react-native/Libraries/Renderer/oss/ReactFabric-prod.js

5746 lines
196 KiB
JavaScript

/**
* 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-prod
* @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 <Text> 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) {}
};
}
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;
}
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.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;
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 = new FiberNode(3, null, null, isAsync ? 3 : 0);
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 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$$1,
workInProgress,
renderExpirationTime
)
);
shouldUpdate = workInProgress.stateNode;
ReactCurrentOwner$3.current = workInProgress;
var nextChildren = didCaptureError ? null : shouldUpdate.render();
workInProgress.effectTag |= 1;
null !== current$$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$$1.firstContextDependency);
var childExpirationTime = workInProgress.childExpirationTime;
if (0 === childExpirationTime || childExpirationTime > renderExpirationTime)
return null;
invariant(
null === current$$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) {
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);
}
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$$1,
workInProgress,
updateExpirationTime,
renderExpirationTime
),
(workInProgress.memoizedProps = updateExpirationTime),
workInProgress.child
);
case 15:
return (
(updateExpirationTime = workInProgress.pendingProps),
reconcileChildren(
current$$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) {
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$1 = !1,
legacyErrorBoundariesThatAlreadyFailed = null;
function resetStack() {
if (null !== nextUnitOfWork)
for (
var interruptedWork = nextUnitOfWork.return;
null !== interruptedWork;
) {
var interruptedWork$jscomp$0 = interruptedWork;
switch (interruptedWork$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$$1),
(newProps = nextReactTag),
(nextReactTag += 2),
(oldProps = ReactNativeViewConfigRegistry.get(type)),
invariant(
"RCTView" !== type || !instance.isInAParentText,
"Nesting of <View> within <Text> is not currently supported."
),
(type = diffProperties(
null,
emptyObject,
current,
oldProps.validAttributes
)),
(fiberRoot = FabricUIManager.createNode(
newProps,
oldProps.uiViewClassName,
fiberRoot,
type,
currentHostContext
)),
(current = new ReactFabricHostComponent(
newProps,
oldProps,
current
)),
(fiberRoot = { node: fiberRoot, canonical: current }),
appendAllChildren(fiberRoot, current$$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$$1 = nextUnitOfWork = null;
fiberRoot = workInProgress;
if (
1073741823 === nextRenderExpirationTime ||
1073741823 !== fiberRoot.childExpirationTime
) {
current = 0;
for (newProps = fiberRoot.child; null !== newProps; ) {
type = newProps.expirationTime;
oldProps = newProps.childExpirationTime;
if (0 === current || (0 !== type && type < current)) current = type;
if (0 === current || (0 !== oldProps && oldProps < current))
current = oldProps;
newProps = newProps.sibling;
}
fiberRoot.childExpirationTime = current;
}
if (null !== current$$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 next = beginWork(
workInProgress.alternate,
workInProgress,
nextRenderExpirationTime
);
null === next && (next = completeUnitOfWork(workInProgress));
ReactCurrentOwner$2.current = null;
return next;
}
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);
else
for (; null !== nextUnitOfWork; )
nextUnitOfWork = performUnitOfWork(nextUnitOfWork);
} catch (thrownValue) {
if (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();
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)
: 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$$1.memoizedState,
instance = finishedWork.stateNode;
instance.props = finishedWork.memoizedProps;
instance.state = finishedWork.memoizedState;
var snapshot = instance.getSnapshotBeforeUpdate(
prevProps,
prevState
);
instance.__reactInternalSnapshotBeforeUpdate = snapshot;
}
break;
case 3:
case 5:
case 6:
case 4:
break;
default:
invariant(
!1,
"This unit of work tag should not have side-effects. This error is likely caused by a bug in React. Please file an issue."
);
}
}
nextEffect = nextEffect.nextEffect;
}
} catch (e) {
(childExpirationTimeBeforeCommit = !0), (error = e);
}
childExpirationTimeBeforeCommit &&
(invariant(
null !== nextEffect,
"Should have next effect. This error is likely caused by a bug in React. Please file an issue."
),
captureCommitPhaseError(nextEffect, error),
null !== nextEffect && (nextEffect = nextEffect.nextEffect));
}
for (nextEffect = firstBatch; null !== nextEffect; ) {
current$$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);
},
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;