jscomp$0 )); JSCompiler_temp$jscomp$0 = responderInst && "topTouchCancel" === topLevelType; if ( (topLevelType = responderInst && !JSCompiler_temp$jscomp$0 && ("topTouchEnd" === topLevelType || "topTouchCancel" === topLevelType)) ) a: { if ((topLevelType = nativeEvent.touches) && 0 !== topLevelType.length) for (targetInst = 0; targetInst < topLevelType.length; targetInst++) if ( ((depthA = topLevelType[targetInst].target), null !== depthA && void 0 !== depthA && 0 !== depthA) ) { tempA = getInstanceFromNode(depthA); b: { for (depthA = responderInst; tempA; ) { if (depthA === tempA || depthA === tempA.alternate) { depthA = !0; break b; } tempA = getParent(tempA); } depthA = !1; } if (depthA) { topLevelType = !1; break a; } } topLevelType = !0; } if ( (topLevelType = JSCompiler_temp$jscomp$0 ? eventTypes$1.responderTerminate : topLevelType ? eventTypes$1.responderRelease : null) ) (nativeEvent = ResponderSyntheticEvent.getPooled( topLevelType, responderInst, nativeEvent, nativeEventTarget )), (nativeEvent.touchHistory = ResponderTouchHistoryStore.touchHistory), forEachAccumulated(nativeEvent, accumulateDirectDispatchesSingle), (JSCompiler_temp = accumulate(JSCompiler_temp, nativeEvent)), changeResponder(null); return JSCompiler_temp; }, GlobalResponderHandler: null, injection: { injectGlobalResponderHandler: function(GlobalResponderHandler) { ResponderEventPlugin.GlobalResponderHandler = GlobalResponderHandler; } } }, customBubblingEventTypes$1 = ReactNativeViewConfigRegistry.customBubblingEventTypes, customDirectEventTypes$1 = ReactNativeViewConfigRegistry.customDirectEventTypes, ReactNativeBridgeEventPlugin = { eventTypes: ReactNativeViewConfigRegistry.eventTypes, extractEvents: function( topLevelType, targetInst, nativeEvent, nativeEventTarget ) { if (null == targetInst) return null; var bubbleDispatchConfig = customBubblingEventTypes$1[topLevelType], directDispatchConfig = customDirectEventTypes$1[topLevelType]; invariant( bubbleDispatchConfig || directDispatchConfig, 'Unsupported top level event type "%s" dispatched', topLevelType ); topLevelType = SyntheticEvent.getPooled( bubbleDispatchConfig || directDispatchConfig, targetInst, nativeEvent, nativeEventTarget ); if (bubbleDispatchConfig) forEachAccumulated(topLevelType, accumulateTwoPhaseDispatchesSingle); else if (directDispatchConfig) forEachAccumulated(topLevelType, accumulateDirectDispatchesSingle); else return null; return topLevelType; } }; injection.injectEventPluginOrder([ "ResponderEventPlugin", "ReactNativeBridgeEventPlugin" ]); injection.injectEventPluginsByName({ ResponderEventPlugin: ResponderEventPlugin, ReactNativeBridgeEventPlugin: ReactNativeBridgeEventPlugin }); function getInstanceFromInstance(instanceHandle) { return instanceHandle; } var Injected$jscomp$inline_618 = { getClosestInstanceFromNode: getInstanceFromInstance, getInstanceFromNode: getInstanceFromInstance, getNodeFromInstance: function(inst) { inst = inst.stateNode.canonical._nativeTag; invariant(inst, "All native instances should have a tag."); return inst; }, getFiberCurrentPropsFromNode: function(inst) { return inst.canonical.currentProps; } }; getFiberCurrentPropsFromNode = Injected$jscomp$inline_618.getFiberCurrentPropsFromNode; getInstanceFromNode = Injected$jscomp$inline_618.getInstanceFromNode; getNodeFromInstance = Injected$jscomp$inline_618.getNodeFromInstance; ResponderEventPlugin.injection.injectGlobalResponderHandler({ onChange: function(from, to, blockNativeResponder) { null !== to ? UIManager.setJSResponder( to.stateNode.canonical._nativeTag, blockNativeResponder ) : UIManager.clearJSResponder(); } }); var ReactSharedInternals = React.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED, hasSymbol = "function" === typeof Symbol && Symbol.for, REACT_ELEMENT_TYPE = hasSymbol ? Symbol.for("react.element") : 60103, REACT_PORTAL_TYPE = hasSymbol ? Symbol.for("react.portal") : 60106, REACT_FRAGMENT_TYPE = hasSymbol ? Symbol.for("react.fragment") : 60107, REACT_STRICT_MODE_TYPE = hasSymbol ? Symbol.for("react.strict_mode") : 60108, REACT_PROFILER_TYPE = hasSymbol ? Symbol.for("react.profiler") : 60114, REACT_PROVIDER_TYPE = hasSymbol ? Symbol.for("react.provider") : 60109, REACT_CONTEXT_TYPE = hasSymbol ? Symbol.for("react.context") : 60110, REACT_ASYNC_MODE_TYPE = hasSymbol ? Symbol.for("react.async_mode") : 60111, REACT_FORWARD_REF_TYPE = hasSymbol ? Symbol.for("react.forward_ref") : 60112, REACT_PLACEHOLDER_TYPE = hasSymbol ? Symbol.for("react.placeholder") : 60113, MAYBE_ITERATOR_SYMBOL = "function" === typeof Symbol && Symbol.iterator; function getIteratorFn(maybeIterable) { if (null === maybeIterable || "undefined" === typeof maybeIterable) return null; maybeIterable = (MAYBE_ITERATOR_SYMBOL && maybeIterable[MAYBE_ITERATOR_SYMBOL]) || maybeIterable["@@iterator"]; return "function" === typeof maybeIterable ? maybeIterable : null; } function getComponentName(type) { if (null == type) return null; if ("function" === typeof type) return type.displayName || type.name || null; if ("string" === typeof type) return type; switch (type) { case REACT_ASYNC_MODE_TYPE: return "AsyncMode"; case REACT_FRAGMENT_TYPE: return "Fragment"; case REACT_PORTAL_TYPE: return "Portal"; case REACT_PROFILER_TYPE: return "Profiler"; case REACT_STRICT_MODE_TYPE: return "StrictMode"; case REACT_PLACEHOLDER_TYPE: return "Placeholder"; } if ("object" === typeof type) switch (type.$$typeof) { case REACT_CONTEXT_TYPE: return "Context.Consumer"; case REACT_PROVIDER_TYPE: return "Context.Provider"; case REACT_FORWARD_REF_TYPE: return ( (type = type.render), (type = type.displayName || type.name || ""), "" !== type ? "ForwardRef(" + type + ")" : "ForwardRef" ); } return null; } function isFiberMountedImpl(fiber) { var node = fiber; if (fiber.alternate) for (; node.return; ) node = node.return; else { if (0 !== (node.effectTag & 2)) return 1; for (; node.return; ) if (((node = node.return), 0 !== (node.effectTag & 2))) return 1; } return 3 === node.tag ? 2 : 3; } function assertIsMounted(fiber) { invariant( 2 === isFiberMountedImpl(fiber), "Unable to find node on an unmounted component." ); } function findCurrentFiberUsingSlowPath(fiber) { var alternate = fiber.alternate; if (!alternate) return ( (alternate = isFiberMountedImpl(fiber)), invariant( 3 !== alternate, "Unable to find node on an unmounted component." ), 1 === alternate ? null : fiber ); for (var a = fiber, b = alternate; ; ) { var parentA = a.return, parentB = parentA ? parentA.alternate : null; if (!parentA || !parentB) break; if (parentA.child === parentB.child) { for (var child = parentA.child; child; ) { if (child === a) return assertIsMounted(parentA), fiber; if (child === b) return assertIsMounted(parentA), alternate; child = child.sibling; } invariant(!1, "Unable to find node on an unmounted component."); } if (a.return !== b.return) (a = parentA), (b = parentB); else { child = !1; for (var _child = parentA.child; _child; ) { if (_child === a) { child = !0; a = parentA; b = parentB; break; } if (_child === b) { child = !0; b = parentA; a = parentB; break; } _child = _child.sibling; } if (!child) { for (_child = parentB.child; _child; ) { if (_child === a) { child = !0; a = parentB; b = parentA; break; } if (_child === b) { child = !0; b = parentB; a = parentA; break; } _child = _child.sibling; } invariant( child, "Child was not found in either parent set. This indicates a bug in React related to the return pointer. Please file an issue." ); } } invariant( a.alternate === b, "Return fibers should always be each others' alternates. This error is likely caused by a bug in React. Please file an issue." ); } invariant(3 === a.tag, "Unable to find node on an unmounted component."); return a.stateNode.current === a ? fiber : alternate; } function findCurrentHostFiber(parent) { parent = findCurrentFiberUsingSlowPath(parent); if (!parent) return null; for (var node = parent; ; ) { if (5 === node.tag || 6 === node.tag) return node; if (node.child) (node.child.return = node), (node = node.child); else { if (node === parent) break; for (; !node.sibling; ) { if (!node.return || node.return === parent) return null; node = node.return; } node.sibling.return = node.return; node = node.sibling; } } return null; } function findCurrentHostFiberWithNoPortals(parent) { parent = findCurrentFiberUsingSlowPath(parent); if (!parent) return null; for (var node = parent; ; ) { if (5 === node.tag || 6 === node.tag) return node; if (node.child && 4 !== node.tag) (node.child.return = node), (node = node.child); else { if (node === parent) break; for (; !node.sibling; ) { if (!node.return || node.return === parent) return null; node = node.return; } node.sibling.return = node.return; node = node.sibling; } } return null; } function mountSafeCallback(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); } }; } var emptyObject = {}, removedKeys = null, removedKeyCount = 0; function restoreDeletedValuesInNestedArray( updatePayload, node, validAttributes ) { if (Array.isArray(node)) for (var i = node.length; i-- && 0 < removedKeyCount; ) restoreDeletedValuesInNestedArray( updatePayload, node[i], validAttributes ); else if (node && 0 < removedKeyCount) for (i in removedKeys) if (removedKeys[i]) { var _nextProp = node[i]; if (void 0 !== _nextProp) { var attributeConfig = validAttributes[i]; if (attributeConfig) { "function" === typeof _nextProp && (_nextProp = !0); "undefined" === typeof _nextProp && (_nextProp = null); if ("object" !== typeof attributeConfig) updatePayload[i] = _nextProp; else if ( "function" === typeof attributeConfig.diff || "function" === typeof attributeConfig.process ) (_nextProp = "function" === typeof attributeConfig.process ? attributeConfig.process(_nextProp) : _nextProp), (updatePayload[i] = _nextProp); removedKeys[i] = !1; removedKeyCount--; } } } } function diffNestedProperty( updatePayload, prevProp, nextProp, validAttributes ) { if (!updatePayload && prevProp === nextProp) return updatePayload; if (!prevProp || !nextProp) return nextProp ? addNestedProperty(updatePayload, nextProp, validAttributes) : prevProp ? clearNestedProperty(updatePayload, prevProp, validAttributes) : updatePayload; if (!Array.isArray(prevProp) && !Array.isArray(nextProp)) return diffProperties(updatePayload, prevProp, nextProp, validAttributes); if (Array.isArray(prevProp) && Array.isArray(nextProp)) { var minLength = prevProp.length < nextProp.length ? prevProp.length : nextProp.length, i; for (i = 0; i < minLength; i++) updatePayload = diffNestedProperty( updatePayload, prevProp[i], nextProp[i], validAttributes ); for (; i < prevProp.length; i++) updatePayload = clearNestedProperty( updatePayload, prevProp[i], validAttributes ); for (; i < nextProp.length; i++) updatePayload = addNestedProperty( updatePayload, nextProp[i], validAttributes ); return updatePayload; } return Array.isArray(prevProp) ? diffProperties( updatePayload, flattenStyle(prevProp), nextProp, validAttributes ) : diffProperties( updatePayload, prevProp, flattenStyle(nextProp), validAttributes ); } function addNestedProperty(updatePayload, nextProp, validAttributes) { if (!nextProp) return updatePayload; if (!Array.isArray(nextProp)) return diffProperties( updatePayload, emptyObject, 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 diffProperties( updatePayload, prevProp, emptyObject, 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, propKey; for (propKey in nextProps) if ((attributeConfig = validAttributes[propKey])) { var prevProp = prevProps[propKey]; var nextProp = nextProps[propKey]; "function" === typeof nextProp && ((nextProp = !0), "function" === typeof prevProp && (prevProp = !0)); "undefined" === typeof nextProp && ((nextProp = null), "undefined" === typeof prevProp && (prevProp = null)); removedKeys && (removedKeys[propKey] = !1); if (updatePayload && void 0 !== updatePayload[propKey]) if ("object" !== typeof attributeConfig) updatePayload[propKey] = nextProp; else { if ( "function" === typeof attributeConfig.diff || "function" === typeof attributeConfig.process ) (attributeConfig = "function" === typeof attributeConfig.process ? attributeConfig.process(nextProp) : nextProp), (updatePayload[propKey] = attributeConfig); } else if (prevProp !== nextProp) if ("object" !== typeof attributeConfig) ("object" !== typeof nextProp || null === nextProp || deepDiffer(prevProp, nextProp)) && ((updatePayload || (updatePayload = {}))[propKey] = nextProp); else if ( "function" === typeof attributeConfig.diff || "function" === typeof attributeConfig.process ) { if ( void 0 === prevProp || ("function" === typeof attributeConfig.diff ? attributeConfig.diff(prevProp, nextProp) : "object" !== typeof nextProp || null === nextProp || deepDiffer(prevProp, nextProp)) ) (attributeConfig = "function" === typeof attributeConfig.process ? attributeConfig.process(nextProp) : nextProp), ((updatePayload || (updatePayload = {}))[ propKey ] = attributeConfig); } else (removedKeys = null), (removedKeyCount = 0), (updatePayload = diffNestedProperty( updatePayload, prevProp, nextProp, attributeConfig )), 0 < removedKeyCount && updatePayload && (restoreDeletedValuesInNestedArray( updatePayload, nextProp, attributeConfig ), (removedKeys = null)); } for (var _propKey in prevProps) void 0 === nextProps[_propKey] && (!(attributeConfig = validAttributes[_propKey]) || (updatePayload && void 0 !== updatePayload[_propKey]) || ((prevProp = prevProps[_propKey]), void 0 !== prevProp && ("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; } var now$1 = "object" === typeof performance && "function" === typeof performance.now ? function() { return performance.now(); } : function() { return Date.now(); }, scheduledCallback = null, frameDeadline = 0, frameDeadlineObject = { timeRemaining: function() { return frameDeadline - now$1(); }, didTimeout: !1 }; function setTimeoutCallback() { frameDeadline = now$1() + 5; var callback = scheduledCallback; scheduledCallback = null; null !== callback && callback(frameDeadlineObject); } var restoreTarget = null, restoreQueue = null; function restoreStateOfTarget(target) { if ((target = getInstanceFromNode(target))) { invariant( null, "Fiber needs to be injected to handle a fiber target for controlled events. This error is likely caused by a bug in React. Please file an issue." ); var props = getFiberCurrentPropsFromNode(target.stateNode); null.restoreControlledState(target.stateNode, target.type, props); } } function _batchedUpdates(fn, bookkeeping) { return fn(bookkeeping); } function _flushInteractiveUpdates() {} var isBatching = !1; function batchedUpdates(fn, bookkeeping) { if (isBatching) return fn(bookkeeping); isBatching = !0; try { return _batchedUpdates(fn, bookkeeping); } finally { if (((isBatching = !1), null !== restoreTarget || null !== restoreQueue)) if ( (_flushInteractiveUpdates(), restoreTarget && ((bookkeeping = restoreTarget), (fn = restoreQueue), (restoreQueue = restoreTarget = null), restoreStateOfTarget(bookkeeping), fn)) ) for (bookkeeping = 0; bookkeeping < fn.length; bookkeeping++) restoreStateOfTarget(fn[bookkeeping]); } } function dispatchEvent(target, topLevelType, nativeEvent) { batchedUpdates(function() { var events = nativeEvent.target; for (var events$jscomp$0 = null, i = 0; i < plugins.length; i++) { var possiblePlugin = plugins[i]; possiblePlugin && (possiblePlugin = possiblePlugin.extractEvents( topLevelType, target, nativeEvent, events )) && (events$jscomp$0 = accumulateInto(events$jscomp$0, possiblePlugin)); } events = events$jscomp$0; null !== events && (eventQueue = accumulateInto(eventQueue, events)); events = eventQueue; eventQueue = null; events && (forEachAccumulated(events, executeDispatchesAndReleaseTopLevel), invariant( !eventQueue, "processEventQueue(): Additional events were enqueued while processing an event queue. Support for this has not yet been implemented." ), ReactErrorUtils.rethrowCaughtError()); }); } function shim$1() { invariant( !1, "The current renderer does not support hyration. This error is likely caused by a bug in React. Please file an issue." ); } var nextReactTag = 2; FabricUIManager.registerEventHandler && FabricUIManager.registerEventHandler(dispatchEvent); var ReactFabricHostComponent = (function() { function ReactFabricHostComponent(tag, viewConfig, props) { if (!(this instanceof ReactFabricHostComponent)) throw new TypeError("Cannot call a class as a function"); this._nativeTag = tag; this.viewConfig = viewConfig; this.currentProps = props; } ReactFabricHostComponent.prototype.blur = function() { TextInputState.blurTextInput(this._nativeTag); }; ReactFabricHostComponent.prototype.focus = function() { TextInputState.focusTextInput(this._nativeTag); }; ReactFabricHostComponent.prototype.measure = function(callback) { UIManager.measure(this._nativeTag, mountSafeCallback(this, callback)); }; ReactFabricHostComponent.prototype.measureInWindow = function(callback) { UIManager.measureInWindow( this._nativeTag, mountSafeCallback(this, callback) ); }; ReactFabricHostComponent.prototype.measureLayout = function( relativeToNativeNode, onSuccess, onFail ) { UIManager.measureLayout( this._nativeTag, relativeToNativeNode, mountSafeCallback(this, onFail), mountSafeCallback(this, onSuccess) ); }; ReactFabricHostComponent.prototype.setNativeProps = function(nativeProps) { nativeProps = diffProperties( null, emptyObject, nativeProps, this.viewConfig.validAttributes ); null != nativeProps && UIManager.updateView( this._nativeTag, this.viewConfig.uiViewClassName, nativeProps ); }; return ReactFabricHostComponent; })(); function createTextInstance( text, rootContainerInstance, hostContext, internalInstanceHandle ) { invariant( hostContext.isInAParentText, "Text strings must be rendered within a component." ); hostContext = nextReactTag; nextReactTag += 2; return { node: FabricUIManager.createNode( hostContext, "RCTRawText", rootContainerInstance, { text: text }, internalInstanceHandle ) }; } function getStackByFiberInDevAndProd(workInProgress) { var info = ""; do { a: switch (workInProgress.tag) { case 0: case 1: case 2: case 5: case 11: var owner = workInProgress._debugOwner, source = workInProgress._debugSource; var JSCompiler_inline_result = getComponentName(workInProgress.type); var ownerName = null; owner && (ownerName = getComponentName(owner.type)); owner = source; JSCompiler_inline_result = "\n in " + (JSCompiler_inline_result || "Unknown") + (owner ? " (at " + owner.fileName.replace(/^.*[\\\/]/, "") + ":" + owner.lineNumber + ")" : ownerName ? " (created by " + ownerName + ")" : ""); break a; default: JSCompiler_inline_result = ""; } info += JSCompiler_inline_result; workInProgress = workInProgress.return; } while (workInProgress); return info; } new Set(); var valueStack = [], index = -1; function pop(cursor) { 0 > index || ((cursor.current = valueStack[index]), (valueStack[index] = null), index--); } function push(cursor, value) { index++; valueStack[index] = cursor.current; cursor.current = value; } var emptyContextObject = {}, contextStackCursor = { current: emptyContextObject }, didPerformWorkStackCursor = { current: !1 }, previousContext = emptyContextObject; function getUnmaskedContext(workInProgress) { return isContextProvider(workInProgress) ? previousContext : contextStackCursor.current; } function getMaskedContext(workInProgress, unmaskedContext) { var contextTypes = workInProgress.type.contextTypes; if (!contextTypes) return emptyContextObject; var instance = workInProgress.stateNode; if ( instance && instance.__reactInternalMemoizedUnmaskedChildContext === unmaskedContext ) return instance.__reactInternalMemoizedMaskedChildContext; var context = {}, key; for (key in contextTypes) context[key] = unmaskedContext[key]; instance && ((workInProgress = workInProgress.stateNode), (workInProgress.__reactInternalMemoizedUnmaskedChildContext = unmaskedContext), (workInProgress.__reactInternalMemoizedMaskedChildContext = context)); return context; } function isContextProvider(fiber) { return 2 === fiber.tag && null != fiber.type.childContextTypes; } function popContextProvider(fiber) { isContextProvider(fiber) && (pop(didPerformWorkStackCursor, fiber), pop(contextStackCursor, fiber)); } function popTopLevelContextObject(fiber) { pop(didPerformWorkStackCursor, fiber); pop(contextStackCursor, fiber); } function pushTopLevelContextObject(fiber, context, didChange) { invariant( contextStackCursor.current === emptyContextObject, "Unexpected context found on stack. This error is likely caused by a bug in React. Please file an issue." ); push(contextStackCursor, context, fiber); push(didPerformWorkStackCursor, didChange, fiber); } function processChildContext(fiber, parentContext) { var instance = fiber.stateNode; fiber = fiber.type; var childContextTypes = fiber.childContextTypes; if ("function" !== typeof instance.getChildContext) return parentContext; instance = instance.getChildContext(); for (var contextKey in instance) invariant( contextKey in childContextTypes, '%s.getChildContext(): key "%s" is not defined in childContextTypes.', getComponentName(fiber) || "Unknown", contextKey ); return Object.assign({}, parentContext, instance); } function pushContextProvider(workInProgress) { if (!isContextProvider(workInProgress)) return !1; var instance = workInProgress.stateNode; instance = (instance && instance.__reactInternalMemoizedMergedChildContext) || emptyContextObject; previousContext = contextStackCursor.current; push(contextStackCursor, instance, workInProgress); push( didPerformWorkStackCursor, didPerformWorkStackCursor.current, workInProgress ); return !0; } function invalidateContextProvider(workInProgress, didChange) { var instance = workInProgress.stateNode; invariant( instance, "Expected to have an instance by this point. This error is likely caused by a bug in React. Please file an issue." ); if (didChange) { var mergedContext = processChildContext(workInProgress, previousContext); instance.__reactInternalMemoizedMergedChildContext = mergedContext; pop(didPerformWorkStackCursor, workInProgress); pop(contextStackCursor, workInProgress); push(contextStackCursor, mergedContext, workInProgress); } else pop(didPerformWorkStackCursor, workInProgress); push(didPerformWorkStackCursor, didChange, workInProgress); } var onCommitFiberRoot = null, onCommitFiberUnmount = null; function catchErrors(fn) { return function(arg) { try { return fn(arg); } catch (err) {} }; } var isDevToolsPresent = "undefined" !== typeof __REACT_DEVTOOLS_GLOBAL_HOOK__; function injectInternals(internals) { if ("undefined" === typeof __REACT_DEVTOOLS_GLOBAL_HOOK__) return !1; var hook = __REACT_DEVTOOLS_GLOBAL_HOOK__; if (hook.isDisabled || !hook.supportsFiber) return !0; try { var rendererID = hook.inject(internals); onCommitFiberRoot = catchErrors(function(root) { return hook.onCommitFiberRoot(rendererID, root); }); onCommitFiberUnmount = catchErrors(function(fiber) { return hook.onCommitFiberUnmount(rendererID, fiber); }); } catch (err) {} return !0; } function FiberNode(tag, pendingProps, key, mode) { this.tag = tag; this.key = key; this.sibling = this.child = this.return = this.stateNode = this.type = null; this.index = 0; this.ref = null; this.pendingProps = pendingProps; this.firstContextDependency = this.memoizedState = this.updateQueue = this.memoizedProps = null; this.mode = mode; this.effectTag = 0; this.lastEffect = this.firstEffect = this.nextEffect = null; this.childExpirationTime = this.expirationTime = 0; this.alternate = null; this.treeBaseDuration = this.selfBaseDuration = this.actualStartTime = this.actualDuration = 0; } function createWorkInProgress(current, pendingProps, expirationTime) { var workInProgress = current.alternate; null === workInProgress ? ((workInProgress = new FiberNode( current.tag, pendingProps, current.key, current.mode )), (workInProgress.type = current.type), (workInProgress.stateNode = current.stateNode), (workInProgress.alternate = current), (current.alternate = workInProgress)) : ((workInProgress.pendingProps = pendingProps), (workInProgress.effectTag = 0), (workInProgress.nextEffect = null), (workInProgress.firstEffect = null), (workInProgress.lastEffect = null), (workInProgress.actualDuration = 0), (workInProgress.actualStartTime = 0)); workInProgress.childExpirationTime = current.childExpirationTime; workInProgress.expirationTime = pendingProps !== current.pendingProps ? expirationTime : current.expirationTime; workInProgress.child = current.child; workInProgress.memoizedProps = current.memoizedProps; workInProgress.memoizedState = current.memoizedState; workInProgress.updateQueue = current.updateQueue; workInProgress.firstContextDependency = current.firstContextDependency; workInProgress.sibling = current.sibling; workInProgress.index = current.index; workInProgress.ref = current.ref; workInProgress.selfBaseDuration = current.selfBaseDuration; workInProgress.treeBaseDuration = current.treeBaseDuration; return workInProgress; } function createFiberFromElement(element, mode, expirationTime) { var type = element.type, key = element.key; element = element.props; if ("function" === typeof type) var fiberTag = type.prototype && type.prototype.isReactComponent ? 2 : 0; else if ("string" === typeof type) fiberTag = 5; else switch (type) { case REACT_FRAGMENT_TYPE: return createFiberFromFragment( element.children, mode, expirationTime, key ); case REACT_ASYNC_MODE_TYPE: fiberTag = 11; mode |= 3; break; case REACT_STRICT_MODE_TYPE: fiberTag = 11; mode |= 2; break; case REACT_PROFILER_TYPE: return ( (type = new FiberNode(15, element, key, mode | 4)), (type.type = REACT_PROFILER_TYPE), (type.expirationTime = expirationTime), type ); case REACT_PLACEHOLDER_TYPE: fiberTag = 16; break; default: a: { switch ( "object" === typeof type && null !== type ? type.$$typeof : null ) { case REACT_PROVIDER_TYPE: fiberTag = 13; break a; case REACT_CONTEXT_TYPE: fiberTag = 12; break a; case REACT_FORWARD_REF_TYPE: fiberTag = 14; break a; default: 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, "" ); } fiberTag = void 0; } } mode = new FiberNode(fiberTag, element, key, mode); mode.type = type; mode.expirationTime = expirationTime; return mode; } function createFiberFromFragment(elements, mode, expirationTime, key) { elements = new FiberNode(10, elements, key, mode); elements.expirationTime = expirationTime; return elements; } function createFiberFromText(content, mode, expirationTime) { content = new FiberNode(6, content, null, mode); content.expirationTime = expirationTime; return content; } function createFiberFromPortal(portal, mode, expirationTime) { mode = new FiberNode( 4, null !== portal.children ? portal.children : [], portal.key, mode ); mode.expirationTime = expirationTime; mode.stateNode = { containerInfo: portal.containerInfo, pendingChildren: null, implementation: portal.implementation }; return mode; } function createFiberRoot(containerInfo, isAsync, hydrate) { isAsync = isAsync ? 3 : 0; isDevToolsPresent && (isAsync |= 4); isAsync = new FiberNode(3, null, null, isAsync); containerInfo = { current: isAsync, containerInfo: containerInfo, pendingChildren: null, earliestPendingTime: 0, latestPendingTime: 0, earliestSuspendedTime: 0, latestSuspendedTime: 0, latestPingedTime: 0, didError: !1, pendingCommitExpirationTime: 0, finishedWork: null, timeoutHandle: -1, context: null, pendingContext: null, hydrate: hydrate, nextExpirationTimeToWorkOn: 0, expirationTime: 0, firstBatch: null, nextScheduledRoot: null }; return (isAsync.stateNode = containerInfo); } function markPendingPriorityLevel(root, expirationTime) { root.didError = !1; var earliestPendingTime = root.earliestPendingTime; 0 === earliestPendingTime ? (root.earliestPendingTime = root.latestPendingTime = expirationTime) : earliestPendingTime > expirationTime ? (root.earliestPendingTime = expirationTime) : root.latestPendingTime < expirationTime && (root.latestPendingTime = expirationTime); findNextExpirationTimeToWorkOn(expirationTime, root); } function findNextExpirationTimeToWorkOn(completedExpirationTime, root) { var earliestSuspendedTime = root.earliestSuspendedTime, latestSuspendedTime = root.latestSuspendedTime, earliestPendingTime = root.earliestPendingTime, latestPingedTime = root.latestPingedTime; earliestPendingTime = 0 !== earliestPendingTime ? earliestPendingTime : latestPingedTime; 0 === earliestPendingTime && (0 === completedExpirationTime || latestSuspendedTime > completedExpirationTime) && (earliestPendingTime = latestSuspendedTime); completedExpirationTime = earliestPendingTime; 0 !== completedExpirationTime && 0 !== earliestSuspendedTime && earliestSuspendedTime < completedExpirationTime && (completedExpirationTime = earliestSuspendedTime); root.nextExpirationTimeToWorkOn = earliestPendingTime; root.expirationTime = completedExpirationTime; } var hasForceUpdate = !1; function createUpdateQueue(baseState) { return { baseState: baseState, firstUpdate: null, lastUpdate: null, firstCapturedUpdate: null, lastCapturedUpdate: null, firstEffect: null, lastEffect: null, firstCapturedEffect: null, lastCapturedEffect: null }; } function cloneUpdateQueue(currentQueue) { return { baseState: currentQueue.baseState, firstUpdate: currentQueue.firstUpdate, lastUpdate: currentQueue.lastUpdate, firstCapturedUpdate: null, lastCapturedUpdate: null, firstEffect: null, lastEffect: null, firstCapturedEffect: null, lastCapturedEffect: null }; } function createUpdate(expirationTime) { return { expirationTime: expirationTime, tag: 0, payload: null, callback: null, next: null, nextEffect: null }; } function appendUpdateToQueue(queue, update) { null === queue.lastUpdate ? (queue.firstUpdate = queue.lastUpdate = update) : ((queue.lastUpdate.next = update), (queue.lastUpdate = update)); } function enqueueUpdate(fiber, update) { var alternate = fiber.alternate; if (null === alternate) { var queue1 = fiber.updateQueue; var queue2 = null; null === queue1 && (queue1 = fiber.updateQueue = createUpdateQueue(fiber.memoizedState)); } else (queue1 = fiber.updateQueue), (queue2 = alternate.updateQueue), null === queue1 ? null === queue2 ? ((queue1 = fiber.updateQueue = createUpdateQueue( fiber.memoizedState )), (queue2 = alternate.updateQueue = createUpdateQueue( alternate.memoizedState ))) : (queue1 = fiber.updateQueue = cloneUpdateQueue(queue2)) : null === queue2 && (queue2 = alternate.updateQueue = cloneUpdateQueue(queue1)); null === queue2 || queue1 === queue2 ? appendUpdateToQueue(queue1, update) : null === queue1.lastUpdate || null === queue2.lastUpdate ? (appendUpdateToQueue(queue1, update), appendUpdateToQueue(queue2, update)) : (appendUpdateToQueue(queue1, update), (queue2.lastUpdate = update)); } function enqueueCapturedUpdate(workInProgress, update) { var workInProgressQueue = workInProgress.updateQueue; workInProgressQueue = null === workInProgressQueue ? (workInProgress.updateQueue = createUpdateQueue( workInProgress.memoizedState )) : ensureWorkInProgressQueueIsAClone(workInProgress, workInProgressQueue); null === workInProgressQueue.lastCapturedUpdate ? (workInProgressQueue.firstCapturedUpdate = workInProgressQueue.lastCapturedUpdate = update) : ((workInProgressQueue.lastCapturedUpdate.next = update), (workInProgressQueue.lastCapturedUpdate = update)); } function ensureWorkInProgressQueueIsAClone(workInProgress, queue) { var current = workInProgress.alternate; null !== current && queue === current.updateQueue && (queue = workInProgress.updateQueue = cloneUpdateQueue(queue)); return queue; } function getStateFromUpdate( workInProgress, queue, update, prevState, nextProps, instance ) { switch (update.tag) { case 1: return ( (workInProgress = update.payload), "function" === typeof workInProgress ? workInProgress.call(instance, prevState, nextProps) : workInProgress ); case 3: workInProgress.effectTag = (workInProgress.effectTag & -1025) | 64; case 0: workInProgress = update.payload; nextProps = "function" === typeof workInProgress ? workInProgress.call(instance, prevState, nextProps) : workInProgress; if (null === nextProps || void 0 === nextProps) break; return Object.assign({}, prevState, nextProps); case 2: hasForceUpdate = !0; } return prevState; } function processUpdateQueue( workInProgress, queue, props, instance, renderExpirationTime ) { hasForceUpdate = !1; queue = ensureWorkInProgressQueueIsAClone(workInProgress, queue); for ( var newBaseState = queue.baseState, newFirstUpdate = null, newExpirationTime = 0, update = queue.firstUpdate, resultState = newBaseState; null !== update; ) { var updateExpirationTime = update.expirationTime; if (updateExpirationTime > renderExpirationTime) { if ( (null === newFirstUpdate && ((newFirstUpdate = update), (newBaseState = resultState)), 0 === newExpirationTime || newExpirationTime > updateExpirationTime) ) newExpirationTime = updateExpirationTime; } else (resultState = getStateFromUpdate( workInProgress, queue, update, resultState, props, instance )), null !== update.callback && ((workInProgress.effectTag |= 32), (update.nextEffect = null), null === queue.lastEffect ? (queue.firstEffect = queue.lastEffect = update) : ((queue.lastEffect.nextEffect = update), (queue.lastEffect = update))); update = update.next; } updateExpirationTime = null; for (update = queue.firstCapturedUpdate; null !== update; ) { var _updateExpirationTime = update.expirationTime; if (_updateExpirationTime > renderExpirationTime) { if ( (null === updateExpirationTime && ((updateExpirationTime = update), null === newFirstUpdate && (newBaseState = resultState)), 0 === newExpirationTime || newExpirationTime > _updateExpirationTime) ) newExpirationTime = _updateExpirationTime; } else (resultState = getStateFromUpdate( workInProgress, queue, update, resultState, props, instance )), null !== update.callback && ((workInProgress.effectTag |= 32), (update.nextEffect = null), null === queue.lastCapturedEffect ? (queue.firstCapturedEffect = queue.lastCapturedEffect = update) : ((queue.lastCapturedEffect.nextEffect = update), (queue.lastCapturedEffect = update))); update = update.next; } null === newFirstUpdate && (queue.lastUpdate = null); null === updateExpirationTime ? (queue.lastCapturedUpdate = null) : (workInProgress.effectTag |= 32); null === newFirstUpdate && null === updateExpirationTime && (newBaseState = resultState); queue.baseState = newBaseState; queue.firstUpdate = newFirstUpdate; queue.firstCapturedUpdate = updateExpirationTime; workInProgress.expirationTime = newExpirationTime; workInProgress.memoizedState = resultState; } function callCallback(callback, context) { invariant( "function" === typeof callback, "Invalid argument passed as callback. Expected a function. Instead received: %s", callback ); callback.call(context); } function commitUpdateQueue(finishedWork, finishedQueue, instance) { null !== finishedQueue.firstCapturedUpdate && (null !== finishedQueue.lastUpdate && ((finishedQueue.lastUpdate.next = finishedQueue.firstCapturedUpdate), (finishedQueue.lastUpdate = finishedQueue.lastCapturedUpdate)), (finishedQueue.firstCapturedUpdate = finishedQueue.lastCapturedUpdate = null)); finishedWork = finishedQueue.firstEffect; for ( finishedQueue.firstEffect = finishedQueue.lastEffect = null; null !== finishedWork; ) { var _callback3 = finishedWork.callback; null !== _callback3 && ((finishedWork.callback = null), callCallback(_callback3, instance)); finishedWork = finishedWork.nextEffect; } finishedWork = finishedQueue.firstCapturedEffect; for ( finishedQueue.firstCapturedEffect = finishedQueue.lastCapturedEffect = null; null !== finishedWork; ) (finishedQueue = finishedWork.callback), null !== finishedQueue && ((finishedWork.callback = null), callCallback(finishedQueue, instance)), (finishedWork = finishedWork.nextEffect); } function createCapturedValue(value, source) { return { value: value, source: source, stack: getStackByFiberInDevAndProd(source) }; } var valueCursor = { current: null }, changedBitsCursor = { current: 0 }, currentlyRenderingFiber = null, lastContextDependency = null, lastContextWithAllBitsObserved = null; function pushProvider(providerFiber) { var context = providerFiber.type._context; push(changedBitsCursor, context._changedBits2, providerFiber); push(valueCursor, context._currentValue2, providerFiber); context._currentValue2 = providerFiber.pendingProps.value; context._changedBits2 = providerFiber.stateNode; } function popProvider(providerFiber) { var changedBits = changedBitsCursor.current, currentValue = valueCursor.current; pop(valueCursor, providerFiber); pop(changedBitsCursor, providerFiber); providerFiber = providerFiber.type._context; providerFiber._currentValue2 = currentValue; providerFiber._changedBits2 = changedBits; } function propagateContextChange( workInProgress, context, changedBits, renderExpirationTime ) { var fiber = workInProgress.child; null !== fiber && (fiber.return = workInProgress); for (; null !== fiber; ) { var dependency = fiber.firstContextDependency; if (null !== dependency) { do { if ( dependency.context === context && 0 !== (dependency.observedBits & changedBits) ) { if ( 0 === fiber.expirationTime || fiber.expirationTime > renderExpirationTime ) fiber.expirationTime = renderExpirationTime; var nextFiber = fiber.alternate; null !== nextFiber && (0 === nextFiber.expirationTime || nextFiber.expirationTime > renderExpirationTime) && (nextFiber.expirationTime = renderExpirationTime); for (var node = fiber.return; null !== node; ) { nextFiber = node.alternate; if ( 0 === node.childExpirationTime || node.childExpirationTime > renderExpirationTime ) (node.childExpirationTime = renderExpirationTime), null !== nextFiber && (0 === nextFiber.childExpirationTime || nextFiber.childExpirationTime > renderExpirationTime) && (nextFiber.childExpirationTime = renderExpirationTime); else if ( null !== nextFiber && (0 === nextFiber.childExpirationTime || nextFiber.childExpirationTime > renderExpirationTime) ) nextFiber.childExpirationTime = renderExpirationTime; else break; node = node.return; } nextFiber = null; } else nextFiber = fiber.child; dependency = dependency.next; } while (null !== dependency); } else nextFiber = 13 === fiber.tag ? fiber.type === workInProgress.type ? null : fiber.child : fiber.child; if (null !== nextFiber) nextFiber.return = fiber; else for (nextFiber = fiber; null !== nextFiber; ) { if (nextFiber === workInProgress) { nextFiber = null; break; } fiber = nextFiber.sibling; if (null !== fiber) { fiber.return = nextFiber.return; nextFiber = fiber; break; } nextFiber = nextFiber.return; } fiber = nextFiber; } } function prepareToReadContext(workInProgress, renderExpirationTime) { currentlyRenderingFiber = workInProgress; lastContextWithAllBitsObserved = lastContextDependency = null; var firstContextDependency = workInProgress.firstContextDependency; if (null !== firstContextDependency) { workInProgress.firstContextDependency = null; var hasPendingContext = !1; do { var _context = firstContextDependency.context, changedBits = _context._changedBits2; 0 !== changedBits && (propagateContextChange( workInProgress, _context, changedBits, renderExpirationTime ), 0 !== (changedBits & firstContextDependency.observedBits) && (hasPendingContext = !0)); firstContextDependency = firstContextDependency.next; } while (null !== firstContextDependency); return hasPendingContext; } return !1; } function readContext(context, observedBits) { if ( lastContextWithAllBitsObserved !== context && !1 !== observedBits && 0 !== observedBits ) { if ("number" !== typeof observedBits || 1073741823 === observedBits) (lastContextWithAllBitsObserved = context), (observedBits = 1073741823); observedBits = { context: context, observedBits: observedBits, next: null }; null === lastContextDependency ? (invariant( null !== currentlyRenderingFiber, "Context.unstable_read(): Context can only be read while React is rendering, e.g. inside the render method or getDerivedStateFromProps." ), (currentlyRenderingFiber.firstContextDependency = lastContextDependency = observedBits)) : (lastContextDependency = lastContextDependency.next = observedBits); } return context._currentValue2; } var NO_CONTEXT = {}, contextStackCursor$1 = { current: NO_CONTEXT }, contextFiberStackCursor = { current: NO_CONTEXT }, rootInstanceStackCursor = { current: NO_CONTEXT }; function requiredContext(c) { invariant( c !== NO_CONTEXT, "Expected host context to exist. This error is likely caused by a bug in React. Please file an issue." ); return c; } function pushHostContainer(fiber, nextRootInstance) { push(rootInstanceStackCursor, nextRootInstance, fiber); push(contextFiberStackCursor, fiber, fiber); push(contextStackCursor$1, NO_CONTEXT, fiber); pop(contextStackCursor$1, fiber); push(contextStackCursor$1, { isInAParentText: !1 }, fiber); } function popHostContainer(fiber) { pop(contextStackCursor$1, fiber); pop(contextFiberStackCursor, fiber); pop(rootInstanceStackCursor, fiber); } function pushHostContext(fiber) { requiredContext(rootInstanceStackCursor.current); var context = requiredContext(contextStackCursor$1.current); var nextContext = fiber.type; nextContext = "AndroidTextInput" === nextContext || "RCTMultilineTextInputView" === nextContext || "RCTSinglelineTextInputView" === nextContext || "RCTText" === nextContext || "RCTVirtualText" === nextContext; nextContext = context.isInAParentText !== nextContext ? { isInAParentText: nextContext } : context; context !== nextContext && (push(contextFiberStackCursor, fiber, fiber), push(contextStackCursor$1, nextContext, fiber)); } function popHostContext(fiber) { contextFiberStackCursor.current === fiber && (pop(contextStackCursor$1, fiber), pop(contextFiberStackCursor, fiber)); } var syncCommitStartTime = 0, timerPausedAt = 0, totalElapsedPauseTime = 0; function pauseActualRenderTimerIfRunning() { 0 === timerPausedAt && (timerPausedAt = now$1()); 0 < syncCommitStartTime ? ((totalElapsedPauseTime += now$1() - syncCommitStartTime), (syncCommitStartTime = 0)) : (totalElapsedPauseTime = 0); } function recordElapsedActualRenderTime(fiber) { fiber.actualDuration = now$1() - totalElapsedPauseTime - fiber.actualDuration; } function resumeActualRenderTimerIfPaused(isProcessingSyncWork) { isProcessingSyncWork && 0 === syncCommitStartTime && (syncCommitStartTime = now$1()); 0 < timerPausedAt && ((totalElapsedPauseTime += now$1() - timerPausedAt), (timerPausedAt = 0)); } var baseStartTime = -1, hasOwnProperty = Object.prototype.hasOwnProperty; function is(x, y) { return x === y ? 0 !== x || 0 !== y || 1 / x === 1 / y : x !== x && y !== y; } function shallowEqual(objA, objB) { if (is(objA, objB)) return !0; if ( "object" !== typeof objA || null === objA || "object" !== typeof objB || null === objB ) return !1; var keysA = Object.keys(objA), keysB = Object.keys(objB); if (keysA.length !== keysB.length) return !1; for (keysB = 0; keysB < keysA.length; keysB++) if ( !hasOwnProperty.call(objB, keysA[keysB]) || !is(objA[keysA[keysB]], objB[keysA[keysB]]) ) return !1; return !0; } var emptyRefsObject = new React.Component().refs; function applyDerivedStateFromProps( workInProgress, getDerivedStateFromProps, nextProps ) { var prevState = workInProgress.memoizedState; getDerivedStateFromProps = getDerivedStateFromProps(nextProps, prevState); prevState = null === getDerivedStateFromProps || void 0 === getDerivedStateFromProps ? prevState : Object.assign({}, prevState, getDerivedStateFromProps); workInProgress.memoizedState = prevState; getDerivedStateFromProps = workInProgress.updateQueue; null !== getDerivedStateFromProps && 0 === workInProgress.expirationTime && (getDerivedStateFromProps.baseState = prevState); } var classComponentUpdater = { isMounted: function(component) { return (component = component._reactInternalFiber) ? 2 === isFiberMountedImpl(component) : !1; }, enqueueSetState: function(inst, payload, callback) { inst = inst._reactInternalFiber; var currentTime = requestCurrentTime(); currentTime = computeExpirationForFiber(currentTime, inst); var update = createUpdate(currentTime); update.payload = payload; void 0 !== callback && null !== callback && (update.callback = callback); enqueueUpdate(inst, update); scheduleWork(inst, currentTime); }, enqueueReplaceState: function(inst, payload, callback) { inst = inst._reactInternalFiber; var currentTime = requestCurrentTime(); currentTime = computeExpirationForFiber(currentTime, inst); var update = createUpdate(currentTime); update.tag = 1; update.payload = payload; void 0 !== callback && null !== callback && (update.callback = callback); enqueueUpdate(inst, update); scheduleWork(inst, currentTime); }, enqueueForceUpdate: function(inst, callback) { inst = inst._reactInternalFiber; var currentTime = requestCurrentTime(); currentTime = computeExpirationForFiber(currentTime, inst); var update = createUpdate(currentTime); update.tag = 2; void 0 !== callback && null !== callback && (update.callback = callback); enqueueUpdate(inst, update); scheduleWork(inst, currentTime); } }; function checkShouldComponentUpdate( workInProgress, oldProps, newProps, oldState, newState, nextLegacyContext ) { var instance = workInProgress.stateNode; workInProgress = workInProgress.type; return "function" === typeof instance.shouldComponentUpdate ? instance.shouldComponentUpdate(newProps, newState, nextLegacyContext) : workInProgress.prototype && workInProgress.prototype.isPureReactComponent ? !shallowEqual(oldProps, newProps) || !shallowEqual(oldState, newState) : !0; } function callComponentWillReceiveProps( workInProgress, instance, newProps, nextLegacyContext ) { workInProgress = instance.state; "function" === typeof instance.componentWillReceiveProps && instance.componentWillReceiveProps(newProps, nextLegacyContext); "function" === typeof instance.UNSAFE_componentWillReceiveProps && instance.UNSAFE_componentWillReceiveProps(newProps, nextLegacyContext); instance.state !== workInProgress && classComponentUpdater.enqueueReplaceState(instance, instance.state, null); } function mountClassInstance(workInProgress, renderExpirationTime) { var ctor = workInProgress.type, instance = workInProgress.stateNode, props = workInProgress.pendingProps, unmaskedContext = getUnmaskedContext(workInProgress); instance.props = props; instance.state = workInProgress.memoizedState; instance.refs = emptyRefsObject; instance.context = getMaskedContext(workInProgress, unmaskedContext); unmaskedContext = workInProgress.updateQueue; null !== unmaskedContext && (processUpdateQueue( workInProgress, unmaskedContext, props, instance, renderExpirationTime ), (instance.state = workInProgress.memoizedState)); unmaskedContext = ctor.getDerivedStateFromProps; "function" === typeof unmaskedContext && (applyDerivedStateFromProps(workInProgress, unmaskedContext, props), (instance.state = workInProgress.memoizedState)); "function" === typeof ctor.getDerivedStateFromProps || "function" === typeof instance.getSnapshotBeforeUpdate || ("function" !== typeof instance.UNSAFE_componentWillMount && "function" !== typeof instance.componentWillMount) || ((ctor = instance.state), "function" === typeof instance.componentWillMount && instance.componentWillMount(), "function" === typeof instance.UNSAFE_componentWillMount && instance.UNSAFE_componentWillMount(), ctor !== instance.state && classComponentUpdater.enqueueReplaceState(instance, instance.state, null), (unmaskedContext = workInProgress.updateQueue), null !== unmaskedContext && (processUpdateQueue( workInProgress, unmaskedContext, props, instance, renderExpirationTime ), (instance.state = workInProgress.memoizedState))); "function" === typeof instance.componentDidMount && (workInProgress.effectTag |= 4); } var isArray$1 = Array.isArray; function coerceRef(returnFiber, current$$1, element) { returnFiber = element.ref; if ( null !== returnFiber && "function" !== typeof returnFiber && "object" !== typeof returnFiber ) { if (element._owner) { element = element._owner; var inst = void 0; element && (invariant( 2 === element.tag, "Stateless function components cannot have refs." ), (inst = element.stateNode)); invariant( inst, "Missing owner for string ref %s. This error is likely caused by a bug in React. Please file an issue.", returnFiber ); var stringRef = "" + returnFiber; if ( null !== current$$1 && null !== current$$1.ref && "function" === typeof current$$1.ref && current$$1.ref._stringRef === stringRef ) return current$$1.ref; current$$1 = function(value) { var refs = inst.refs; refs === emptyRefsObject && (refs = inst.refs = {}); null === value ? delete refs[stringRef] : (refs[stringRef] = value); }; current$$1._stringRef = stringRef; return current$$1; } invariant( "string" === typeof returnFiber, "Expected ref to be a function or a string." ); invariant( element._owner, "Element ref was specified as a string (%s) but no owner was set. This could happen for one of the following reasons:\n1. You may be adding a ref to a functional component\n2. You may be adding a ref to a component that was not created inside a component's render method\n3. You have multiple copies of React loaded\nSee https://fb.me/react-refs-must-have-owner for more information.", returnFiber ); } return returnFiber; } function throwOnInvalidObjectType(returnFiber, newChild) { "textarea" !== returnFiber.type && invariant( !1, "Objects are not valid as a React child (found: %s).%s", "[object Object]" === Object.prototype.toString.call(newChild) ? "object with keys {" + Object.keys(newChild).join(", ") + "}" : newChild, "" ); } function ChildReconciler(shouldTrackSideEffects) { function deleteChild(returnFiber, childToDelete) { if (shouldTrackSideEffects) { var last = returnFiber.lastEffect; null !== last ? ((last.nextEffect = childToDelete), (returnFiber.lastEffect = childToDelete)) : (returnFiber.firstEffect = returnFiber.lastEffect = childToDelete); childToDelete.nextEffect = null; childToDelete.effectTag = 8; } } function deleteRemainingChildren(returnFiber, currentFirstChild) { if (!shouldTrackSideEffects) return null; for (; null !== currentFirstChild; ) deleteChild(returnFiber, currentFirstChild), (currentFirstChild = currentFirstChild.sibling); return null; } function mapRemainingChildren(returnFiber, currentFirstChild) { for (returnFiber = new Map(); null !== currentFirstChild; ) null !== currentFirstChild.key ? returnFiber.set(currentFirstChild.key, currentFirstChild) : returnFiber.set(currentFirstChild.index, currentFirstChild), (currentFirstChild = currentFirstChild.sibling); return returnFiber; } function useFiber(fiber, pendingProps, expirationTime) { fiber = createWorkInProgress(fiber, pendingProps, expirationTime); fiber.index = 0; fiber.sibling = null; return fiber; } function placeChild(newFiber, lastPlacedIndex, newIndex) { newFiber.index = newIndex; if (!shouldTrackSideEffects) return lastPlacedIndex; newIndex = newFiber.alternate; if (null !== newIndex) return ( (newIndex = newIndex.index), newIndex < lastPlacedIndex ? ((newFiber.effectTag = 2), lastPlacedIndex) : newIndex ); newFiber.effectTag = 2; return lastPlacedIndex; } function placeSingleChild(newFiber) { shouldTrackSideEffects && null === newFiber.alternate && (newFiber.effectTag = 2); return newFiber; } function updateTextNode( returnFiber, current$$1, textContent, expirationTime ) { if (null === current$$1 || 6 !== current$$1.tag) return ( (current$$1 = createFiberFromText( textContent, returnFiber.mode, expirationTime )), (current$$1.return = returnFiber), current$$1 ); current$$1 = useFiber(current$$1, textContent, expirationTime); current$$1.return = returnFiber; return current$$1; } function updateElement(returnFiber, current$$1, element, expirationTime) { if (null !== current$$1 && current$$1.type === element.type) return ( (expirationTime = useFiber(current$$1, element.props, expirationTime)), (expirationTime.ref = coerceRef(returnFiber, current$$1, element)), (expirationTime.return = returnFiber), expirationTime ); expirationTime = createFiberFromElement( element, returnFiber.mode, expirationTime ); expirationTime.ref = coerceRef(returnFiber, current$$1, element); expirationTime.return = returnFiber; return expirationTime; } function updatePortal(returnFiber, current$$1, portal, expirationTime) { if ( null === current$$1 || 4 !== current$$1.tag || current$$1.stateNode.containerInfo !== portal.containerInfo || current$$1.stateNode.implementation !== portal.implementation ) return ( (current$$1 = createFiberFromPortal( portal, returnFiber.mode, expirationTime )), (current$$1.return = returnFiber), current$$1 ); current$$1 = useFiber(current$$1, portal.children || [], expirationTime); current$$1.return = returnFiber; return current$$1; } function updateFragment( returnFiber, current$$1, fragment, expirationTime, key ) { if (null === current$$1 || 10 !== current$$1.tag) return ( (current$$1 = createFiberFromFragment( fragment, returnFiber.mode, expirationTime, key )), (current$$1.return = returnFiber), current$$1 ); current$$1 = useFiber(current$$1, fragment, expirationTime); current$$1.return = returnFiber; return current$$1; } function createChild(returnFiber, newChild, expirationTime) { if ("string" === typeof newChild || "number" === typeof newChild) return ( (newChild = createFiberFromText( "" + newChild, returnFiber.mode, expirationTime )), (newChild.return = returnFiber), newChild ); if ("object" === typeof newChild && null !== newChild) { switch (newChild.$$typeof) { case REACT_ELEMENT_TYPE: return ( (expirationTime = createFiberFromElement( newChild, returnFiber.mode, expirationTime )), (expirationTime.ref = coerceRef(returnFiber, null, newChild)), (expirationTime.return = returnFiber), expirationTime ); case REACT_PORTAL_TYPE: return ( (newChild = createFiberFromPortal( newChild, returnFiber.mode, expirationTime )), (newChild.return = returnFiber), newChild ); } if (isArray$1(newChild) || getIteratorFn(newChild)) return ( (newChild = createFiberFromFragment( newChild, returnFiber.mode, expirationTime, null )), (newChild.return = returnFiber), newChild ); throwOnInvalidObjectType(returnFiber, newChild); } return null; } function updateSlot(returnFiber, oldFiber, newChild, expirationTime) { var key = null !== oldFiber ? oldFiber.key : null; if ("string" === typeof newChild || "number" === typeof newChild) return null !== key ? null : updateTextNode(returnFiber, oldFiber, "" + newChild, expirationTime); if ("object" === typeof newChild && null !== newChild) { switch (newChild.$$typeof) { case REACT_ELEMENT_TYPE: return newChild.key === key ? newChild.type === REACT_FRAGMENT_TYPE ? updateFragment( returnFiber, oldFiber, newChild.props.children, expirationTime, key ) : updateElement(returnFiber, oldFiber, newChild, expirationTime) : null; case REACT_PORTAL_TYPE: return newChild.key === key ? updatePortal(returnFiber, oldFiber, newChild, expirationTime) : null; } if (isArray$1(newChild) || getIteratorFn(newChild)) return null !== key ? null : updateFragment( returnFiber, oldFiber, newChild, expirationTime, null ); throwOnInvalidObjectType(returnFiber, newChild); } return null; } function updateFromMap( existingChildren, returnFiber, newIdx, newChild, expirationTime ) { if ("string" === typeof newChild || "number" === typeof newChild) return ( (existingChildren = existingChildren.get(newIdx) || null), updateTextNode( returnFiber, existingChildren, "" + newChild, expirationTime ) ); if ("object" === typeof newChild && null !== newChild) { switch (newChild.$$typeof) { case REACT_ELEMENT_TYPE: return ( (existingChildren = existingChildren.get( null === newChild.key ? newIdx : newChild.key ) || null), newChild.type === REACT_FRAGMENT_TYPE ? updateFragment( returnFiber, existingChildren, newChild.props.children, expirationTime, newChild.key ) : updateElement( returnFiber, existingChildren, newChild, expirationTime ) ); case REACT_PORTAL_TYPE: return ( (existingChildren = existingChildren.get( null === newChild.key ? newIdx : newChild.key ) || null), updatePortal( returnFiber, existingChildren, newChild, expirationTime ) ); } if (isArray$1(newChild) || getIteratorFn(newChild)) return ( (existingChildren = existingChildren.get(newIdx) || null), updateFragment( returnFiber, existingChildren, newChild, expirationTime, null ) ); throwOnInvalidObjectType(returnFiber, newChild); } return null; } function reconcileChildrenArray( returnFiber, currentFirstChild, newChildren, expirationTime ) { for ( var resultingFirstChild = null, previousNewFiber = null, oldFiber = currentFirstChild, newIdx = (currentFirstChild = 0), nextOldFiber = null; null !== oldFiber && newIdx < newChildren.length; newIdx++ ) { oldFiber.index > newIdx ? ((nextOldFiber = oldFiber), (oldFiber = null)) : (nextOldFiber = oldFiber.sibling); var newFiber = updateSlot( returnFiber, oldFiber, newChildren[newIdx], expirationTime ); if (null === newFiber) { null === oldFiber && (oldFiber = nextOldFiber); break; } shouldTrackSideEffects && oldFiber && null === newFiber.alternate && deleteChild(returnFiber, oldFiber); currentFirstChild = placeChild(newFiber, currentFirstChild, newIdx); null === previousNewFiber ? (resultingFirstChild = newFiber) : (previousNewFiber.sibling = newFiber); previousNewFiber = newFiber; oldFiber = nextOldFiber; } if (newIdx === newChildren.length) return ( deleteRemainingChildren(returnFiber, oldFiber), resultingFirstChild ); if (null === oldFiber) { for (; newIdx < newChildren.length; newIdx++) if ( (oldFiber = createChild( returnFiber, newChildren[newIdx], expirationTime )) ) (currentFirstChild = placeChild(oldFiber, currentFirstChild, newIdx)), null === previousNewFiber ? (resultingFirstChild = oldFiber) : (previousNewFiber.sibling = oldFiber), (previousNewFiber = oldFiber); return resultingFirstChild; } for ( oldFiber = mapRemainingChildren(returnFiber, oldFiber); newIdx < newChildren.length; newIdx++ ) if ( (nextOldFiber = updateFromMap( oldFiber, returnFiber, newIdx, newChildren[newIdx], expirationTime )) ) shouldTrackSideEffects && null !== nextOldFiber.alternate && oldFiber.delete( null === nextOldFiber.key ? newIdx : nextOldFiber.key ), (currentFirstChild = placeChild( nextOldFiber, currentFirstChild, newIdx )), null === previousNewFiber ? (resultingFirstChild = nextOldFiber) : (previousNewFiber.sibling = nextOldFiber), (previousNewFiber = nextOldFiber); shouldTrackSideEffects && oldFiber.forEach(function(child) { return deleteChild(returnFiber, child); }); return resultingFirstChild; } function reconcileChildrenIterator( returnFiber, currentFirstChild, newChildrenIterable, expirationTime ) { var iteratorFn = getIteratorFn(newChildrenIterable); invariant( "function" === typeof iteratorFn, "An object is not an iterable. This error is likely caused by a bug in React. Please file an issue." ); newChildrenIterable = iteratorFn.call(newChildrenIterable); invariant( null != newChildrenIterable, "An iterable object provided no iterator." ); for ( var previousNewFiber = (iteratorFn = null), oldFiber = currentFirstChild, newIdx = (currentFirstChild = 0), nextOldFiber = null, step = newChildrenIterable.next(); null !== oldFiber && !step.done; newIdx++, step = newChildrenIterable.next() ) { oldFiber.index > newIdx ? ((nextOldFiber = oldFiber), (oldFiber = null)) : (nextOldFiber = oldFiber.sibling); var newFiber = updateSlot( returnFiber, oldFiber, step.value, expirationTime ); if (null === newFiber) { oldFiber || (oldFiber = nextOldFiber); break; } shouldTrackSideEffects && oldFiber && null === newFiber.alternate && deleteChild(returnFiber, oldFiber); currentFirstChild = placeChild(newFiber, currentFirstChild, newIdx); null === previousNewFiber ? (iteratorFn = newFiber) : (previousNewFiber.sibling = newFiber); previousNewFiber = newFiber; oldFiber = nextOldFiber; } if (step.done) return deleteRemainingChildren(returnFiber, oldFiber), iteratorFn; if (null === oldFiber) { for (; !step.done; newIdx++, step = newChildrenIterable.next()) (step = createChild(returnFiber, step.value, expirationTime)), null !== step && ((currentFirstChild = placeChild(step, currentFirstChild, newIdx)), null === previousNewFiber ? (iteratorFn = step) : (previousNewFiber.sibling = step), (previousNewFiber = step)); return iteratorFn; } for ( oldFiber = mapRemainingChildren(returnFiber, oldFiber); !step.done; newIdx++, step = newChildrenIterable.next() ) (step = updateFromMap( oldFiber, returnFiber, newIdx, step.value, expirationTime )), null !== step && (shouldTrackSideEffects && null !== step.alternate && oldFiber.delete(null === step.key ? newIdx : step.key), (currentFirstChild = placeChild(step, currentFirstChild, newIdx)), null === previousNewFiber ? (iteratorFn = step) : (previousNewFiber.sibling = step), (previousNewFiber = step)); shouldTrackSideEffects && oldFiber.forEach(function(child) { return deleteChild(returnFiber, child); }); return iteratorFn; } return function(returnFiber, currentFirstChild, newChild, expirationTime) { var isUnkeyedTopLevelFragment = "object" === typeof newChild && null !== newChild && newChild.type === REACT_FRAGMENT_TYPE && null === newChild.key; isUnkeyedTopLevelFragment && (newChild = newChild.props.children); var isObject = "object" === typeof newChild && null !== newChild; if (isObject) switch (newChild.$$typeof) { case REACT_ELEMENT_TYPE: a: { isObject = newChild.key; for ( isUnkeyedTopLevelFragment = currentFirstChild; null !== isUnkeyedTopLevelFragment; ) { if (isUnkeyedTopLevelFragment.key === isObject) if ( 10 === isUnkeyedTopLevelFragment.tag ? newChild.type === REACT_FRAGMENT_TYPE : isUnkeyedTopLevelFragment.type === newChild.type ) { deleteRemainingChildren( returnFiber, isUnkeyedTopLevelFragment.sibling ); currentFirstChild = useFiber( isUnkeyedTopLevelFragment, newChild.type === REACT_FRAGMENT_TYPE ? newChild.props.children : newChild.props, expirationTime ); currentFirstChild.ref = coerceRef( returnFiber, isUnkeyedTopLevelFragment, newChild ); currentFirstChild.return = returnFiber; returnFiber = currentFirstChild; break a; } else { deleteRemainingChildren( returnFiber, isUnkeyedTopLevelFragment ); break; } else deleteChild(returnFiber, isUnkeyedTopLevelFragment); isUnkeyedTopLevelFragment = isUnkeyedTopLevelFragment.sibling; } newChild.type === REACT_FRAGMENT_TYPE ? ((currentFirstChild = createFiberFromFragment( newChild.props.children, returnFiber.mode, expirationTime, newChild.key )), (currentFirstChild.return = returnFiber), (returnFiber = currentFirstChild)) : ((expirationTime = createFiberFromElement( newChild, returnFiber.mode, expirationTime )), (expirationTime.ref = coerceRef( returnFiber, currentFirstChild, newChild )), (expirationTime.return = returnFiber), (returnFiber = expirationTime)); } return placeSingleChild(returnFiber); case REACT_PORTAL_TYPE: a: { for ( isUnkeyedTopLevelFragment = newChild.key; null !== currentFirstChild; ) { if (currentFirstChild.key === isUnkeyedTopLevelFragment) if ( 4 === currentFirstChild.tag && currentFirstChild.stateNode.containerInfo === newChild.containerInfo && currentFirstChild.stateNode.implementation === newChild.implementation ) { deleteRemainingChildren( returnFiber, currentFirstChild.sibling ); currentFirstChild = useFiber( currentFirstChild, newChild.children || [], expirationTime ); currentFirstChild.return = returnFiber; returnFiber = currentFirstChild; break a; } else { deleteRemainingChildren(returnFiber, currentFirstChild); break; } else deleteChild(returnFiber, currentFirstChild); currentFirstChild = currentFirstChild.sibling; } currentFirstChild = createFiberFromPortal( newChild, returnFiber.mode, expirationTime ); currentFirstChild.return = returnFiber; returnFiber = currentFirstChild; } return placeSingleChild(returnFiber); } if ("string" === typeof newChild || "number" === typeof newChild) return ( (newChild = "" + newChild), null !== currentFirstChild && 6 === currentFirstChild.tag ? (deleteRemainingChildren(returnFiber, currentFirstChild.sibling), (currentFirstChild = useFiber( currentFirstChild, newChild, expirationTime )), (currentFirstChild.return = returnFiber), (returnFiber = currentFirstChild)) : (deleteRemainingChildren(returnFiber, currentFirstChild), (currentFirstChild = createFiberFromText( newChild, returnFiber.mode, expirationTime )), (currentFirstChild.return = returnFiber), (returnFiber = currentFirstChild)), placeSingleChild(returnFiber) ); if (isArray$1(newChild)) return reconcileChildrenArray( returnFiber, currentFirstChild, newChild, expirationTime ); if (getIteratorFn(newChild)) return reconcileChildrenIterator( returnFiber, currentFirstChild, newChild, expirationTime ); isObject && throwOnInvalidObjectType(returnFiber, newChild); if ("undefined" === typeof newChild && !isUnkeyedTopLevelFragment) switch (returnFiber.tag) { case 2: case 1: (expirationTime = returnFiber.type), invariant( !1, "%s(...): Nothing was returned from render. This usually means a return statement is missing. Or, to render nothing, return null.", expirationTime.displayName || expirationTime.name || "Component" ); } return deleteRemainingChildren(returnFiber, currentFirstChild); }; } var reconcileChildFibers = ChildReconciler(!0), mountChildFibers = ChildReconciler(!1), hydrationParentFiber = null, nextHydratableInstance = null, isHydrating = !1; function tryHydrate(fiber, nextInstance) { switch (fiber.tag) { case 5: return ( (nextInstance = shim$1(nextInstance, fiber.type, fiber.pendingProps)), null !== nextInstance ? ((fiber.stateNode = nextInstance), !0) : !1 ); case 6: return ( (nextInstance = shim$1(nextInstance, fiber.pendingProps)), null !== nextInstance ? ((fiber.stateNode = nextInstance), !0) : !1 ); default: return !1; } } function tryToClaimNextHydratableInstance(fiber$jscomp$0) { if (isHydrating) { var nextInstance = nextHydratableInstance; if (nextInstance) { var firstAttemptedInstance = nextInstance; if (!tryHydrate(fiber$jscomp$0, nextInstance)) { nextInstance = shim$1(firstAttemptedInstance); if (!nextInstance || !tryHydrate(fiber$jscomp$0, nextInstance)) { fiber$jscomp$0.effectTag |= 2; isHydrating = !1; hydrationParentFiber = fiber$jscomp$0; return; } var returnFiber = hydrationParentFiber, fiber = new FiberNode(5, null, null, 0); fiber.type = "DELETED"; fiber.stateNode = firstAttemptedInstance; fiber.return = returnFiber; fiber.effectTag = 8; null !== returnFiber.lastEffect ? ((returnFiber.lastEffect.nextEffect = fiber), (returnFiber.lastEffect = fiber)) : (returnFiber.firstEffect = returnFiber.lastEffect = fiber); } hydrationParentFiber = fiber$jscomp$0; nextHydratableInstance = shim$1(nextInstance); } else (fiber$jscomp$0.effectTag |= 2), (isHydrating = !1), (hydrationParentFiber = fiber$jscomp$0); } } var ReactCurrentOwner$3 = ReactSharedInternals.ReactCurrentOwner; function reconcileChildren( current$$1, workInProgress, nextChildren, renderExpirationTime ) { workInProgress.child = null === current$$1 ? mountChildFibers( workInProgress, null, nextChildren, renderExpirationTime ) : reconcileChildFibers( workInProgress, current$$1.child, nextChildren, renderExpirationTime ); } function markRef(current$$1, workInProgress) { var ref = workInProgress.ref; if ( (null === current$$1 && null !== ref) || (null !== current$$1 && current$$1.ref !== ref) ) workInProgress.effectTag |= 128; } function finishClassComponent( current$$1, workInProgress, shouldUpdate, hasContext, renderExpirationTime ) { markRef(current$$1, workInProgress); var didCaptureError = 0 !== (workInProgress.effectTag & 64); if (!shouldUpdate && !didCaptureError) return ( hasContext && invalidateContextProvider(workInProgress, !1), bailoutOnAlreadyFinishedWork( current$$1, workInProgress, renderExpirationTime ) ); shouldUpdate = workInProgress.stateNode; ReactCurrentOwner$3.current = workInProgress; if (didCaptureError) { var nextChildren = null; baseStartTime = -1; } else nextChildren = shouldUpdate.render(); workInProgress.effectTag |= 1; null !== current$$1 && didCaptureError && (reconcileChildren(current$$1, workInProgress, null, renderExpirationTime), (workInProgress.child = null)); reconcileChildren( current$$1, workInProgress, nextChildren, renderExpirationTime ); workInProgress.memoizedState = shouldUpdate.state; workInProgress.memoizedProps = shouldUpdate.props; hasContext && invalidateContextProvider(workInProgress, !0); return workInProgress.child; } function pushHostRootContext(workInProgress) { var root = workInProgress.stateNode; root.pendingContext ? pushTopLevelContextObject( workInProgress, root.pendingContext, root.pendingContext !== root.context ) : root.context && pushTopLevelContextObject(workInProgress, root.context, !1); pushHostContainer(workInProgress, root.containerInfo); } function bailoutOnAlreadyFinishedWork( current$$1, workInProgress, renderExpirationTime ) { null !== current$$1 && (workInProgress.firstContextDependency = current$$1.firstContextDependency); baseStartTime = -1; var childExpirationTime = workInProgress.childExpirationTime; if (0 === childExpirationTime || childExpirationTime > renderExpirationTime) return null; invariant( null === current$$1 || workInProgress.child === current$$1.child, "Resuming work not yet implemented." ); if (null !== workInProgress.child) { current$$1 = workInProgress.child; renderExpirationTime = createWorkInProgress( current$$1, current$$1.pendingProps, current$$1.expirationTime ); workInProgress.child = renderExpirationTime; for ( renderExpirationTime.return = workInProgress; null !== current$$1.sibling; ) (current$$1 = current$$1.sibling), (renderExpirationTime = renderExpirationTime.sibling = createWorkInProgress( current$$1, current$$1.pendingProps, current$$1.expirationTime )), (renderExpirationTime.return = workInProgress); renderExpirationTime.sibling = null; } return workInProgress.child; } function beginWork(current$$1, workInProgress, renderExpirationTime) { workInProgress.mode & 4 && ((workInProgress.actualDuration = now$1() - workInProgress.actualDuration - totalElapsedPauseTime), (workInProgress.actualStartTime = now$1())); var updateExpirationTime = workInProgress.expirationTime; if ( !didPerformWorkStackCursor.current && (0 === updateExpirationTime || updateExpirationTime > renderExpirationTime) ) { switch (workInProgress.tag) { case 3: pushHostRootContext(workInProgress); break; case 5: pushHostContext(workInProgress); break; case 2: pushContextProvider(workInProgress); break; case 4: pushHostContainer( workInProgress, workInProgress.stateNode.containerInfo ); break; case 13: workInProgress.stateNode = 0; pushProvider(workInProgress); break; case 15: workInProgress.effectTag |= 4; } return bailoutOnAlreadyFinishedWork( current$$1, workInProgress, renderExpirationTime ); } workInProgress.expirationTime = 0; switch (workInProgress.tag) { case 0: invariant( null === current$$1, "An indeterminate component should never have mounted. This error is likely caused by a bug in React. Please file an issue." ); var fn = workInProgress.type; updateExpirationTime = workInProgress.pendingProps; var unmaskedContext = getUnmaskedContext(workInProgress); unmaskedContext = getMaskedContext(workInProgress, unmaskedContext); prepareToReadContext(workInProgress, renderExpirationTime); fn = fn(updateExpirationTime, unmaskedContext); workInProgress.effectTag |= 1; if ( "object" === typeof fn && null !== fn && "function" === typeof fn.render && void 0 === fn.$$typeof ) { var Component = workInProgress.type; workInProgress.tag = 2; unmaskedContext = pushContextProvider(workInProgress); workInProgress.memoizedState = null !== fn.state && void 0 !== fn.state ? fn.state : null; Component = Component.getDerivedStateFromProps; "function" === typeof Component && applyDerivedStateFromProps( workInProgress, Component, updateExpirationTime ); fn.updater = classComponentUpdater; workInProgress.stateNode = fn; fn._reactInternalFiber = workInProgress; mountClassInstance(workInProgress, renderExpirationTime); current$$1 = finishClassComponent( current$$1, workInProgress, !0, unmaskedContext, renderExpirationTime ); } else (workInProgress.tag = 1), reconcileChildren( current$$1, workInProgress, fn, renderExpirationTime ), (workInProgress.memoizedProps = updateExpirationTime), (current$$1 = workInProgress.child); return current$$1; case 1: return ( (fn = workInProgress.type), (updateExpirationTime = workInProgress.pendingProps), (unmaskedContext = getUnmaskedContext(workInProgress)), (unmaskedContext = getMaskedContext(workInProgress, unmaskedContext)), prepareToReadContext(workInProgress, renderExpirationTime), (fn = fn(updateExpirationTime, unmaskedContext)), (workInProgress.effectTag |= 1), reconcileChildren(current$$1, workInProgress, fn, renderExpirationTime), (workInProgress.memoizedProps = updateExpirationTime), workInProgress.child ); case 2: updateExpirationTime = pushContextProvider(workInProgress); fn = prepareToReadContext(workInProgress, renderExpirationTime); if (null === current$$1) if (null === workInProgress.stateNode) { var props = workInProgress.pendingProps, ctor = workInProgress.type; fn = getUnmaskedContext(workInProgress); unmaskedContext = (Component = 2 === workInProgress.tag && null != workInProgress.type.contextTypes) ? getMaskedContext(workInProgress, fn) : emptyContextObject; props = new ctor(props, unmaskedContext); workInProgress.memoizedState = null !== props.state && void 0 !== props.state ? props.state : null; props.updater = classComponentUpdater; workInProgress.stateNode = props; props._reactInternalFiber = workInProgress; Component && ((Component = workInProgress.stateNode), (Component.__reactInternalMemoizedUnmaskedChildContext = fn), (Component.__reactInternalMemoizedMaskedChildContext = unmaskedContext)); mountClassInstance(workInProgress, renderExpirationTime); fn = !0; } else { var ctor$jscomp$0 = workInProgress.type; unmaskedContext = workInProgress.stateNode; props = workInProgress.memoizedProps; Component = workInProgress.pendingProps; unmaskedContext.props = props; var oldContext = unmaskedContext.context; ctor = getUnmaskedContext(workInProgress); ctor = getMaskedContext(workInProgress, ctor); var getDerivedStateFromProps = ctor$jscomp$0.getDerivedStateFromProps; (ctor$jscomp$0 = "function" === typeof getDerivedStateFromProps || "function" === typeof unmaskedContext.getSnapshotBeforeUpdate) || ("function" !== typeof unmaskedContext.UNSAFE_componentWillReceiveProps && "function" !== typeof unmaskedContext.componentWillReceiveProps) || ((props !== Component || oldContext !== ctor) && callComponentWillReceiveProps( workInProgress, unmaskedContext, Component, ctor )); hasForceUpdate = !1; var oldState = workInProgress.memoizedState; oldContext = unmaskedContext.state = oldState; var updateQueue = workInProgress.updateQueue; null !== updateQueue && (processUpdateQueue( workInProgress, updateQueue, Component, unmaskedContext, renderExpirationTime ), (oldContext = workInProgress.memoizedState)); props !== Component || oldState !== oldContext || didPerformWorkStackCursor.current || fn || hasForceUpdate ? ("function" === typeof getDerivedStateFromProps && (applyDerivedStateFromProps( workInProgress, getDerivedStateFromProps, Component ), (oldContext = workInProgress.memoizedState)), (fn = hasForceUpdate || fn || checkShouldComponentUpdate( workInProgress, props, Component, oldState, oldContext, ctor )) ? (ctor$jscomp$0 || ("function" !== typeof unmaskedContext.UNSAFE_componentWillMount && "function" !== typeof unmaskedContext.componentWillMount) || ("function" === typeof unmaskedContext.componentWillMount && unmaskedContext.componentWillMount(), "function" === typeof unmaskedContext.UNSAFE_componentWillMount && unmaskedContext.UNSAFE_componentWillMount()), "function" === typeof unmaskedContext.componentDidMount && (workInProgress.effectTag |= 4)) : ("function" === typeof unmaskedContext.componentDidMount && (workInProgress.effectTag |= 4), (workInProgress.memoizedProps = Component), (workInProgress.memoizedState = oldContext)), (unmaskedContext.props = Component), (unmaskedContext.state = oldContext), (unmaskedContext.context = ctor)) : ("function" === typeof unmaskedContext.componentDidMount && (workInProgress.effectTag |= 4), (fn = !1)); } else (ctor$jscomp$0 = workInProgress.type), (unmaskedContext = workInProgress.stateNode), (Component = workInProgress.memoizedProps), (props = workInProgress.pendingProps), (unmaskedContext.props = Component), (oldContext = unmaskedContext.context), (ctor = getUnmaskedContext(workInProgress)), (ctor = getMaskedContext(workInProgress, ctor)), (getDerivedStateFromProps = ctor$jscomp$0.getDerivedStateFromProps), (ctor$jscomp$0 = "function" === typeof getDerivedStateFromProps || "function" === typeof unmaskedContext.getSnapshotBeforeUpdate) || ("function" !== typeof unmaskedContext.UNSAFE_componentWillReceiveProps && "function" !== typeof unmaskedContext.componentWillReceiveProps) || ((Component !== props || oldContext !== ctor) && callComponentWillReceiveProps( workInProgress, unmaskedContext, props, ctor )), (hasForceUpdate = !1), (oldContext = workInProgress.memoizedState), (oldState = unmaskedContext.state = oldContext), (updateQueue = workInProgress.updateQueue), null !== updateQueue && (processUpdateQueue( workInProgress, updateQueue, props, unmaskedContext, renderExpirationTime ), (oldState = workInProgress.memoizedState)), Component !== props || oldContext !== oldState || didPerformWorkStackCursor.current || fn || hasForceUpdate ? ("function" === typeof getDerivedStateFromProps && (applyDerivedStateFromProps( workInProgress, getDerivedStateFromProps, props ), (oldState = workInProgress.memoizedState)), (fn = hasForceUpdate || fn || checkShouldComponentUpdate( workInProgress, Component, props, oldContext, oldState, ctor )) ? (ctor$jscomp$0 || ("function" !== typeof unmaskedContext.UNSAFE_componentWillUpdate && "function" !== typeof unmaskedContext.componentWillUpdate) || ("function" === typeof unmaskedContext.componentWillUpdate && unmaskedContext.componentWillUpdate( props, oldState, ctor ), "function" === typeof unmaskedContext.UNSAFE_componentWillUpdate && unmaskedContext.UNSAFE_componentWillUpdate( props, oldState, ctor )), "function" === typeof unmaskedContext.componentDidUpdate && (workInProgress.effectTag |= 4), "function" === typeof unmaskedContext.getSnapshotBeforeUpdate && (workInProgress.effectTag |= 256)) : ("function" !== typeof unmaskedContext.componentDidUpdate || (Component === current$$1.memoizedProps && oldContext === current$$1.memoizedState) || (workInProgress.effectTag |= 4), "function" !== typeof unmaskedContext.getSnapshotBeforeUpdate || (Component === current$$1.memoizedProps && oldContext === current$$1.memoizedState) || (workInProgress.effectTag |= 256), (workInProgress.memoizedProps = props), (workInProgress.memoizedState = oldState)), (unmaskedContext.props = props), (unmaskedContext.state = oldState), (unmaskedContext.context = ctor)) : ("function" !== typeof unmaskedContext.componentDidUpdate || (Component === current$$1.memoizedProps && oldContext === current$$1.memoizedState) || (workInProgress.effectTag |= 4), "function" !== typeof unmaskedContext.getSnapshotBeforeUpdate || (Component === current$$1.memoizedProps && oldContext === current$$1.memoizedState) || (workInProgress.effectTag |= 256), (fn = !1)); return finishClassComponent( current$$1, workInProgress, fn, updateExpirationTime, renderExpirationTime ); case 3: return ( pushHostRootContext(workInProgress), (updateExpirationTime = workInProgress.updateQueue), invariant( null !== updateExpirationTime, "If the root does not have an updateQueue, we should have already bailed out. This error is likely caused by a bug in React. Please file an issue." ), (fn = workInProgress.memoizedState), (fn = null !== fn ? fn.element : null), processUpdateQueue( workInProgress, updateExpirationTime, workInProgress.pendingProps, null, renderExpirationTime ), (updateExpirationTime = workInProgress.memoizedState.element), updateExpirationTime === fn ? (current$$1 = bailoutOnAlreadyFinishedWork( current$$1, workInProgress, renderExpirationTime )) : (reconcileChildren( current$$1, workInProgress, updateExpirationTime, renderExpirationTime ), (current$$1 = workInProgress.child)), current$$1 ); case 5: return ( pushHostContext(workInProgress), null === current$$1 && tryToClaimNextHydratableInstance(workInProgress), (updateExpirationTime = workInProgress.pendingProps), (fn = updateExpirationTime.children), markRef(current$$1, workInProgress), reconcileChildren(current$$1, workInProgress, fn, renderExpirationTime), (workInProgress.memoizedProps = updateExpirationTime), (current$$1 = workInProgress.child), current$$1 ); case 6: return ( null === current$$1 && tryToClaimNextHydratableInstance(workInProgress), (workInProgress.memoizedProps = workInProgress.pendingProps), null ); case 16: return null; case 4: return ( pushHostContainer( workInProgress, workInProgress.stateNode.containerInfo ), (updateExpirationTime = workInProgress.pendingProps), null === current$$1 ? (workInProgress.child = reconcileChildFibers( workInProgress, null, updateExpirationTime, renderExpirationTime )) : reconcileChildren( current$$1, workInProgress, updateExpirationTime, renderExpirationTime ), (workInProgress.memoizedProps = updateExpirationTime), workInProgress.child ); case 14: return ( (fn = workInProgress.type.render), (updateExpirationTime = workInProgress.pendingProps), (unmaskedContext = workInProgress.ref), didPerformWorkStackCursor.current || workInProgress.memoizedProps !== updateExpirationTime || unmaskedContext !== (null !== current$$1 ? current$$1.ref : null) ? ((fn = fn(updateExpirationTime, unmaskedContext)), reconcileChildren( current$$1, workInProgress, fn, renderExpirationTime ), (workInProgress.memoizedProps = updateExpirationTime), (current$$1 = workInProgress.child)) : (current$$1 = bailoutOnAlreadyFinishedWork( current$$1, workInProgress, renderExpirationTime )), current$$1 ); case 10: return ( (updateExpirationTime = workInProgress.pendingProps), reconcileChildren( current$$1, workInProgress, updateExpirationTime, renderExpirationTime ), (workInProgress.memoizedProps = updateExpirationTime), workInProgress.child ); case 11: return ( (updateExpirationTime = workInProgress.pendingProps.children), reconcileChildren( current$$1, workInProgress, updateExpirationTime, renderExpirationTime ), (workInProgress.memoizedProps = updateExpirationTime), workInProgress.child ); case 15: return ( (workInProgress.effectTag |= 4), (updateExpirationTime = workInProgress.pendingProps), reconcileChildren( current$$1, workInProgress, updateExpirationTime.children, renderExpirationTime ), (workInProgress.memoizedProps = updateExpirationTime), workInProgress.child ); case 13: a: { updateExpirationTime = workInProgress.type._context; fn = workInProgress.pendingProps; unmaskedContext = workInProgress.memoizedProps; Component = fn.value; workInProgress.memoizedProps = fn; if (null === unmaskedContext) Component = 1073741823; else if (unmaskedContext.value === fn.value) { if ( unmaskedContext.children === fn.children && !didPerformWorkStackCursor.current ) { workInProgress.stateNode = 0; pushProvider(workInProgress); current$$1 = bailoutOnAlreadyFinishedWork( current$$1, workInProgress, renderExpirationTime ); break a; } Component = 0; } else if ( ((props = unmaskedContext.value), (props === Component && (0 !== props || 1 / props === 1 / Component)) || (props !== props && Component !== Component)) ) { if ( unmaskedContext.children === fn.children && !didPerformWorkStackCursor.current ) { workInProgress.stateNode = 0; pushProvider(workInProgress); current$$1 = bailoutOnAlreadyFinishedWork( current$$1, workInProgress, renderExpirationTime ); break a; } Component = 0; } else if ( ((Component = "function" === typeof updateExpirationTime._calculateChangedBits ? updateExpirationTime._calculateChangedBits(props, Component) : 1073741823), (Component |= 0), 0 === Component) ) { if ( unmaskedContext.children === fn.children && !didPerformWorkStackCursor.current ) { workInProgress.stateNode = 0; pushProvider(workInProgress); current$$1 = bailoutOnAlreadyFinishedWork( current$$1, workInProgress, renderExpirationTime ); break a; } } else propagateContextChange( workInProgress, updateExpirationTime, Component, renderExpirationTime ); workInProgress.stateNode = Component; pushProvider(workInProgress); reconcileChildren( current$$1, workInProgress, fn.children, renderExpirationTime ); current$$1 = workInProgress.child; } return current$$1; case 12: return ( (unmaskedContext = workInProgress.type), (updateExpirationTime = workInProgress.pendingProps), (fn = updateExpirationTime.children), prepareToReadContext(workInProgress, renderExpirationTime), (unmaskedContext = readContext( unmaskedContext, updateExpirationTime.unstable_observedBits )), (fn = fn(unmaskedContext)), (workInProgress.effectTag |= 1), reconcileChildren(current$$1, workInProgress, fn, renderExpirationTime), (workInProgress.memoizedProps = updateExpirationTime), workInProgress.child ); default: invariant( !1, "Unknown unit of work tag. This error is likely caused by a bug in React. Please file an issue." ); } } function appendAllChildren(parent, workInProgress) { for (var node = workInProgress.child; null !== node; ) { if (5 === node.tag || 6 === node.tag) FabricUIManager.appendChild(parent.node, node.stateNode.node); else if (4 !== node.tag && null !== node.child) { node.child.return = node; node = node.child; continue; } if (node === workInProgress) break; for (; null === node.sibling; ) { if (null === node.return || node.return === workInProgress) return; node = node.return; } node.sibling.return = node.return; node = node.sibling; } } var updateHostContainer = void 0, updateHostComponent$1 = void 0, updateHostText$1 = void 0; updateHostContainer = function(workInProgress) { var portalOrRoot = workInProgress.stateNode; if (null !== workInProgress.firstEffect) { var container = portalOrRoot.containerInfo, newChildSet = FabricUIManager.createChildSet(container); a: for (var node = workInProgress.child; null !== node; ) { if (5 === node.tag || 6 === node.tag) FabricUIManager.appendChildToSet(newChildSet, node.stateNode.node); else if (4 !== node.tag && null !== node.child) { node.child.return = node; node = node.child; continue; } if (node === workInProgress) break a; for (; null === node.sibling; ) { if (null === node.return || node.return === workInProgress) break a; node = node.return; } node.sibling.return = node.return; node = node.sibling; } portalOrRoot.pendingChildren = newChildSet; workInProgress.effectTag |= 4; FabricUIManager.completeRoot(container, newChildSet); } }; updateHostComponent$1 = function(current, workInProgress, updatePayload) { var childrenUnchanged = null === workInProgress.firstEffect; current = current.stateNode; if (childrenUnchanged && null === updatePayload) workInProgress.stateNode = current; else { var node = current.node; updatePayload = { node: childrenUnchanged ? null !== updatePayload ? FabricUIManager.cloneNodeWithNewProps( node, updatePayload, workInProgress ) : FabricUIManager.cloneNode(node, workInProgress) : null !== updatePayload ? FabricUIManager.cloneNodeWithNewChildrenAndProps( node, updatePayload, workInProgress ) : FabricUIManager.cloneNodeWithNewChildren(node, workInProgress), canonical: current.canonical }; workInProgress.stateNode = updatePayload; childrenUnchanged ? (workInProgress.effectTag |= 4) : appendAllChildren(updatePayload, workInProgress); } }; updateHostText$1 = function(current, workInProgress, oldText, newText) { oldText !== newText && ((current = requiredContext(rootInstanceStackCursor.current)), (oldText = requiredContext(contextStackCursor$1.current)), (workInProgress.stateNode = createTextInstance( newText, current, oldText, workInProgress )), (workInProgress.effectTag |= 4)); }; function logError(boundary, errorInfo) { var source = errorInfo.source, stack = errorInfo.stack; null === stack && null !== source && (stack = getStackByFiberInDevAndProd(source)); null !== source && getComponentName(source.type); source = null !== stack ? stack : ""; errorInfo = errorInfo.value; null !== boundary && 2 === boundary.tag && getComponentName(boundary.type); try { if (errorInfo instanceof Error) { var message = errorInfo.message, name = errorInfo.name; var errorToHandle = errorInfo; try { errorToHandle.message = (message ? name + ": " + message : name) + "\n\nThis error is located at:" + source; } catch (e) {} } else errorToHandle = "string" === typeof errorInfo ? Error(errorInfo + "\n\nThis error is located at:" + source) : Error("Unspecified error at:" + source); ExceptionsManager.handleException(errorToHandle, !1); } catch (e) { (e && e.suppressReactErrorLogging) || console.error(e); } } function safelyDetachRef(current$$1) { var ref = current$$1.ref; if (null !== ref) if ("function" === typeof ref) try { ref(null); } catch (refError) { captureCommitPhaseError(current$$1, refError); } else ref.current = null; } function commitWork(current$$1, finishedWork) { switch (finishedWork.tag) { case 2: break; case 5: break; case 6: break; case 3: case 4: break; default: invariant( !1, "This unit of work tag should not have side-effects. This error is likely caused by a bug in React. Please file an issue." ); } } function createRootErrorUpdate(fiber, errorInfo, expirationTime) { expirationTime = createUpdate(expirationTime); expirationTime.tag = 3; expirationTime.payload = { element: null }; var error = errorInfo.value; expirationTime.callback = function() { onUncaughtError(error); logError(fiber, errorInfo); }; return expirationTime; } function createClassErrorUpdate(fiber, errorInfo, expirationTime) { expirationTime = createUpdate(expirationTime); expirationTime.tag = 3; var inst = fiber.stateNode; null !== inst && "function" === typeof inst.componentDidCatch && (expirationTime.callback = function() { null === legacyErrorBoundariesThatAlreadyFailed ? (legacyErrorBoundariesThatAlreadyFailed = new Set([this])) : legacyErrorBoundariesThatAlreadyFailed.add(this); var error = errorInfo.value, stack = errorInfo.stack; logError(fiber, errorInfo); this.componentDidCatch(error, { componentStack: null !== stack ? stack : "" }); }); return expirationTime; } function unwindWork(workInProgress) { workInProgress.mode & 4 && recordElapsedActualRenderTime(workInProgress); switch (workInProgress.tag) { case 2: popContextProvider(workInProgress); var effectTag = workInProgress.effectTag; return effectTag & 1024 ? ((workInProgress.effectTag = (effectTag & -1025) | 64), workInProgress) : null; case 3: return ( popHostContainer(workInProgress), popTopLevelContextObject(workInProgress), (effectTag = workInProgress.effectTag), invariant( 0 === (effectTag & 64), "The root failed to unmount after an error. This is likely a bug in React. Please file an issue." ), (workInProgress.effectTag = (effectTag & -1025) | 64), workInProgress ); case 5: return popHostContext(workInProgress), null; case 16: return ( (effectTag = workInProgress.effectTag), effectTag & 1024 ? ((workInProgress.effectTag = (effectTag & -1025) | 64), workInProgress) : null ); case 4: return popHostContainer(workInProgress), null; case 13: return popProvider(workInProgress), null; default: return null; } } var Dispatcher = { readContext: readContext }, ReactCurrentOwner$2 = ReactSharedInternals.ReactCurrentOwner, lastUniqueAsyncExpiration = 0, expirationContext = 0, isWorking = !1, nextUnitOfWork = null, nextRoot = null, nextRenderExpirationTime = 0, nextRenderDidError = !1, nextEffect = null, isCommitting$1 = !1, legacyErrorBoundariesThatAlreadyFailed = null; function resetStack() { if (null !== nextUnitOfWork) for ( var interruptedWork = nextUnitOfWork.return; null !== interruptedWork; ) { interruptedWork.mode & 4 && resumeActualRenderTimerIfPaused(!1); var interruptedWork$jscomp$0 = interruptedWork; interruptedWork$jscomp$0.mode & 4 && recordElapsedActualRenderTime(interruptedWork$jscomp$0); switch (interruptedWork$jscomp$0.tag) { case 2: popContextProvider(interruptedWork$jscomp$0); break; case 3: popHostContainer(interruptedWork$jscomp$0); popTopLevelContextObject(interruptedWork$jscomp$0); break; case 5: popHostContext(interruptedWork$jscomp$0); break; case 4: popHostContainer(interruptedWork$jscomp$0); break; case 13: popProvider(interruptedWork$jscomp$0); } interruptedWork = interruptedWork.return; } nextRoot = null; nextRenderExpirationTime = 0; nextRenderDidError = !1; nextUnitOfWork = null; } function completeUnitOfWork(workInProgress) { for (;;) { var current$$1 = workInProgress.alternate, returnFiber = workInProgress.return, siblingFiber = workInProgress.sibling; if (0 === (workInProgress.effectTag & 512)) { var current = current$$1; current$$1 = workInProgress; var newProps = current$$1.pendingProps; switch (current$$1.tag) { case 1: break; case 2: popContextProvider(current$$1); break; case 3: popHostContainer(current$$1); popTopLevelContextObject(current$$1); var fiberRoot = current$$1.stateNode; fiberRoot.pendingContext && ((fiberRoot.context = fiberRoot.pendingContext), (fiberRoot.pendingContext = null)); if (null === current || null === current.child) current$$1.effectTag &= -3; updateHostContainer(current$$1); break; case 5: popHostContext(current$$1); fiberRoot = requiredContext(rootInstanceStackCursor.current); var type = current$$1.type; if (null !== current && null != current$$1.stateNode) { var oldProps = current.memoizedProps, instance = current$$1.stateNode, currentHostContext = requiredContext( contextStackCursor$1.current ), newProps$jscomp$0 = newProps, updatePayload = diffProperties( null, oldProps, newProps$jscomp$0, instance.canonical.viewConfig.validAttributes ); instance.canonical.currentProps = newProps$jscomp$0; updateHostComponent$1( current, current$$1, updatePayload, type, oldProps, newProps, fiberRoot, currentHostContext ); current.ref !== current$$1.ref && (current$$1.effectTag |= 128); } else newProps ? ((oldProps = requiredContext(contextStackCursor$1.current)), (current = newProps), (instance = oldProps), (currentHostContext = current$$1), (newProps = nextReactTag), (nextReactTag += 2), (oldProps = ReactNativeViewConfigRegistry.get(type)), invariant( "RCTView" !== type || !instance.isInAParentText, "Nesting of within is not currently supported." ), (type = diffProperties( null, emptyObject, current, oldProps.validAttributes )), (fiberRoot = FabricUIManager.createNode( newProps, oldProps.uiViewClassName, fiberRoot, type, currentHostContext )), (current = new ReactFabricHostComponent( newProps, oldProps, current )), (fiberRoot = { node: fiberRoot, canonical: current }), appendAllChildren(fiberRoot, current$$1), (current$$1.stateNode = fiberRoot), null !== current$$1.ref && (current$$1.effectTag |= 128)) : invariant( null !== current$$1.stateNode, "We must have new props for new mounts. This error is likely caused by a bug in React. Please file an issue." ); break; case 6: fiberRoot = newProps; current && null != current$$1.stateNode ? updateHostText$1( current, current$$1, current.memoizedProps, fiberRoot ) : ("string" !== typeof fiberRoot && invariant( null !== current$$1.stateNode, "We must have new props for new mounts. This error is likely caused by a bug in React. Please file an issue." ), (current = requiredContext(rootInstanceStackCursor.current)), (newProps = requiredContext(contextStackCursor$1.current)), (current$$1.stateNode = createTextInstance( fiberRoot, current, newProps, current$$1 ))); break; case 14: break; case 16: break; case 10: break; case 11: break; case 15: break; case 4: popHostContainer(current$$1); updateHostContainer(current$$1); break; case 13: popProvider(current$$1); break; case 12: break; case 0: invariant( !1, "An indeterminate component should have become determinate before completing. This error is likely caused by a bug in React. Please file an issue." ); default: invariant( !1, "Unknown unit of work tag. This error is likely caused by a bug in React. Please file an issue." ); } current$$1.mode & 4 && recordElapsedActualRenderTime(current$$1); current$$1 = nextUnitOfWork = null; fiberRoot = workInProgress; if ( 1073741823 === nextRenderExpirationTime || 1073741823 !== fiberRoot.childExpirationTime ) { current = 0; if (fiberRoot.mode & 4) { newProps = fiberRoot.selfBaseDuration; for (type = fiberRoot.child; null !== type; ) { oldProps = type.expirationTime; currentHostContext = type.childExpirationTime; if (0 === current || (0 !== oldProps && oldProps < current)) current = oldProps; if ( 0 === current || (0 !== currentHostContext && currentHostContext < current) ) current = currentHostContext; newProps += type.treeBaseDuration; type = type.sibling; } fiberRoot.treeBaseDuration = newProps; } else for (newProps = fiberRoot.child; null !== newProps; ) { type = newProps.expirationTime; oldProps = newProps.childExpirationTime; if (0 === current || (0 !== type && type < current)) current = type; if (0 === current || (0 !== oldProps && oldProps < current)) current = oldProps; newProps = newProps.sibling; } fiberRoot.childExpirationTime = current; } if (null !== current$$1) return current$$1; null !== returnFiber && 0 === (returnFiber.effectTag & 512) && (null === returnFiber.firstEffect && (returnFiber.firstEffect = workInProgress.firstEffect), null !== workInProgress.lastEffect && (null !== returnFiber.lastEffect && (returnFiber.lastEffect.nextEffect = workInProgress.firstEffect), (returnFiber.lastEffect = workInProgress.lastEffect)), 1 < workInProgress.effectTag && (null !== returnFiber.lastEffect ? (returnFiber.lastEffect.nextEffect = workInProgress) : (returnFiber.firstEffect = workInProgress), (returnFiber.lastEffect = workInProgress))); } else { workInProgress = unwindWork(workInProgress, nextRenderExpirationTime); if (null !== workInProgress) return (workInProgress.effectTag &= 511), workInProgress; null !== returnFiber && ((returnFiber.firstEffect = returnFiber.lastEffect = null), (returnFiber.effectTag |= 512)); } if (null !== siblingFiber) return siblingFiber; if (null !== returnFiber) workInProgress = returnFiber; else break; } return null; } function performUnitOfWork(workInProgress) { var current$$1 = workInProgress.alternate; workInProgress.mode & 4 && (baseStartTime = now$1()); current$$1 = beginWork(current$$1, workInProgress, nextRenderExpirationTime); workInProgress.mode & 4 && (-1 !== baseStartTime && (workInProgress.selfBaseDuration = now$1() - baseStartTime), (baseStartTime = -1)); null === current$$1 && (current$$1 = completeUnitOfWork(workInProgress)); ReactCurrentOwner$2.current = null; return current$$1; } function renderRoot(root, isYieldy, isExpired) { invariant( !isWorking, "renderRoot was called recursively. This error is likely caused by a bug in React. Please file an issue." ); isWorking = !0; ReactCurrentOwner$2.currentDispatcher = Dispatcher; var expirationTime = root.nextExpirationTimeToWorkOn; if ( expirationTime !== nextRenderExpirationTime || root !== nextRoot || null === nextUnitOfWork ) resetStack(), (nextRoot = root), (nextRenderExpirationTime = expirationTime), (nextUnitOfWork = createWorkInProgress( nextRoot.current, null, nextRenderExpirationTime )), (root.pendingCommitExpirationTime = 0); var didFatal = !1; do { try { if (isYieldy) { for (; null !== nextUnitOfWork && !shouldYield(); ) nextUnitOfWork = performUnitOfWork(nextUnitOfWork); pauseActualRenderTimerIfRunning(); } else for (; null !== nextUnitOfWork; ) nextUnitOfWork = performUnitOfWork(nextUnitOfWork); } catch (thrownValue) { if (((baseStartTime = -1), null === nextUnitOfWork)) (didFatal = !0), onUncaughtError(thrownValue); else { invariant( null !== nextUnitOfWork, "Failed to replay rendering after an error. This is likely caused by a bug in React. Please file an issue with a reproducing case to help us find it." ); var sourceFiber = nextUnitOfWork, returnFiber = sourceFiber.return; if (null === returnFiber) (didFatal = !0), onUncaughtError(thrownValue); else { a: { var returnFiber$jscomp$0 = returnFiber, sourceFiber$jscomp$0 = sourceFiber, value = thrownValue; returnFiber = nextRenderExpirationTime; sourceFiber$jscomp$0.effectTag |= 512; sourceFiber$jscomp$0.firstEffect = sourceFiber$jscomp$0.lastEffect = null; nextRenderDidError = !0; value = createCapturedValue(value, sourceFiber$jscomp$0); do { switch (returnFiber$jscomp$0.tag) { case 3: returnFiber$jscomp$0.effectTag |= 1024; returnFiber$jscomp$0.expirationTime = returnFiber; returnFiber = createRootErrorUpdate( returnFiber$jscomp$0, value, returnFiber ); enqueueCapturedUpdate(returnFiber$jscomp$0, returnFiber); break a; case 2: sourceFiber$jscomp$0 = value; var instance = returnFiber$jscomp$0.stateNode; if ( 0 === (returnFiber$jscomp$0.effectTag & 64) && null !== instance && "function" === typeof instance.componentDidCatch && (null === legacyErrorBoundariesThatAlreadyFailed || !legacyErrorBoundariesThatAlreadyFailed.has(instance)) ) { returnFiber$jscomp$0.effectTag |= 1024; returnFiber$jscomp$0.expirationTime = returnFiber; returnFiber = createClassErrorUpdate( returnFiber$jscomp$0, sourceFiber$jscomp$0, returnFiber ); enqueueCapturedUpdate(returnFiber$jscomp$0, returnFiber); break a; } } returnFiber$jscomp$0 = returnFiber$jscomp$0.return; } while (null !== returnFiber$jscomp$0); } nextUnitOfWork = completeUnitOfWork(sourceFiber); continue; } } } break; } while (1); isWorking = !1; lastContextWithAllBitsObserved = lastContextDependency = currentlyRenderingFiber = ReactCurrentOwner$2.currentDispatcher = null; if (didFatal) (nextRoot = null), (root.finishedWork = null); else if (null !== nextUnitOfWork) root.finishedWork = null; else { isYieldy = root.current.alternate; invariant( null !== isYieldy, "Finished root should have a work-in-progress. This error is likely caused by a bug in React. Please file an issue." ); nextRoot = null; if (nextRenderDidError) { didFatal = root.latestPendingTime; sourceFiber = root.latestSuspendedTime; returnFiber = root.latestPingedTime; if ( (0 !== didFatal && didFatal > expirationTime) || (0 !== sourceFiber && sourceFiber > expirationTime) || (0 !== returnFiber && returnFiber > expirationTime) ) { root.didError = !1; isExpired = root.latestPingedTime; 0 !== isExpired && isExpired <= expirationTime && (root.latestPingedTime = 0); isExpired = root.earliestPendingTime; isYieldy = root.latestPendingTime; isExpired === expirationTime ? (root.earliestPendingTime = isYieldy === expirationTime ? (root.latestPendingTime = 0) : isYieldy) : isYieldy === expirationTime && (root.latestPendingTime = isExpired); isExpired = root.earliestSuspendedTime; isYieldy = root.latestSuspendedTime; 0 === isExpired ? (root.earliestSuspendedTime = root.latestSuspendedTime = expirationTime) : isExpired > expirationTime ? (root.earliestSuspendedTime = expirationTime) : isYieldy < expirationTime && (root.latestSuspendedTime = expirationTime); findNextExpirationTimeToWorkOn(expirationTime, root); root.expirationTime = root.expirationTime; return; } if (!root.didError && !isExpired) { root.didError = !0; root.nextExpirationTimeToWorkOn = expirationTime; root.expirationTime = 1; return; } } root.pendingCommitExpirationTime = expirationTime; root.finishedWork = isYieldy; } } function captureCommitPhaseError(fiber, error) { var JSCompiler_inline_result; a: { invariant( !isWorking || isCommitting$1, "dispatch: Cannot dispatch during the render phase." ); for ( JSCompiler_inline_result = fiber.return; null !== JSCompiler_inline_result; ) { switch (JSCompiler_inline_result.tag) { case 2: var instance = JSCompiler_inline_result.stateNode; if ( "function" === typeof JSCompiler_inline_result.type.getDerivedStateFromCatch || ("function" === typeof instance.componentDidCatch && (null === legacyErrorBoundariesThatAlreadyFailed || !legacyErrorBoundariesThatAlreadyFailed.has(instance))) ) { fiber = createCapturedValue(error, fiber); fiber = createClassErrorUpdate(JSCompiler_inline_result, fiber, 1); enqueueUpdate(JSCompiler_inline_result, fiber); scheduleWork(JSCompiler_inline_result, 1); JSCompiler_inline_result = void 0; break a; } break; case 3: fiber = createCapturedValue(error, fiber); fiber = createRootErrorUpdate(JSCompiler_inline_result, fiber, 1); enqueueUpdate(JSCompiler_inline_result, fiber); scheduleWork(JSCompiler_inline_result, 1); JSCompiler_inline_result = void 0; break a; } JSCompiler_inline_result = JSCompiler_inline_result.return; } 3 === fiber.tag && ((JSCompiler_inline_result = createCapturedValue(error, fiber)), (JSCompiler_inline_result = createRootErrorUpdate( fiber, JSCompiler_inline_result, 1 )), enqueueUpdate(fiber, JSCompiler_inline_result), scheduleWork(fiber, 1)); JSCompiler_inline_result = void 0; } return JSCompiler_inline_result; } function computeExpirationForFiber(currentTime, fiber) { 0 !== expirationContext ? (currentTime = expirationContext) : isWorking ? (currentTime = isCommitting$1 ? 1 : nextRenderExpirationTime) : fiber.mode & 1 ? ((currentTime = isBatchingInteractiveUpdates ? 2 + 10 * ((((currentTime - 2 + 15) / 10) | 0) + 1) : 2 + 25 * ((((currentTime - 2 + 500) / 25) | 0) + 1)), null !== nextRoot && currentTime === nextRenderExpirationTime && (currentTime += 1)) : (currentTime = 1); isBatchingInteractiveUpdates && (0 === lowestPendingInteractiveExpirationTime || currentTime > lowestPendingInteractiveExpirationTime) && (lowestPendingInteractiveExpirationTime = currentTime); return currentTime; } function scheduleWork(fiber, expirationTime) { a: { if (0 === fiber.expirationTime || fiber.expirationTime > expirationTime) fiber.expirationTime = expirationTime; var alternate = fiber.alternate; null !== alternate && (0 === alternate.expirationTime || alternate.expirationTime > expirationTime) && (alternate.expirationTime = expirationTime); var node = fiber.return; if (null === node && 3 === fiber.tag) fiber = fiber.stateNode; else { for (; null !== node; ) { alternate = node.alternate; if ( 0 === node.childExpirationTime || node.childExpirationTime > expirationTime ) node.childExpirationTime = expirationTime; null !== alternate && (0 === alternate.childExpirationTime || alternate.childExpirationTime > expirationTime) && (alternate.childExpirationTime = expirationTime); if (null === node.return && 3 === node.tag) { fiber = node.stateNode; break a; } node = node.return; } fiber = null; } } null !== fiber && (!isWorking && 0 !== nextRenderExpirationTime && expirationTime < nextRenderExpirationTime && resetStack(), markPendingPriorityLevel(fiber, expirationTime), (isWorking && !isCommitting$1 && nextRoot === fiber) || requestWork(fiber, fiber.expirationTime), nestedUpdateCount > NESTED_UPDATE_LIMIT && ((nestedUpdateCount = 0), invariant( !1, "Maximum update depth exceeded. This can happen when a component repeatedly calls setState inside componentWillUpdate or componentDidUpdate. React limits the number of nested updates to prevent infinite loops." ))); } function syncUpdates(fn, a, b, c, d) { var previousExpirationContext = expirationContext; expirationContext = 1; try { return fn(a, b, c, d); } finally { expirationContext = previousExpirationContext; } } var firstScheduledRoot = null, lastScheduledRoot = null, callbackExpirationTime = 0, callbackID = void 0, isRendering = !1, nextFlushedRoot = null, nextFlushedExpirationTime = 0, lowestPendingInteractiveExpirationTime = 0, deadlineDidExpire = !1, hasUnhandledError = !1, unhandledError = null, deadline = null, isBatchingUpdates = !1, isUnbatchingUpdates = !1, isBatchingInteractiveUpdates = !1, completedBatches = null, originalStartTimeMs = now$1(), currentRendererTime = ((originalStartTimeMs / 10) | 0) + 2, currentSchedulerTime = currentRendererTime, NESTED_UPDATE_LIMIT = 50, nestedUpdateCount = 0, lastCommittedRootDuringThisBatch = null, timeHeuristicForUnitOfWork = 1; function recomputeCurrentRendererTime() { currentRendererTime = (((now$1() - originalStartTimeMs) / 10) | 0) + 2; } function scheduleCallbackWithExpirationTime(expirationTime) { if (0 !== callbackExpirationTime) { if (expirationTime > callbackExpirationTime) return; if (null !== callbackID) { var callbackID$jscomp$0 = callbackID; scheduledCallback = null; clearTimeout(callbackID$jscomp$0); } } callbackExpirationTime = expirationTime; now$1(); scheduledCallback = performAsyncWork; callbackID = setTimeout(setTimeoutCallback, 1); } function requestCurrentTime() { if (isRendering) return currentSchedulerTime; findHighestPriorityRoot(); if ( 0 === nextFlushedExpirationTime || 1073741823 === nextFlushedExpirationTime ) recomputeCurrentRendererTime(), (currentSchedulerTime = currentRendererTime); return currentSchedulerTime; } function requestWork(root, expirationTime) { if (null === root.nextScheduledRoot) (root.expirationTime = expirationTime), null === lastScheduledRoot ? ((firstScheduledRoot = lastScheduledRoot = root), (root.nextScheduledRoot = root)) : ((lastScheduledRoot = lastScheduledRoot.nextScheduledRoot = root), (lastScheduledRoot.nextScheduledRoot = firstScheduledRoot)); else { var remainingExpirationTime = root.expirationTime; if ( 0 === remainingExpirationTime || expirationTime < remainingExpirationTime ) root.expirationTime = expirationTime; } isRendering || (isBatchingUpdates ? isUnbatchingUpdates && ((nextFlushedRoot = root), (nextFlushedExpirationTime = 1), performWorkOnRoot(root, 1, !0)) : 1 === expirationTime ? performWork(1, null) : scheduleCallbackWithExpirationTime(expirationTime)); } function findHighestPriorityRoot() { var highestPriorityWork = 0, highestPriorityRoot = null; if (null !== lastScheduledRoot) for ( var previousScheduledRoot = lastScheduledRoot, root = firstScheduledRoot; null !== root; ) { var remainingExpirationTime = root.expirationTime; if (0 === remainingExpirationTime) { invariant( null !== previousScheduledRoot && null !== lastScheduledRoot, "Should have a previous and last root. This error is likely caused by a bug in React. Please file an issue." ); if (root === root.nextScheduledRoot) { firstScheduledRoot = lastScheduledRoot = root.nextScheduledRoot = null; break; } else if (root === firstScheduledRoot) (firstScheduledRoot = remainingExpirationTime = root.nextScheduledRoot), (lastScheduledRoot.nextScheduledRoot = remainingExpirationTime), (root.nextScheduledRoot = null); else if (root === lastScheduledRoot) { lastScheduledRoot = previousScheduledRoot; lastScheduledRoot.nextScheduledRoot = firstScheduledRoot; root.nextScheduledRoot = null; break; } else (previousScheduledRoot.nextScheduledRoot = root.nextScheduledRoot), (root.nextScheduledRoot = null); root = previousScheduledRoot.nextScheduledRoot; } else { if ( 0 === highestPriorityWork || remainingExpirationTime < highestPriorityWork ) (highestPriorityWork = remainingExpirationTime), (highestPriorityRoot = root); if (root === lastScheduledRoot) break; previousScheduledRoot = root; root = root.nextScheduledRoot; } } nextFlushedRoot = highestPriorityRoot; nextFlushedExpirationTime = highestPriorityWork; } function performAsyncWork(dl) { performWork(0, dl); } function performWork(minExpirationTime, dl) { deadline = dl; findHighestPriorityRoot(); resumeActualRenderTimerIfPaused(1 === minExpirationTime); if (null !== deadline) for ( recomputeCurrentRendererTime(), currentSchedulerTime = currentRendererTime; null !== nextFlushedRoot && 0 !== nextFlushedExpirationTime && (0 === minExpirationTime || minExpirationTime >= nextFlushedExpirationTime) && (!deadlineDidExpire || currentRendererTime >= nextFlushedExpirationTime); ) performWorkOnRoot( nextFlushedRoot, nextFlushedExpirationTime, currentRendererTime >= nextFlushedExpirationTime ), findHighestPriorityRoot(), recomputeCurrentRendererTime(), (currentSchedulerTime = currentRendererTime); else for ( ; null !== nextFlushedRoot && 0 !== nextFlushedExpirationTime && (0 === minExpirationTime || minExpirationTime >= nextFlushedExpirationTime); ) performWorkOnRoot(nextFlushedRoot, nextFlushedExpirationTime, !0), findHighestPriorityRoot(); null !== deadline && ((callbackExpirationTime = 0), (callbackID = null)); 0 !== nextFlushedExpirationTime && scheduleCallbackWithExpirationTime(nextFlushedExpirationTime); deadline = null; deadlineDidExpire = !1; nestedUpdateCount = 0; lastCommittedRootDuringThisBatch = null; if (null !== completedBatches) for ( minExpirationTime = completedBatches, completedBatches = null, dl = 0; dl < minExpirationTime.length; dl++ ) { var batch = minExpirationTime[dl]; try { batch._onComplete(); } catch (error) { hasUnhandledError || ((hasUnhandledError = !0), (unhandledError = error)); } } if (hasUnhandledError) throw ((minExpirationTime = unhandledError), (unhandledError = null), (hasUnhandledError = !1), minExpirationTime); } function performWorkOnRoot(root, expirationTime, isExpired) { invariant( !isRendering, "performWorkOnRoot was called recursively. This error is likely caused by a bug in React. Please file an issue." ); isRendering = !0; if (null === deadline || isExpired) { var finishedWork = root.finishedWork; null !== finishedWork ? completeRoot$1(root, finishedWork, expirationTime) : ((root.finishedWork = null), renderRoot(root, !1, isExpired), (finishedWork = root.finishedWork), null !== finishedWork && completeRoot$1(root, finishedWork, expirationTime)); } else (finishedWork = root.finishedWork), null !== finishedWork ? completeRoot$1(root, finishedWork, expirationTime) : ((root.finishedWork = null), renderRoot(root, !0, isExpired), (finishedWork = root.finishedWork), null !== finishedWork && (shouldYield() ? ((root.finishedWork = finishedWork), pauseActualRenderTimerIfRunning()) : completeRoot$1(root, finishedWork, expirationTime))); isRendering = !1; } function completeRoot$1(root, finishedWork$jscomp$0, expirationTime) { var firstBatch = root.firstBatch; if ( null !== firstBatch && firstBatch._expirationTime <= expirationTime && (null === completedBatches ? (completedBatches = [firstBatch]) : completedBatches.push(firstBatch), firstBatch._defer) ) { root.finishedWork = finishedWork$jscomp$0; root.expirationTime = 0; return; } root.finishedWork = null; root === lastCommittedRootDuringThisBatch ? nestedUpdateCount++ : ((lastCommittedRootDuringThisBatch = root), (nestedUpdateCount = 0)); isCommitting$1 = isWorking = !0; invariant( root.current !== finishedWork$jscomp$0, "Cannot commit the same tree as before. This is probably a bug related to the return field. This error is likely caused by a bug in React. Please file an issue." ); expirationTime = root.pendingCommitExpirationTime; invariant( 0 !== expirationTime, "Cannot commit an incomplete root. This error is likely caused by a bug in React. Please file an issue." ); root.pendingCommitExpirationTime = 0; firstBatch = finishedWork$jscomp$0.expirationTime; var childExpirationTimeBeforeCommit = finishedWork$jscomp$0.childExpirationTime; firstBatch = 0 === firstBatch || (0 !== childExpirationTimeBeforeCommit && childExpirationTimeBeforeCommit < firstBatch) ? childExpirationTimeBeforeCommit : firstBatch; root.didError = !1; 0 === firstBatch ? ((root.earliestPendingTime = 0), (root.latestPendingTime = 0), (root.earliestSuspendedTime = 0), (root.latestSuspendedTime = 0), (root.latestPingedTime = 0)) : ((childExpirationTimeBeforeCommit = root.latestPendingTime), 0 !== childExpirationTimeBeforeCommit && (childExpirationTimeBeforeCommit < firstBatch ? (root.earliestPendingTime = root.latestPendingTime = 0) : root.earliestPendingTime < firstBatch && (root.earliestPendingTime = root.latestPendingTime)), (childExpirationTimeBeforeCommit = root.earliestSuspendedTime), 0 === childExpirationTimeBeforeCommit ? markPendingPriorityLevel(root, firstBatch) : firstBatch > root.latestSuspendedTime ? ((root.earliestSuspendedTime = 0), (root.latestSuspendedTime = 0), (root.latestPingedTime = 0), markPendingPriorityLevel(root, firstBatch)) : firstBatch < childExpirationTimeBeforeCommit && markPendingPriorityLevel(root, firstBatch)); findNextExpirationTimeToWorkOn(0, root); ReactCurrentOwner$2.current = null; 1 < finishedWork$jscomp$0.effectTag ? null !== finishedWork$jscomp$0.lastEffect ? ((finishedWork$jscomp$0.lastEffect.nextEffect = finishedWork$jscomp$0), (firstBatch = finishedWork$jscomp$0.firstEffect)) : (firstBatch = finishedWork$jscomp$0) : (firstBatch = finishedWork$jscomp$0.firstEffect); for (nextEffect = firstBatch; null !== nextEffect; ) { childExpirationTimeBeforeCommit = !1; var error = void 0; try { for (; null !== nextEffect; ) { if (nextEffect.effectTag & 256) { var current$$1 = nextEffect.alternate, finishedWork = nextEffect; switch (finishedWork.tag) { case 2: if (finishedWork.effectTag & 256 && null !== current$$1) { var prevProps = current$$1.memoizedProps, prevState = current$$1.memoizedState, instance = finishedWork.stateNode; instance.props = finishedWork.memoizedProps; instance.state = finishedWork.memoizedState; var snapshot = instance.getSnapshotBeforeUpdate( prevProps, prevState ); instance.__reactInternalSnapshotBeforeUpdate = snapshot; } break; case 3: case 5: case 6: case 4: break; default: invariant( !1, "This unit of work tag should not have side-effects. This error is likely caused by a bug in React. Please file an issue." ); } } nextEffect = nextEffect.nextEffect; } } catch (e) { (childExpirationTimeBeforeCommit = !0), (error = e); } childExpirationTimeBeforeCommit && (invariant( null !== nextEffect, "Should have next effect. This error is likely caused by a bug in React. Please file an issue." ), captureCommitPhaseError(nextEffect, error), null !== nextEffect && (nextEffect = nextEffect.nextEffect)); } now$1(); for (nextEffect = firstBatch; null !== nextEffect; ) { current$$1 = !1; prevProps = void 0; try { for (; null !== nextEffect; ) { var effectTag = nextEffect.effectTag; if (effectTag & 128) { var current$$1$jscomp$0 = nextEffect.alternate; if (null !== current$$1$jscomp$0) { var currentRef = current$$1$jscomp$0.ref; null !== currentRef && ("function" === typeof currentRef ? currentRef(null) : (currentRef.current = null)); } } switch (effectTag & 14) { case 2: nextEffect.effectTag &= -3; break; case 6: nextEffect.effectTag &= -3; commitWork(nextEffect.alternate, nextEffect); break; case 4: commitWork(nextEffect.alternate, nextEffect); break; case 8: prevState = nextEffect; a: for (snapshot = instance = prevState; ; ) { childExpirationTimeBeforeCommit = snapshot; "function" === typeof onCommitFiberUnmount && onCommitFiberUnmount(childExpirationTimeBeforeCommit); switch (childExpirationTimeBeforeCommit.tag) { case 2: safelyDetachRef(childExpirationTimeBeforeCommit); var instance$jscomp$0 = childExpirationTimeBeforeCommit.stateNode; if ( "function" === typeof instance$jscomp$0.componentWillUnmount ) try { (instance$jscomp$0.props = childExpirationTimeBeforeCommit.memoizedProps), (instance$jscomp$0.state = childExpirationTimeBeforeCommit.memoizedState), instance$jscomp$0.componentWillUnmount(); } catch (unmountError) { captureCommitPhaseError( childExpirationTimeBeforeCommit, unmountError ); } break; case 5: safelyDetachRef(childExpirationTimeBeforeCommit); break; case 4: FabricUIManager.createChildSet( childExpirationTimeBeforeCommit.stateNode.containerInfo ); } if (null !== snapshot.child) (snapshot.child.return = snapshot), (snapshot = snapshot.child); else { if (snapshot === instance) break; for (; null === snapshot.sibling; ) { if (null === snapshot.return || snapshot.return === instance) break a; snapshot = snapshot.return; } snapshot.sibling.return = snapshot.return; snapshot = snapshot.sibling; } } prevState.return = null; prevState.child = null; prevState.alternate && ((prevState.alternate.child = null), (prevState.alternate.return = null)); } nextEffect = nextEffect.nextEffect; } } catch (e) { (current$$1 = !0), (prevProps = e); } current$$1 && (invariant( null !== nextEffect, "Should have next effect. This error is likely caused by a bug in React. Please file an issue." ), captureCommitPhaseError(nextEffect, prevProps), null !== nextEffect && (nextEffect = nextEffect.nextEffect)); } root.current = finishedWork$jscomp$0; for (nextEffect = firstBatch; null !== nextEffect; ) { effectTag = !1; current$$1$jscomp$0 = void 0; try { for (currentRef = expirationTime; null !== nextEffect; ) { var effectTag$jscomp$0 = nextEffect.effectTag; if (effectTag$jscomp$0 & 36) { var current$$1$jscomp$1 = nextEffect.alternate; instance$jscomp$0 = nextEffect; firstBatch = currentRef; switch (instance$jscomp$0.tag) { case 2: var instance$jscomp$1 = instance$jscomp$0.stateNode; if (instance$jscomp$0.effectTag & 4) if (null === current$$1$jscomp$1) (instance$jscomp$1.props = instance$jscomp$0.memoizedProps), (instance$jscomp$1.state = instance$jscomp$0.memoizedState), instance$jscomp$1.componentDidMount(); else { var prevProps$jscomp$0 = current$$1$jscomp$1.memoizedProps, prevState$jscomp$0 = current$$1$jscomp$1.memoizedState; instance$jscomp$1.props = instance$jscomp$0.memoizedProps; instance$jscomp$1.state = instance$jscomp$0.memoizedState; instance$jscomp$1.componentDidUpdate( prevProps$jscomp$0, prevState$jscomp$0, instance$jscomp$1.__reactInternalSnapshotBeforeUpdate ); } var updateQueue = instance$jscomp$0.updateQueue; null !== updateQueue && ((instance$jscomp$1.props = instance$jscomp$0.memoizedProps), (instance$jscomp$1.state = instance$jscomp$0.memoizedState), commitUpdateQueue( instance$jscomp$0, updateQueue, instance$jscomp$1, firstBatch )); break; case 3: var _updateQueue = instance$jscomp$0.updateQueue; if (null !== _updateQueue) { current$$1 = null; if (null !== instance$jscomp$0.child) switch (instance$jscomp$0.child.tag) { case 5: current$$1 = instance$jscomp$0.child.stateNode.canonical; break; case 2: current$$1 = instance$jscomp$0.child.stateNode; } commitUpdateQueue( instance$jscomp$0, _updateQueue, current$$1, firstBatch ); } break; case 5: null === current$$1$jscomp$1 && instance$jscomp$0.effectTag & 4 && invariant( !1, "The current renderer does not support mutation. This error is likely caused by a bug in React. Please file an issue." ); break; case 6: break; case 4: break; case 15: break; case 16: break; default: invariant( !1, "This unit of work tag should not have side-effects. This error is likely caused by a bug in React. Please file an issue." ); } } if (effectTag$jscomp$0 & 128) { instance$jscomp$0 = void 0; var ref = nextEffect.ref; if (null !== ref) { var instance$jscomp$2 = nextEffect.stateNode; switch (nextEffect.tag) { case 5: instance$jscomp$0 = instance$jscomp$2.canonical; break; default: instance$jscomp$0 = instance$jscomp$2; } "function" === typeof ref ? ref(instance$jscomp$0) : (ref.current = instance$jscomp$0); } } var next = nextEffect.nextEffect; nextEffect.nextEffect = null; nextEffect = next; } } catch (e) { (effectTag = !0), (current$$1$jscomp$0 = e); } effectTag && (invariant( null !== nextEffect, "Should have next effect. This error is likely caused by a bug in React. Please file an issue." ), captureCommitPhaseError(nextEffect, current$$1$jscomp$0), null !== nextEffect && (nextEffect = nextEffect.nextEffect)); } isWorking = isCommitting$1 = !1; "function" === typeof onCommitFiberRoot && onCommitFiberRoot(finishedWork$jscomp$0.stateNode); effectTag$jscomp$0 = finishedWork$jscomp$0.expirationTime; finishedWork$jscomp$0 = finishedWork$jscomp$0.childExpirationTime; finishedWork$jscomp$0 = 0 === effectTag$jscomp$0 || (0 !== finishedWork$jscomp$0 && finishedWork$jscomp$0 < effectTag$jscomp$0) ? finishedWork$jscomp$0 : effectTag$jscomp$0; 0 === finishedWork$jscomp$0 && (legacyErrorBoundariesThatAlreadyFailed = null); root.expirationTime = finishedWork$jscomp$0; root.finishedWork = null; } function shouldYield() { return deadlineDidExpire ? !0 : null === deadline || deadline.timeRemaining() > timeHeuristicForUnitOfWork ? !1 : (deadlineDidExpire = !0); } function onUncaughtError(error) { invariant( null !== nextFlushedRoot, "Should be working on a root. This error is likely caused by a bug in React. Please file an issue." ); nextFlushedRoot.expirationTime = 0; hasUnhandledError || ((hasUnhandledError = !0), (unhandledError = error)); } function updateContainerAtExpirationTime( element, container, parentComponent, expirationTime, callback ) { var current$$1 = container.current; if (parentComponent) { parentComponent = parentComponent._reactInternalFiber; var parentContext; b: { invariant( 2 === isFiberMountedImpl(parentComponent) && 2 === parentComponent.tag, "Expected subtree parent to be a mounted class component. This error is likely caused by a bug in React. Please file an issue." ); for (parentContext = parentComponent; 3 !== parentContext.tag; ) { if (isContextProvider(parentContext)) { parentContext = parentContext.stateNode.__reactInternalMemoizedMergedChildContext; break b; } parentContext = parentContext.return; invariant( parentContext, "Found unexpected detached subtree parent. This error is likely caused by a bug in React. Please file an issue." ); } parentContext = parentContext.stateNode.context; } parentComponent = isContextProvider(parentComponent) ? processChildContext(parentComponent, parentContext) : parentContext; } else parentComponent = emptyContextObject; null === container.context ? (container.context = parentComponent) : (container.pendingContext = parentComponent); container = callback; callback = createUpdate(expirationTime); callback.payload = { element: element }; container = void 0 === container ? null : container; null !== container && (callback.callback = container); enqueueUpdate(current$$1, callback); scheduleWork(current$$1, expirationTime); return expirationTime; } function findHostInstance$1(component) { var fiber = component._reactInternalFiber; void 0 === fiber && ("function" === typeof component.render ? invariant(!1, "Unable to find node on an unmounted component.") : invariant( !1, "Argument appears to not be a ReactComponent. Keys: %s", Object.keys(component) )); component = findCurrentHostFiber(fiber); return null === component ? null : component.stateNode; } function updateContainer(element, container, parentComponent, callback) { var current$$1 = container.current, currentTime = requestCurrentTime(); current$$1 = computeExpirationForFiber(currentTime, current$$1); return updateContainerAtExpirationTime( element, container, parentComponent, current$$1, callback ); } function getPublicRootInstance(container) { container = container.current; if (!container.child) return null; switch (container.child.tag) { case 5: return container.child.stateNode.canonical; default: return container.child.stateNode; } } function injectIntoDevTools(devToolsConfig) { var findFiberByHostInstance = devToolsConfig.findFiberByHostInstance; return injectInternals( Object.assign({}, devToolsConfig, { findHostInstanceByFiber: function(fiber) { fiber = findCurrentHostFiber(fiber); return null === fiber ? null : fiber.stateNode; }, findFiberByHostInstance: function(instance) { return findFiberByHostInstance ? findFiberByHostInstance(instance) : null; } }) ); } var ReactFabricRenderer = { updateContainerAtExpirationTime: updateContainerAtExpirationTime, createContainer: function(containerInfo, isAsync, hydrate) { return createFiberRoot(containerInfo, isAsync, hydrate); }, updateContainer: updateContainer, flushRoot: function(root, expirationTime) { invariant( !isRendering, "work.commit(): Cannot commit while already rendering. This likely means you attempted to commit from inside a lifecycle method." ); nextFlushedRoot = root; nextFlushedExpirationTime = expirationTime; performWorkOnRoot(root, expirationTime, !0); performWork(1, null); pauseActualRenderTimerIfRunning(); }, requestWork: requestWork, computeUniqueAsyncExpiration: function() { var result = 2 + 25 * ((((requestCurrentTime() - 2 + 500) / 25) | 0) + 1); result <= lastUniqueAsyncExpiration && (result = lastUniqueAsyncExpiration + 1); return (lastUniqueAsyncExpiration = result); }, batchedUpdates: function(fn, a) { var previousIsBatchingUpdates = isBatchingUpdates; isBatchingUpdates = !0; try { return fn(a); } finally { (isBatchingUpdates = previousIsBatchingUpdates) || isRendering || performWork(1, null); } }, unbatchedUpdates: function(fn, a) { if (isBatchingUpdates && !isUnbatchingUpdates) { isUnbatchingUpdates = !0; try { return fn(a); } finally { isUnbatchingUpdates = !1; } } return fn(a); }, deferredUpdates: function(fn) { var currentTime = requestCurrentTime(), previousExpirationContext = expirationContext; expirationContext = 2 + 25 * ((((currentTime - 2 + 500) / 25) | 0) + 1); try { return fn(); } finally { expirationContext = previousExpirationContext; } }, syncUpdates: syncUpdates, interactiveUpdates: function(fn, a, b) { if (isBatchingInteractiveUpdates) return fn(a, b); isBatchingUpdates || isRendering || 0 === lowestPendingInteractiveExpirationTime || (performWork(lowestPendingInteractiveExpirationTime, null), (lowestPendingInteractiveExpirationTime = 0)); var previousIsBatchingInteractiveUpdates = isBatchingInteractiveUpdates, previousIsBatchingUpdates = isBatchingUpdates; isBatchingUpdates = isBatchingInteractiveUpdates = !0; try { return fn(a, b); } finally { (isBatchingInteractiveUpdates = previousIsBatchingInteractiveUpdates), (isBatchingUpdates = previousIsBatchingUpdates) || isRendering || performWork(1, null); } }, flushInteractiveUpdates: function() { isRendering || 0 === lowestPendingInteractiveExpirationTime || (performWork(lowestPendingInteractiveExpirationTime, null), (lowestPendingInteractiveExpirationTime = 0)); }, flushControlled: function(fn) { var previousIsBatchingUpdates = isBatchingUpdates; isBatchingUpdates = !0; try { syncUpdates(fn); } finally { (isBatchingUpdates = previousIsBatchingUpdates) || isRendering || performWork(1, null); } }, flushSync: function(fn, a) { invariant( !isRendering, "flushSync was called from inside a lifecycle method. It cannot be called when React is already rendering." ); var previousIsBatchingUpdates = isBatchingUpdates; isBatchingUpdates = !0; try { return syncUpdates(fn, a); } finally { (isBatchingUpdates = previousIsBatchingUpdates), performWork(1, null); } }, getPublicRootInstance: getPublicRootInstance, findHostInstance: findHostInstance$1, findHostInstanceWithNoPortals: function(fiber) { fiber = findCurrentHostFiberWithNoPortals(fiber); return null === fiber ? null : fiber.stateNode; }, injectIntoDevTools: injectIntoDevTools }; function createPortal(children, containerInfo, implementation) { var key = 3 < arguments.length && void 0 !== arguments[3] ? arguments[3] : null; return { $$typeof: REACT_PORTAL_TYPE, key: null == key ? null : "" + key, children: children, containerInfo: containerInfo, implementation: implementation }; } 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 getInspectorDataForViewTag = void 0; getInspectorDataForViewTag = function() { invariant(!1, "getInspectorDataForViewTag() is not available in production"); }; function findNodeHandle(componentOrHandle) { if (null == componentOrHandle) return null; if ("number" === typeof componentOrHandle) return componentOrHandle; if (componentOrHandle._nativeTag) return componentOrHandle._nativeTag; if (componentOrHandle.canonical && componentOrHandle.canonical._nativeTag) return componentOrHandle.canonical._nativeTag; componentOrHandle = findHostInstance$1(componentOrHandle); return null == componentOrHandle ? componentOrHandle : componentOrHandle.canonical ? componentOrHandle.canonical._nativeTag : componentOrHandle._nativeTag; } _batchedUpdates = ReactFabricRenderer.batchedUpdates; _flushInteractiveUpdates = ReactFabricRenderer.flushInteractiveUpdates; var roots = new Map(), ReactFabric = { NativeComponent: (function(findNodeHandle, findHostInstance) { return (function(_React$Component) { function ReactNativeComponent() { if (!(this instanceof ReactNativeComponent)) throw new TypeError("Cannot call a class as a function"); var call = _React$Component.apply(this, arguments); if (!this) throw new ReferenceError( "this hasn't been initialised - super() hasn't been called" ); return !call || ("object" !== typeof call && "function" !== typeof call) ? this : call; } _inherits(ReactNativeComponent, _React$Component); ReactNativeComponent.prototype.blur = function() { TextInputState.blurTextInput(findNodeHandle(this)); }; ReactNativeComponent.prototype.focus = function() { TextInputState.focusTextInput(findNodeHandle(this)); }; ReactNativeComponent.prototype.measure = function(callback) { UIManager.measure( findNodeHandle(this), mountSafeCallback(this, callback) ); }; ReactNativeComponent.prototype.measureInWindow = function(callback) { UIManager.measureInWindow( findNodeHandle(this), mountSafeCallback(this, callback) ); }; ReactNativeComponent.prototype.measureLayout = function( relativeToNativeNode, onSuccess, onFail ) { UIManager.measureLayout( findNodeHandle(this), relativeToNativeNode, mountSafeCallback(this, onFail), mountSafeCallback(this, onSuccess) ); }; ReactNativeComponent.prototype.setNativeProps = function(nativeProps) { var maybeInstance = void 0; try { maybeInstance = findHostInstance(this); } catch (error) {} if (null != maybeInstance) { var viewConfig = maybeInstance.viewConfig || maybeInstance.canonical.viewConfig; nativeProps = diffProperties( null, emptyObject, nativeProps, viewConfig.validAttributes ); null != nativeProps && UIManager.updateView( maybeInstance._nativeTag, viewConfig.uiViewClassName, nativeProps ); } }; return ReactNativeComponent; })(React.Component); })(findNodeHandle, findHostInstance$1), findNodeHandle: findNodeHandle, render: function(element, containerTag, callback) { var root = roots.get(containerTag); root || ((root = createFiberRoot(containerTag, !1, !1)), roots.set(containerTag, root)); updateContainer(element, root, null, callback); return getPublicRootInstance(root); }, unmountComponentAtNode: function(containerTag) { var root = roots.get(containerTag); root && updateContainer(null, root, null, function() { roots.delete(containerTag); }); }, createPortal: function(children, containerTag) { return createPortal( children, containerTag, null, 2 < arguments.length && void 0 !== arguments[2] ? arguments[2] : null ); }, __SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED: { NativeMethodsMixin: (function(findNodeHandle, findHostInstance) { return { measure: function(callback) { UIManager.measure( findNodeHandle(this), mountSafeCallback(this, callback) ); }, measureInWindow: function(callback) { UIManager.measureInWindow( findNodeHandle(this), mountSafeCallback(this, callback) ); }, measureLayout: function(relativeToNativeNode, onSuccess, onFail) { UIManager.measureLayout( findNodeHandle(this), relativeToNativeNode, mountSafeCallback(this, onFail), mountSafeCallback(this, onSuccess) ); }, setNativeProps: function(nativeProps) { var maybeInstance = void 0; try { maybeInstance = findHostInstance(this); } catch (error) {} if (null != maybeInstance) { var viewConfig = maybeInstance.viewConfig; nativeProps = diffProperties( null, emptyObject, nativeProps, viewConfig.validAttributes ); null != nativeProps && UIManager.updateView( maybeInstance._nativeTag, viewConfig.uiViewClassName, nativeProps ); } }, focus: function() { TextInputState.focusTextInput(findNodeHandle(this)); }, blur: function() { TextInputState.blurTextInput(findNodeHandle(this)); } }; })(findNodeHandle, findHostInstance$1) } }; injectIntoDevTools({ findFiberByHostInstance: getInstanceFromInstance, getInspectorDataForViewTag: getInspectorDataForViewTag, bundleType: 0, version: "16.4.1", rendererPackageName: "react-native-renderer" }); var ReactFabric$2 = { default: ReactFabric }, ReactFabric$3 = (ReactFabric$2 && ReactFabric) || ReactFabric$2; module.exports = ReactFabric$3.default ? ReactFabric$3.default : ReactFabric$3;