import require$$0 from 'react';
var reactDom_development = {};
var getOwnPropertySymbols = Object.getOwnPropertySymbols;
var hasOwnProperty = Object.prototype.hasOwnProperty;
var propIsEnumerable = Object.prototype.propertyIsEnumerable;
function toObject(val) {
if (val === null || val === undefined) {
throw new TypeError('Object.assign cannot be called with null or undefined');
}
return Object(val);
}
function shouldUseNative() {
try {
if (!Object.assign) {
return false;
}
var test1 = new String('abc');
test1[5] = 'de';
if (Object.getOwnPropertyNames(test1)[0] === '5') {
return false;
}
var test2 = {};
for (var i = 0; i < 10; i++) {
test2['_' + String.fromCharCode(i)] = i;
}
var order2 = Object.getOwnPropertyNames(test2).map(function (n) {
return test2[n];
});
if (order2.join('') !== '0123456789') {
return false;
}
var test3 = {};
'abcdefghijklmnopqrst'.split('').forEach(function (letter) {
test3[letter] = letter;
});
if (Object.keys(Object.assign({}, test3)).join('') !==
'abcdefghijklmnopqrst') {
return false;
}
return true;
} catch (err) {
return false;
}
}
var objectAssign = shouldUseNative() ? Object.assign : function (target, source) {
var from;
var to = toObject(target);
var symbols;
for (var s = 1; s < arguments.length; s++) {
from = Object(arguments[s]);
for (var key in from) {
if (hasOwnProperty.call(from, key)) {
to[key] = from[key];
}
}
if (getOwnPropertySymbols) {
symbols = getOwnPropertySymbols(from);
for (var i = 0; i < symbols.length; i++) {
if (propIsEnumerable.call(from, symbols[i])) {
to[symbols[i]] = from[symbols[i]];
}
}
}
}
return to;
};
var scheduler = {exports: {}};
var scheduler_production_min = {};
(function (exports) {
var f,g,h,k;if("object"===typeof performance&&"function"===typeof performance.now){var l=performance;exports.unstable_now=function(){return l.now()};}else {var p=Date,q=p.now();exports.unstable_now=function(){return p.now()-q};}
if("undefined"===typeof window||"function"!==typeof MessageChannel){var t=null,u=null,w=function(){if(null!==t)try{var a=exports.unstable_now();t(!0,a);t=null;}catch(b){throw setTimeout(w,0),b;}};f=function(a){null!==t?setTimeout(f,0,a):(t=a,setTimeout(w,0));};g=function(a,b){u=setTimeout(a,b);};h=function(){clearTimeout(u);};exports.unstable_shouldYield=function(){return !1};k=exports.unstable_forceFrameRate=function(){};}else {var x=window.setTimeout,y=window.clearTimeout;if("undefined"!==typeof console){var z=
window.cancelAnimationFrame;"function"!==typeof window.requestAnimationFrame&&console.error("This browser doesn't support requestAnimationFrame. Make sure that you load a polyfill in older browsers. https://reactjs.org/link/react-polyfills");"function"!==typeof z&&console.error("This browser doesn't support cancelAnimationFrame. Make sure that you load a polyfill in older browsers. https://reactjs.org/link/react-polyfills");}var A=!1,B=null,C=-1,D=5,E=0;exports.unstable_shouldYield=function(){return exports.unstable_now()>=
E};k=function(){};exports.unstable_forceFrameRate=function(a){0>a||125<a?console.error("forceFrameRate takes a positive int between 0 and 125, forcing frame rates higher than 125 fps is not supported"):D=0<a?Math.floor(1E3/a):5;};var F=new MessageChannel,G=F.port2;F.port1.onmessage=function(){if(null!==B){var a=exports.unstable_now();E=a+D;try{B(!0,a)?G.postMessage(null):(A=!1,B=null);}catch(b){throw G.postMessage(null),b;}}else A=!1;};f=function(a){B=a;A||(A=!0,G.postMessage(null));};g=function(a,b){C=
x(function(){a(exports.unstable_now());},b);};h=function(){y(C);C=-1;};}function H(a,b){var c=a.length;a.push(b);a:for(;;){var d=c-1>>>1,e=a[d];if(void 0!==e&&0<I(e,b))a[d]=b,a[c]=e,c=d;else break a}}function J(a){a=a[0];return void 0===a?null:a}
function K(a){var b=a[0];if(void 0!==b){var c=a.pop();if(c!==b){a[0]=c;a:for(var d=0,e=a.length;d<e;){var m=2*(d+1)-1,n=a[m],v=m+1,r=a[v];if(void 0!==n&&0>I(n,c))void 0!==r&&0>I(r,n)?(a[d]=r,a[v]=c,d=v):(a[d]=n,a[m]=c,d=m);else if(void 0!==r&&0>I(r,c))a[d]=r,a[v]=c,d=v;else break a}}return b}return null}function I(a,b){var c=a.sortIndex-b.sortIndex;return 0!==c?c:a.id-b.id}var L=[],M=[],N=1,O=null,P=3,Q=!1,R=!1,S=!1;
function T(a){for(var b=J(M);null!==b;){if(null===b.callback)K(M);else if(b.startTime<=a)K(M),b.sortIndex=b.expirationTime,H(L,b);else break;b=J(M);}}function U(a){S=!1;T(a);if(!R)if(null!==J(L))R=!0,f(V);else {var b=J(M);null!==b&&g(U,b.startTime-a);}}
function V(a,b){R=!1;S&&(S=!1,h());Q=!0;var c=P;try{T(b);for(O=J(L);null!==O&&(!(O.expirationTime>b)||a&&!exports.unstable_shouldYield());){var d=O.callback;if("function"===typeof d){O.callback=null;P=O.priorityLevel;var e=d(O.expirationTime<=b);b=exports.unstable_now();"function"===typeof e?O.callback=e:O===J(L)&&K(L);T(b);}else K(L);O=J(L);}if(null!==O)var m=!0;else {var n=J(M);null!==n&&g(U,n.startTime-b);m=!1;}return m}finally{O=null,P=c,Q=!1;}}var W=k;exports.unstable_IdlePriority=5;
exports.unstable_ImmediatePriority=1;exports.unstable_LowPriority=4;exports.unstable_NormalPriority=3;exports.unstable_Profiling=null;exports.unstable_UserBlockingPriority=2;exports.unstable_cancelCallback=function(a){a.callback=null;};exports.unstable_continueExecution=function(){R||Q||(R=!0,f(V));};exports.unstable_getCurrentPriorityLevel=function(){return P};exports.unstable_getFirstCallbackNode=function(){return J(L)};
exports.unstable_next=function(a){switch(P){case 1:case 2:case 3:var b=3;break;default:b=P;}var c=P;P=b;try{return a()}finally{P=c;}};exports.unstable_pauseExecution=function(){};exports.unstable_requestPaint=W;exports.unstable_runWithPriority=function(a,b){switch(a){case 1:case 2:case 3:case 4:case 5:break;default:a=3;}var c=P;P=a;try{return b()}finally{P=c;}};
exports.unstable_scheduleCallback=function(a,b,c){var d=exports.unstable_now();"object"===typeof c&&null!==c?(c=c.delay,c="number"===typeof c&&0<c?d+c:d):c=d;switch(a){case 1:var e=-1;break;case 2:e=250;break;case 5:e=1073741823;break;case 4:e=1E4;break;default:e=5E3;}e=c+e;a={id:N++,callback:b,priorityLevel:a,startTime:c,expirationTime:e,sortIndex:-1};c>d?(a.sortIndex=c,H(M,a),null===J(L)&&a===J(M)&&(S?h():S=!0,g(U,c-d))):(a.sortIndex=e,H(L,a),R||Q||(R=!0,f(V)));return a};
exports.unstable_wrapCallback=function(a){var b=P;return function(){var c=P;P=b;try{return a.apply(this,arguments)}finally{P=c;}}};
}(scheduler_production_min));
var scheduler_development = {};
(function (exports) {
{
(function() {
var enableSchedulerDebugging = false;
var enableProfiling = false;
var requestHostCallback;
var requestHostTimeout;
var cancelHostTimeout;
var requestPaint;
var hasPerformanceNow = typeof performance === 'object' && typeof performance.now === 'function';
if (hasPerformanceNow) {
var localPerformance = performance;
exports.unstable_now = function () {
return localPerformance.now();
};
} else {
var localDate = Date;
var initialTime = localDate.now();
exports.unstable_now = function () {
return localDate.now() - initialTime;
};
}
if (
typeof window === 'undefined' ||
typeof MessageChannel !== 'function') {
var _callback = null;
var _timeoutID = null;
var _flushCallback = function () {
if (_callback !== null) {
try {
var currentTime = exports.unstable_now();
var hasRemainingTime = true;
_callback(hasRemainingTime, currentTime);
_callback = null;
} catch (e) {
setTimeout(_flushCallback, 0);
throw e;
}
}
};
requestHostCallback = function (cb) {
if (_callback !== null) {
setTimeout(requestHostCallback, 0, cb);
} else {
_callback = cb;
setTimeout(_flushCallback, 0);
}
};
requestHostTimeout = function (cb, ms) {
_timeoutID = setTimeout(cb, ms);
};
cancelHostTimeout = function () {
clearTimeout(_timeoutID);
};
exports.unstable_shouldYield = function () {
return false;
};
requestPaint = exports.unstable_forceFrameRate = function () {};
} else {
var _setTimeout = window.setTimeout;
var _clearTimeout = window.clearTimeout;
if (typeof console !== 'undefined') {
var requestAnimationFrame = window.requestAnimationFrame;
var cancelAnimationFrame = window.cancelAnimationFrame;
if (typeof requestAnimationFrame !== 'function') {
console['error']("This browser doesn't support requestAnimationFrame. " + 'Make sure that you load a ' + 'polyfill in older browsers. https://reactjs.org/link/react-polyfills');
}
if (typeof cancelAnimationFrame !== 'function') {
console['error']("This browser doesn't support cancelAnimationFrame. " + 'Make sure that you load a ' + 'polyfill in older browsers. https://reactjs.org/link/react-polyfills');
}
}
var isMessageLoopRunning = false;
var scheduledHostCallback = null;
var taskTimeoutID = -1;
var yieldInterval = 5;
var deadline = 0;
{
exports.unstable_shouldYield = function () {
return exports.unstable_now() >= deadline;
};
requestPaint = function () {};
}
exports.unstable_forceFrameRate = function (fps) {
if (fps < 0 || fps > 125) {
console['error']('forceFrameRate takes a positive int between 0 and 125, ' + 'forcing frame rates higher than 125 fps is not supported');
return;
}
if (fps > 0) {
yieldInterval = Math.floor(1000 / fps);
} else {
yieldInterval = 5;
}
};
var performWorkUntilDeadline = function () {
if (scheduledHostCallback !== null) {
var currentTime = exports.unstable_now();
deadline = currentTime + yieldInterval;
var hasTimeRemaining = true;
try {
var hasMoreWork = scheduledHostCallback(hasTimeRemaining, currentTime);
if (!hasMoreWork) {
isMessageLoopRunning = false;
scheduledHostCallback = null;
} else {
port.postMessage(null);
}
} catch (error) {
port.postMessage(null);
throw error;
}
} else {
isMessageLoopRunning = false;
}
};
var channel = new MessageChannel();
var port = channel.port2;
channel.port1.onmessage = performWorkUntilDeadline;
requestHostCallback = function (callback) {
scheduledHostCallback = callback;
if (!isMessageLoopRunning) {
isMessageLoopRunning = true;
port.postMessage(null);
}
};
requestHostTimeout = function (callback, ms) {
taskTimeoutID = _setTimeout(function () {
callback(exports.unstable_now());
}, ms);
};
cancelHostTimeout = function () {
_clearTimeout(taskTimeoutID);
taskTimeoutID = -1;
};
}
function push(heap, node) {
var index = heap.length;
heap.push(node);
siftUp(heap, node, index);
}
function peek(heap) {
var first = heap[0];
return first === undefined ? null : first;
}
function pop(heap) {
var first = heap[0];
if (first !== undefined) {
var last = heap.pop();
if (last !== first) {
heap[0] = last;
siftDown(heap, last, 0);
}
return first;
} else {
return null;
}
}
function siftUp(heap, node, i) {
var index = i;
while (true) {
var parentIndex = index - 1 >>> 1;
var parent = heap[parentIndex];
if (parent !== undefined && compare(parent, node) > 0) {
heap[parentIndex] = node;
heap[index] = parent;
index = parentIndex;
} else {
return;
}
}
}
function siftDown(heap, node, i) {
var index = i;
var length = heap.length;
while (index < length) {
var leftIndex = (index + 1) * 2 - 1;
var left = heap[leftIndex];
var rightIndex = leftIndex + 1;
var right = heap[rightIndex];
if (left !== undefined && compare(left, node) < 0) {
if (right !== undefined && compare(right, left) < 0) {
heap[index] = right;
heap[rightIndex] = node;
index = rightIndex;
} else {
heap[index] = left;
heap[leftIndex] = node;
index = leftIndex;
}
} else if (right !== undefined && compare(right, node) < 0) {
heap[index] = right;
heap[rightIndex] = node;
index = rightIndex;
} else {
return;
}
}
}
function compare(a, b) {
var diff = a.sortIndex - b.sortIndex;
return diff !== 0 ? diff : a.id - b.id;
}
var ImmediatePriority = 1;
var UserBlockingPriority = 2;
var NormalPriority = 3;
var LowPriority = 4;
var IdlePriority = 5;
function markTaskErrored(task, ms) {
}
var maxSigned31BitInt = 1073741823;
var IMMEDIATE_PRIORITY_TIMEOUT = -1;
var USER_BLOCKING_PRIORITY_TIMEOUT = 250;
var NORMAL_PRIORITY_TIMEOUT = 5000;
var LOW_PRIORITY_TIMEOUT = 10000;
var IDLE_PRIORITY_TIMEOUT = maxSigned31BitInt;
var taskQueue = [];
var timerQueue = [];
var taskIdCounter = 1;
var currentTask = null;
var currentPriorityLevel = NormalPriority;
var isPerformingWork = false;
var isHostCallbackScheduled = false;
var isHostTimeoutScheduled = false;
function advanceTimers(currentTime) {
var timer = peek(timerQueue);
while (timer !== null) {
if (timer.callback === null) {
pop(timerQueue);
} else if (timer.startTime <= currentTime) {
pop(timerQueue);
timer.sortIndex = timer.expirationTime;
push(taskQueue, timer);
} else {
return;
}
timer = peek(timerQueue);
}
}
function handleTimeout(currentTime) {
isHostTimeoutScheduled = false;
advanceTimers(currentTime);
if (!isHostCallbackScheduled) {
if (peek(taskQueue) !== null) {
isHostCallbackScheduled = true;
requestHostCallback(flushWork);
} else {
var firstTimer = peek(timerQueue);
if (firstTimer !== null) {
requestHostTimeout(handleTimeout, firstTimer.startTime - currentTime);
}
}
}
}
function flushWork(hasTimeRemaining, initialTime) {
isHostCallbackScheduled = false;
if (isHostTimeoutScheduled) {
isHostTimeoutScheduled = false;
cancelHostTimeout();
}
isPerformingWork = true;
var previousPriorityLevel = currentPriorityLevel;
try {
var currentTime; if (enableProfiling) ; else {
return workLoop(hasTimeRemaining, initialTime);
}
} finally {
currentTask = null;
currentPriorityLevel = previousPriorityLevel;
isPerformingWork = false;
}
}
function workLoop(hasTimeRemaining, initialTime) {
var currentTime = initialTime;
advanceTimers(currentTime);
currentTask = peek(taskQueue);
while (currentTask !== null && !(enableSchedulerDebugging )) {
if (currentTask.expirationTime > currentTime && (!hasTimeRemaining || exports.unstable_shouldYield())) {
break;
}
var callback = currentTask.callback;
if (typeof callback === 'function') {
currentTask.callback = null;
currentPriorityLevel = currentTask.priorityLevel;
var didUserCallbackTimeout = currentTask.expirationTime <= currentTime;
var continuationCallback = callback(didUserCallbackTimeout);
currentTime = exports.unstable_now();
if (typeof continuationCallback === 'function') {
currentTask.callback = continuationCallback;
} else {
if (currentTask === peek(taskQueue)) {
pop(taskQueue);
}
}
advanceTimers(currentTime);
} else {
pop(taskQueue);
}
currentTask = peek(taskQueue);
}
if (currentTask !== null) {
return true;
} else {
var firstTimer = peek(timerQueue);
if (firstTimer !== null) {
requestHostTimeout(handleTimeout, firstTimer.startTime - currentTime);
}
return false;
}
}
function unstable_runWithPriority(priorityLevel, eventHandler) {
switch (priorityLevel) {
case ImmediatePriority:
case UserBlockingPriority:
case NormalPriority:
case LowPriority:
case IdlePriority:
break;
default:
priorityLevel = NormalPriority;
}
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = priorityLevel;
try {
return eventHandler();
} finally {
currentPriorityLevel = previousPriorityLevel;
}
}
function unstable_next(eventHandler) {
var priorityLevel;
switch (currentPriorityLevel) {
case ImmediatePriority:
case UserBlockingPriority:
case NormalPriority:
priorityLevel = NormalPriority;
break;
default:
priorityLevel = currentPriorityLevel;
break;
}
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = priorityLevel;
try {
return eventHandler();
} finally {
currentPriorityLevel = previousPriorityLevel;
}
}
function unstable_wrapCallback(callback) {
var parentPriorityLevel = currentPriorityLevel;
return function () {
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = parentPriorityLevel;
try {
return callback.apply(this, arguments);
} finally {
currentPriorityLevel = previousPriorityLevel;
}
};
}
function unstable_scheduleCallback(priorityLevel, callback, options) {
var currentTime = exports.unstable_now();
var startTime;
if (typeof options === 'object' && options !== null) {
var delay = options.delay;
if (typeof delay === 'number' && delay > 0) {
startTime = currentTime + delay;
} else {
startTime = currentTime;
}
} else {
startTime = currentTime;
}
var timeout;
switch (priorityLevel) {
case ImmediatePriority:
timeout = IMMEDIATE_PRIORITY_TIMEOUT;
break;
case UserBlockingPriority:
timeout = USER_BLOCKING_PRIORITY_TIMEOUT;
break;
case IdlePriority:
timeout = IDLE_PRIORITY_TIMEOUT;
break;
case LowPriority:
timeout = LOW_PRIORITY_TIMEOUT;
break;
case NormalPriority:
default:
timeout = NORMAL_PRIORITY_TIMEOUT;
break;
}
var expirationTime = startTime + timeout;
var newTask = {
id: taskIdCounter++,
callback: callback,
priorityLevel: priorityLevel,
startTime: startTime,
expirationTime: expirationTime,
sortIndex: -1
};
if (startTime > currentTime) {
newTask.sortIndex = startTime;
push(timerQueue, newTask);
if (peek(taskQueue) === null && newTask === peek(timerQueue)) {
if (isHostTimeoutScheduled) {
cancelHostTimeout();
} else {
isHostTimeoutScheduled = true;
}
requestHostTimeout(handleTimeout, startTime - currentTime);
}
} else {
newTask.sortIndex = expirationTime;
push(taskQueue, newTask);
if (!isHostCallbackScheduled && !isPerformingWork) {
isHostCallbackScheduled = true;
requestHostCallback(flushWork);
}
}
return newTask;
}
function unstable_pauseExecution() {
}
function unstable_continueExecution() {
if (!isHostCallbackScheduled && !isPerformingWork) {
isHostCallbackScheduled = true;
requestHostCallback(flushWork);
}
}
function unstable_getFirstCallbackNode() {
return peek(taskQueue);
}
function unstable_cancelCallback(task) {
task.callback = null;
}
function unstable_getCurrentPriorityLevel() {
return currentPriorityLevel;
}
var unstable_requestPaint = requestPaint;
var unstable_Profiling = null;
exports.unstable_IdlePriority = IdlePriority;
exports.unstable_ImmediatePriority = ImmediatePriority;
exports.unstable_LowPriority = LowPriority;
exports.unstable_NormalPriority = NormalPriority;
exports.unstable_Profiling = unstable_Profiling;
exports.unstable_UserBlockingPriority = UserBlockingPriority;
exports.unstable_cancelCallback = unstable_cancelCallback;
exports.unstable_continueExecution = unstable_continueExecution;
exports.unstable_getCurrentPriorityLevel = unstable_getCurrentPriorityLevel;
exports.unstable_getFirstCallbackNode = unstable_getFirstCallbackNode;
exports.unstable_next = unstable_next;
exports.unstable_pauseExecution = unstable_pauseExecution;
exports.unstable_requestPaint = unstable_requestPaint;
exports.unstable_runWithPriority = unstable_runWithPriority;
exports.unstable_scheduleCallback = unstable_scheduleCallback;
exports.unstable_wrapCallback = unstable_wrapCallback;
})();
}
}(scheduler_development));
{
scheduler.exports = scheduler_development;
}
var tracing = {exports: {}};
var schedulerTracing_development = {};
(function (exports) {
{
(function() {
var DEFAULT_THREAD_ID = 0;
var interactionIDCounter = 0;
var threadIDCounter = 0;
exports.__interactionsRef = null;
exports.__subscriberRef = null;
{
exports.__interactionsRef = {
current: new Set()
};
exports.__subscriberRef = {
current: null
};
}
function unstable_clear(callback) {
var prevInteractions = exports.__interactionsRef.current;
exports.__interactionsRef.current = new Set();
try {
return callback();
} finally {
exports.__interactionsRef.current = prevInteractions;
}
}
function unstable_getCurrent() {
{
return exports.__interactionsRef.current;
}
}
function unstable_getThreadID() {
return ++threadIDCounter;
}
function unstable_trace(name, timestamp, callback) {
var threadID = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : DEFAULT_THREAD_ID;
var interaction = {
__count: 1,
id: interactionIDCounter++,
name: name,
timestamp: timestamp
};
var prevInteractions = exports.__interactionsRef.current;
var interactions = new Set(prevInteractions);
interactions.add(interaction);
exports.__interactionsRef.current = interactions;
var subscriber = exports.__subscriberRef.current;
var returnValue;
try {
if (subscriber !== null) {
subscriber.onInteractionTraced(interaction);
}
} finally {
try {
if (subscriber !== null) {
subscriber.onWorkStarted(interactions, threadID);
}
} finally {
try {
returnValue = callback();
} finally {
exports.__interactionsRef.current = prevInteractions;
try {
if (subscriber !== null) {
subscriber.onWorkStopped(interactions, threadID);
}
} finally {
interaction.__count--;
if (subscriber !== null && interaction.__count === 0) {
subscriber.onInteractionScheduledWorkCompleted(interaction);
}
}
}
}
}
return returnValue;
}
function unstable_wrap(callback) {
var threadID = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : DEFAULT_THREAD_ID;
var wrappedInteractions = exports.__interactionsRef.current;
var subscriber = exports.__subscriberRef.current;
if (subscriber !== null) {
subscriber.onWorkScheduled(wrappedInteractions, threadID);
}
wrappedInteractions.forEach(function (interaction) {
interaction.__count++;
});
var hasRun = false;
function wrapped() {
var prevInteractions = exports.__interactionsRef.current;
exports.__interactionsRef.current = wrappedInteractions;
subscriber = exports.__subscriberRef.current;
try {
var returnValue;
try {
if (subscriber !== null) {
subscriber.onWorkStarted(wrappedInteractions, threadID);
}
} finally {
try {
returnValue = callback.apply(undefined, arguments);
} finally {
exports.__interactionsRef.current = prevInteractions;
if (subscriber !== null) {
subscriber.onWorkStopped(wrappedInteractions, threadID);
}
}
}
return returnValue;
} finally {
if (!hasRun) {
hasRun = true;
wrappedInteractions.forEach(function (interaction) {
interaction.__count--;
if (subscriber !== null && interaction.__count === 0) {
subscriber.onInteractionScheduledWorkCompleted(interaction);
}
});
}
}
}
wrapped.cancel = function cancel() {
subscriber = exports.__subscriberRef.current;
try {
if (subscriber !== null) {
subscriber.onWorkCanceled(wrappedInteractions, threadID);
}
} finally {
wrappedInteractions.forEach(function (interaction) {
interaction.__count--;
if (subscriber && interaction.__count === 0) {
subscriber.onInteractionScheduledWorkCompleted(interaction);
}
});
}
};
return wrapped;
}
var subscribers = null;
{
subscribers = new Set();
}
function unstable_subscribe(subscriber) {
{
subscribers.add(subscriber);
if (subscribers.size === 1) {
exports.__subscriberRef.current = {
onInteractionScheduledWorkCompleted: onInteractionScheduledWorkCompleted,
onInteractionTraced: onInteractionTraced,
onWorkCanceled: onWorkCanceled,
onWorkScheduled: onWorkScheduled,
onWorkStarted: onWorkStarted,
onWorkStopped: onWorkStopped
};
}
}
}
function unstable_unsubscribe(subscriber) {
{
subscribers.delete(subscriber);
if (subscribers.size === 0) {
exports.__subscriberRef.current = null;
}
}
}
function onInteractionTraced(interaction) {
var didCatchError = false;
var caughtError = null;
subscribers.forEach(function (subscriber) {
try {
subscriber.onInteractionTraced(interaction);
} catch (error) {
if (!didCatchError) {
didCatchError = true;
caughtError = error;
}
}
});
if (didCatchError) {
throw caughtError;
}
}
function onInteractionScheduledWorkCompleted(interaction) {
var didCatchError = false;
var caughtError = null;
subscribers.forEach(function (subscriber) {
try {
subscriber.onInteractionScheduledWorkCompleted(interaction);
} catch (error) {
if (!didCatchError) {
didCatchError = true;
caughtError = error;
}
}
});
if (didCatchError) {
throw caughtError;
}
}
function onWorkScheduled(interactions, threadID) {
var didCatchError = false;
var caughtError = null;
subscribers.forEach(function (subscriber) {
try {
subscriber.onWorkScheduled(interactions, threadID);
} catch (error) {
if (!didCatchError) {
didCatchError = true;
caughtError = error;
}
}
});
if (didCatchError) {
throw caughtError;
}
}
function onWorkStarted(interactions, threadID) {
var didCatchError = false;
var caughtError = null;
subscribers.forEach(function (subscriber) {
try {
subscriber.onWorkStarted(interactions, threadID);
} catch (error) {
if (!didCatchError) {
didCatchError = true;
caughtError = error;
}
}
});
if (didCatchError) {
throw caughtError;
}
}
function onWorkStopped(interactions, threadID) {
var didCatchError = false;
var caughtError = null;
subscribers.forEach(function (subscriber) {
try {
subscriber.onWorkStopped(interactions, threadID);
} catch (error) {
if (!didCatchError) {
didCatchError = true;
caughtError = error;
}
}
});
if (didCatchError) {
throw caughtError;
}
}
function onWorkCanceled(interactions, threadID) {
var didCatchError = false;
var caughtError = null;
subscribers.forEach(function (subscriber) {
try {
subscriber.onWorkCanceled(interactions, threadID);
} catch (error) {
if (!didCatchError) {
didCatchError = true;
caughtError = error;
}
}
});
if (didCatchError) {
throw caughtError;
}
}
exports.unstable_clear = unstable_clear;
exports.unstable_getCurrent = unstable_getCurrent;
exports.unstable_getThreadID = unstable_getThreadID;
exports.unstable_subscribe = unstable_subscribe;
exports.unstable_trace = unstable_trace;
exports.unstable_unsubscribe = unstable_unsubscribe;
exports.unstable_wrap = unstable_wrap;
})();
}
}(schedulerTracing_development));
{
tracing.exports = schedulerTracing_development;
}
var version;
var unstable_renderSubtreeIntoContainer_1;
var unstable_createPortal_1;
var unstable_batchedUpdates;
var unmountComponentAtNode_1;
var render_1;
var hydrate_1;
var flushSync_1;
var findDOMNode_1;
var createPortal_1;
var __SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED;
{
(function() {
var React = require$$0;
var _assign = objectAssign;
var Scheduler = scheduler.exports;
var tracing$1 = tracing.exports;
var ReactSharedInternals = React.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED;
function warn(format) {
{
for (var _len = arguments.length, args = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) {
args[_key - 1] = arguments[_key];
}
printWarning('warn', format, args);
}
}
function error(format) {
{
for (var _len2 = arguments.length, args = new Array(_len2 > 1 ? _len2 - 1 : 0), _key2 = 1; _key2 < _len2; _key2++) {
args[_key2 - 1] = arguments[_key2];
}
printWarning('error', format, args);
}
}
function printWarning(level, format, args) {
{
var ReactDebugCurrentFrame = ReactSharedInternals.ReactDebugCurrentFrame;
var stack = ReactDebugCurrentFrame.getStackAddendum();
if (stack !== '') {
format += '%s';
args = args.concat([stack]);
}
var argsWithFormat = args.map(function (item) {
return '' + item;
});
argsWithFormat.unshift('Warning: ' + format);
Function.prototype.apply.call(console[level], console, argsWithFormat);
}
}
if (!React) {
{
throw Error( "ReactDOM was loaded before React. Make sure you load the React package before loading ReactDOM." );
}
}
var FunctionComponent = 0;
var ClassComponent = 1;
var IndeterminateComponent = 2;
var HostRoot = 3;
var HostPortal = 4;
var HostComponent = 5;
var HostText = 6;
var Fragment = 7;
var Mode = 8;
var ContextConsumer = 9;
var ContextProvider = 10;
var ForwardRef = 11;
var Profiler = 12;
var SuspenseComponent = 13;
var MemoComponent = 14;
var SimpleMemoComponent = 15;
var LazyComponent = 16;
var IncompleteClassComponent = 17;
var DehydratedFragment = 18;
var SuspenseListComponent = 19;
var FundamentalComponent = 20;
var ScopeComponent = 21;
var Block = 22;
var OffscreenComponent = 23;
var LegacyHiddenComponent = 24;
var enableProfilerTimer = true;
var enableFundamentalAPI = false;
var enableNewReconciler = false;
var warnAboutStringRefs = false;
var allNativeEvents = new Set();
var registrationNameDependencies = {};
var possibleRegistrationNames = {} ;
function registerTwoPhaseEvent(registrationName, dependencies) {
registerDirectEvent(registrationName, dependencies);
registerDirectEvent(registrationName + 'Capture', dependencies);
}
function registerDirectEvent(registrationName, dependencies) {
{
if (registrationNameDependencies[registrationName]) {
error('EventRegistry: More than one plugin attempted to publish the same ' + 'registration name, `%s`.', registrationName);
}
}
registrationNameDependencies[registrationName] = dependencies;
{
var lowerCasedName = registrationName.toLowerCase();
possibleRegistrationNames[lowerCasedName] = registrationName;
if (registrationName === 'onDoubleClick') {
possibleRegistrationNames.ondblclick = registrationName;
}
}
for (var i = 0; i < dependencies.length; i++) {
allNativeEvents.add(dependencies[i]);
}
}
var canUseDOM = !!(typeof window !== 'undefined' && typeof window.document !== 'undefined' && typeof window.document.createElement !== 'undefined');
var RESERVED = 0;
var STRING = 1;
var BOOLEANISH_STRING = 2;
var BOOLEAN = 3;
var OVERLOADED_BOOLEAN = 4;
var NUMERIC = 5;
var POSITIVE_NUMERIC = 6;
var ATTRIBUTE_NAME_START_CHAR = ":A-Z_a-z\\u00C0-\\u00D6\\u00D8-\\u00F6\\u00F8-\\u02FF\\u0370-\\u037D\\u037F-\\u1FFF\\u200C-\\u200D\\u2070-\\u218F\\u2C00-\\u2FEF\\u3001-\\uD7FF\\uF900-\\uFDCF\\uFDF0-\\uFFFD";
var ATTRIBUTE_NAME_CHAR = ATTRIBUTE_NAME_START_CHAR + "\\-.0-9\\u00B7\\u0300-\\u036F\\u203F-\\u2040";
var ROOT_ATTRIBUTE_NAME = 'data-reactroot';
var VALID_ATTRIBUTE_NAME_REGEX = new RegExp('^[' + ATTRIBUTE_NAME_START_CHAR + '][' + ATTRIBUTE_NAME_CHAR + ']*$');
var hasOwnProperty = Object.prototype.hasOwnProperty;
var illegalAttributeNameCache = {};
var validatedAttributeNameCache = {};
function isAttributeNameSafe(attributeName) {
if (hasOwnProperty.call(validatedAttributeNameCache, attributeName)) {
return true;
}
if (hasOwnProperty.call(illegalAttributeNameCache, attributeName)) {
return false;
}
if (VALID_ATTRIBUTE_NAME_REGEX.test(attributeName)) {
validatedAttributeNameCache[attributeName] = true;
return true;
}
illegalAttributeNameCache[attributeName] = true;
{
error('Invalid attribute name: `%s`', attributeName);
}
return false;
}
function shouldIgnoreAttribute(name, propertyInfo, isCustomComponentTag) {
if (propertyInfo !== null) {
return propertyInfo.type === RESERVED;
}
if (isCustomComponentTag) {
return false;
}
if (name.length > 2 && (name[0] === 'o' || name[0] === 'O') && (name[1] === 'n' || name[1] === 'N')) {
return true;
}
return false;
}
function shouldRemoveAttributeWithWarning(name, value, propertyInfo, isCustomComponentTag) {
if (propertyInfo !== null && propertyInfo.type === RESERVED) {
return false;
}
switch (typeof value) {
case 'function':
case 'symbol':
return true;
case 'boolean':
{
if (isCustomComponentTag) {
return false;
}
if (propertyInfo !== null) {
return !propertyInfo.acceptsBooleans;
} else {
var prefix = name.toLowerCase().slice(0, 5);
return prefix !== 'data-' && prefix !== 'aria-';
}
}
default:
return false;
}
}
function shouldRemoveAttribute(name, value, propertyInfo, isCustomComponentTag) {
if (value === null || typeof value === 'undefined') {
return true;
}
if (shouldRemoveAttributeWithWarning(name, value, propertyInfo, isCustomComponentTag)) {
return true;
}
if (isCustomComponentTag) {
return false;
}
if (propertyInfo !== null) {
switch (propertyInfo.type) {
case BOOLEAN:
return !value;
case OVERLOADED_BOOLEAN:
return value === false;
case NUMERIC:
return isNaN(value);
case POSITIVE_NUMERIC:
return isNaN(value) || value < 1;
}
}
return false;
}
function getPropertyInfo(name) {
return properties.hasOwnProperty(name) ? properties[name] : null;
}
function PropertyInfoRecord(name, type, mustUseProperty, attributeName, attributeNamespace, sanitizeURL, removeEmptyString) {
this.acceptsBooleans = type === BOOLEANISH_STRING || type === BOOLEAN || type === OVERLOADED_BOOLEAN;
this.attributeName = attributeName;
this.attributeNamespace = attributeNamespace;
this.mustUseProperty = mustUseProperty;
this.propertyName = name;
this.type = type;
this.sanitizeURL = sanitizeURL;
this.removeEmptyString = removeEmptyString;
}
var properties = {};
var reservedProps = ['children', 'dangerouslySetInnerHTML',
'defaultValue', 'defaultChecked', 'innerHTML', 'suppressContentEditableWarning', 'suppressHydrationWarning', 'style'];
reservedProps.forEach(function (name) {
properties[name] = new PropertyInfoRecord(name, RESERVED, false,
name,
null,
false,
false);
});
[['acceptCharset', 'accept-charset'], ['className', 'class'], ['htmlFor', 'for'], ['httpEquiv', 'http-equiv']].forEach(function (_ref) {
var name = _ref[0],
attributeName = _ref[1];
properties[name] = new PropertyInfoRecord(name, STRING, false,
attributeName,
null,
false,
false);
});
['contentEditable', 'draggable', 'spellCheck', 'value'].forEach(function (name) {
properties[name] = new PropertyInfoRecord(name, BOOLEANISH_STRING, false,
name.toLowerCase(),
null,
false,
false);
});
['autoReverse', 'externalResourcesRequired', 'focusable', 'preserveAlpha'].forEach(function (name) {
properties[name] = new PropertyInfoRecord(name, BOOLEANISH_STRING, false,
name,
null,
false,
false);
});
['allowFullScreen', 'async',
'autoFocus', 'autoPlay', 'controls', 'default', 'defer', 'disabled', 'disablePictureInPicture', 'disableRemotePlayback', 'formNoValidate', 'hidden', 'loop', 'noModule', 'noValidate', 'open', 'playsInline', 'readOnly', 'required', 'reversed', 'scoped', 'seamless',
'itemScope'].forEach(function (name) {
properties[name] = new PropertyInfoRecord(name, BOOLEAN, false,
name.toLowerCase(),
null,
false,
false);
});
['checked',
'multiple', 'muted', 'selected'
].forEach(function (name) {
properties[name] = new PropertyInfoRecord(name, BOOLEAN, true,
name,
null,
false,
false);
});
['capture', 'download'
].forEach(function (name) {
properties[name] = new PropertyInfoRecord(name, OVERLOADED_BOOLEAN, false,
name,
null,
false,
false);
});
['cols', 'rows', 'size', 'span'
].forEach(function (name) {
properties[name] = new PropertyInfoRecord(name, POSITIVE_NUMERIC, false,
name,
null,
false,
false);
});
['rowSpan', 'start'].forEach(function (name) {
properties[name] = new PropertyInfoRecord(name, NUMERIC, false,
name.toLowerCase(),
null,
false,
false);
});
var CAMELIZE = /[\-\:]([a-z])/g;
var capitalize = function (token) {
return token[1].toUpperCase();
};
['accent-height', 'alignment-baseline', 'arabic-form', 'baseline-shift', 'cap-height', 'clip-path', 'clip-rule', 'color-interpolation', 'color-interpolation-filters', 'color-profile', 'color-rendering', 'dominant-baseline', 'enable-background', 'fill-opacity', 'fill-rule', 'flood-color', 'flood-opacity', 'font-family', 'font-size', 'font-size-adjust', 'font-stretch', 'font-style', 'font-variant', 'font-weight', 'glyph-name', 'glyph-orientation-horizontal', 'glyph-orientation-vertical', 'horiz-adv-x', 'horiz-origin-x', 'image-rendering', 'letter-spacing', 'lighting-color', 'marker-end', 'marker-mid', 'marker-start', 'overline-position', 'overline-thickness', 'paint-order', 'panose-1', 'pointer-events', 'rendering-intent', 'shape-rendering', 'stop-color', 'stop-opacity', 'strikethrough-position', 'strikethrough-thickness', 'stroke-dasharray', 'stroke-dashoffset', 'stroke-linecap', 'stroke-linejoin', 'stroke-miterlimit', 'stroke-opacity', 'stroke-width', 'text-anchor', 'text-decoration', 'text-rendering', 'underline-position', 'underline-thickness', 'unicode-bidi', 'unicode-range', 'units-per-em', 'v-alphabetic', 'v-hanging', 'v-ideographic', 'v-mathematical', 'vector-effect', 'vert-adv-y', 'vert-origin-x', 'vert-origin-y', 'word-spacing', 'writing-mode', 'xmlns:xlink', 'x-height'
].forEach(function (attributeName) {
var name = attributeName.replace(CAMELIZE, capitalize);
properties[name] = new PropertyInfoRecord(name, STRING, false,
attributeName, null,
false,
false);
});
['xlink:actuate', 'xlink:arcrole', 'xlink:role', 'xlink:show', 'xlink:title', 'xlink:type'
].forEach(function (attributeName) {
var name = attributeName.replace(CAMELIZE, capitalize);
properties[name] = new PropertyInfoRecord(name, STRING, false,
attributeName, 'http://www.w3.org/1999/xlink', false,
false);
});
['xml:base', 'xml:lang', 'xml:space'
].forEach(function (attributeName) {
var name = attributeName.replace(CAMELIZE, capitalize);
properties[name] = new PropertyInfoRecord(name, STRING, false,
attributeName, 'http://www.w3.org/XML/1998/namespace', false,
false);
});
['tabIndex', 'crossOrigin'].forEach(function (attributeName) {
properties[attributeName] = new PropertyInfoRecord(attributeName, STRING, false,
attributeName.toLowerCase(),
null,
false,
false);
});
var xlinkHref = 'xlinkHref';
properties[xlinkHref] = new PropertyInfoRecord('xlinkHref', STRING, false,
'xlink:href', 'http://www.w3.org/1999/xlink', true,
false);
['src', 'href', 'action', 'formAction'].forEach(function (attributeName) {
properties[attributeName] = new PropertyInfoRecord(attributeName, STRING, false,
attributeName.toLowerCase(),
null,
true,
true);
});
var isJavaScriptProtocol = /^[\u0000-\u001F ]*j[\r\n\t]*a[\r\n\t]*v[\r\n\t]*a[\r\n\t]*s[\r\n\t]*c[\r\n\t]*r[\r\n\t]*i[\r\n\t]*p[\r\n\t]*t[\r\n\t]*\:/i;
var didWarn = false;
function sanitizeURL(url) {
{
if (!didWarn && isJavaScriptProtocol.test(url)) {
didWarn = true;
error('A future version of React will block javascript: URLs as a security precaution. ' + 'Use event handlers instead if you can. If you need to generate unsafe HTML try ' + 'using dangerouslySetInnerHTML instead. React was passed %s.', JSON.stringify(url));
}
}
}
function getValueForProperty(node, name, expected, propertyInfo) {
{
if (propertyInfo.mustUseProperty) {
var propertyName = propertyInfo.propertyName;
return node[propertyName];
} else {
if ( propertyInfo.sanitizeURL) {
sanitizeURL('' + expected);
}
var attributeName = propertyInfo.attributeName;
var stringValue = null;
if (propertyInfo.type === OVERLOADED_BOOLEAN) {
if (node.hasAttribute(attributeName)) {
var value = node.getAttribute(attributeName);
if (value === '') {
return true;
}
if (shouldRemoveAttribute(name, expected, propertyInfo, false)) {
return value;
}
if (value === '' + expected) {
return expected;
}
return value;
}
} else if (node.hasAttribute(attributeName)) {
if (shouldRemoveAttribute(name, expected, propertyInfo, false)) {
return node.getAttribute(attributeName);
}
if (propertyInfo.type === BOOLEAN) {
return expected;
}
stringValue = node.getAttribute(attributeName);
}
if (shouldRemoveAttribute(name, expected, propertyInfo, false)) {
return stringValue === null ? expected : stringValue;
} else if (stringValue === '' + expected) {
return expected;
} else {
return stringValue;
}
}
}
}
function getValueForAttribute(node, name, expected) {
{
if (!isAttributeNameSafe(name)) {
return;
}
if (isOpaqueHydratingObject(expected)) {
return expected;
}
if (!node.hasAttribute(name)) {
return expected === undefined ? undefined : null;
}
var value = node.getAttribute(name);
if (value === '' + expected) {
return expected;
}
return value;
}
}
function setValueForProperty(node, name, value, isCustomComponentTag) {
var propertyInfo = getPropertyInfo(name);
if (shouldIgnoreAttribute(name, propertyInfo, isCustomComponentTag)) {
return;
}
if (shouldRemoveAttribute(name, value, propertyInfo, isCustomComponentTag)) {
value = null;
}
if (isCustomComponentTag || propertyInfo === null) {
if (isAttributeNameSafe(name)) {
var _attributeName = name;
if (value === null) {
node.removeAttribute(_attributeName);
} else {
node.setAttribute(_attributeName, '' + value);
}
}
return;
}
var mustUseProperty = propertyInfo.mustUseProperty;
if (mustUseProperty) {
var propertyName = propertyInfo.propertyName;
if (value === null) {
var type = propertyInfo.type;
node[propertyName] = type === BOOLEAN ? false : '';
} else {
node[propertyName] = value;
}
return;
}
var attributeName = propertyInfo.attributeName,
attributeNamespace = propertyInfo.attributeNamespace;
if (value === null) {
node.removeAttribute(attributeName);
} else {
var _type = propertyInfo.type;
var attributeValue;
if (_type === BOOLEAN || _type === OVERLOADED_BOOLEAN && value === true) {
attributeValue = '';
} else {
{
attributeValue = '' + value;
}
if (propertyInfo.sanitizeURL) {
sanitizeURL(attributeValue.toString());
}
}
if (attributeNamespace) {
node.setAttributeNS(attributeNamespace, attributeName, attributeValue);
} else {
node.setAttribute(attributeName, attributeValue);
}
}
}
var REACT_ELEMENT_TYPE = 0xeac7;
var REACT_PORTAL_TYPE = 0xeaca;
var REACT_FRAGMENT_TYPE = 0xeacb;
var REACT_STRICT_MODE_TYPE = 0xeacc;
var REACT_PROFILER_TYPE = 0xead2;
var REACT_PROVIDER_TYPE = 0xeacd;
var REACT_CONTEXT_TYPE = 0xeace;
var REACT_FORWARD_REF_TYPE = 0xead0;
var REACT_SUSPENSE_TYPE = 0xead1;
var REACT_SUSPENSE_LIST_TYPE = 0xead8;
var REACT_MEMO_TYPE = 0xead3;
var REACT_LAZY_TYPE = 0xead4;
var REACT_BLOCK_TYPE = 0xead9;
var REACT_SCOPE_TYPE = 0xead7;
var REACT_OPAQUE_ID_TYPE = 0xeae0;
var REACT_DEBUG_TRACING_MODE_TYPE = 0xeae1;
var REACT_OFFSCREEN_TYPE = 0xeae2;
var REACT_LEGACY_HIDDEN_TYPE = 0xeae3;
if (typeof Symbol === 'function' && Symbol.for) {
var symbolFor = Symbol.for;
REACT_ELEMENT_TYPE = symbolFor('react.element');
REACT_PORTAL_TYPE = symbolFor('react.portal');
REACT_FRAGMENT_TYPE = symbolFor('react.fragment');
REACT_STRICT_MODE_TYPE = symbolFor('react.strict_mode');
REACT_PROFILER_TYPE = symbolFor('react.profiler');
REACT_PROVIDER_TYPE = symbolFor('react.provider');
REACT_CONTEXT_TYPE = symbolFor('react.context');
REACT_FORWARD_REF_TYPE = symbolFor('react.forward_ref');
REACT_SUSPENSE_TYPE = symbolFor('react.suspense');
REACT_SUSPENSE_LIST_TYPE = symbolFor('react.suspense_list');
REACT_MEMO_TYPE = symbolFor('react.memo');
REACT_LAZY_TYPE = symbolFor('react.lazy');
REACT_BLOCK_TYPE = symbolFor('react.block');
symbolFor('react.server.block');
symbolFor('react.fundamental');
REACT_SCOPE_TYPE = symbolFor('react.scope');
REACT_OPAQUE_ID_TYPE = symbolFor('react.opaque.id');
REACT_DEBUG_TRACING_MODE_TYPE = symbolFor('react.debug_trace_mode');
REACT_OFFSCREEN_TYPE = symbolFor('react.offscreen');
REACT_LEGACY_HIDDEN_TYPE = symbolFor('react.legacy_hidden');
}
var MAYBE_ITERATOR_SYMBOL = typeof Symbol === 'function' && Symbol.iterator;
var FAUX_ITERATOR_SYMBOL = '@@iterator';
function getIteratorFn(maybeIterable) {
if (maybeIterable === null || typeof maybeIterable !== 'object') {
return null;
}
var maybeIterator = MAYBE_ITERATOR_SYMBOL && maybeIterable[MAYBE_ITERATOR_SYMBOL] || maybeIterable[FAUX_ITERATOR_SYMBOL];
if (typeof maybeIterator === 'function') {
return maybeIterator;
}
return null;
}
var disabledDepth = 0;
var prevLog;
var prevInfo;
var prevWarn;
var prevError;
var prevGroup;
var prevGroupCollapsed;
var prevGroupEnd;
function disabledLog() {}
disabledLog.__reactDisabledLog = true;
function disableLogs() {
{
if (disabledDepth === 0) {
prevLog = console.log;
prevInfo = console.info;
prevWarn = console.warn;
prevError = console.error;
prevGroup = console.group;
prevGroupCollapsed = console.groupCollapsed;
prevGroupEnd = console.groupEnd;
var props = {
configurable: true,
enumerable: true,
value: disabledLog,
writable: true
};
Object.defineProperties(console, {
info: props,
log: props,
warn: props,
error: props,
group: props,
groupCollapsed: props,
groupEnd: props
});
}
disabledDepth++;
}
}
function reenableLogs() {
{
disabledDepth--;
if (disabledDepth === 0) {
var props = {
configurable: true,
enumerable: true,
writable: true
};
Object.defineProperties(console, {
log: _assign({}, props, {
value: prevLog
}),
info: _assign({}, props, {
value: prevInfo
}),
warn: _assign({}, props, {
value: prevWarn
}),
error: _assign({}, props, {
value: prevError
}),
group: _assign({}, props, {
value: prevGroup
}),
groupCollapsed: _assign({}, props, {
value: prevGroupCollapsed
}),
groupEnd: _assign({}, props, {
value: prevGroupEnd
})
});
}
if (disabledDepth < 0) {
error('disabledDepth fell below zero. ' + 'This is a bug in React. Please file an issue.');
}
}
}
var ReactCurrentDispatcher = ReactSharedInternals.ReactCurrentDispatcher;
var prefix;
function describeBuiltInComponentFrame(name, source, ownerFn) {
{
if (prefix === undefined) {
try {
throw Error();
} catch (x) {
var match = x.stack.trim().match(/\n( *(at )?)/);
prefix = match && match[1] || '';
}
}
return '\n' + prefix + name;
}
}
var reentry = false;
var componentFrameCache;
{
var PossiblyWeakMap = typeof WeakMap === 'function' ? WeakMap : Map;
componentFrameCache = new PossiblyWeakMap();
}
function describeNativeComponentFrame(fn, construct) {
if (!fn || reentry) {
return '';
}
{
var frame = componentFrameCache.get(fn);
if (frame !== undefined) {
return frame;
}
}
var control;
reentry = true;
var previousPrepareStackTrace = Error.prepareStackTrace;
Error.prepareStackTrace = undefined;
var previousDispatcher;
{
previousDispatcher = ReactCurrentDispatcher.current;
ReactCurrentDispatcher.current = null;
disableLogs();
}
try {
if (construct) {
var Fake = function () {
throw Error();
};
Object.defineProperty(Fake.prototype, 'props', {
set: function () {
throw Error();
}
});
if (typeof Reflect === 'object' && Reflect.construct) {
try {
Reflect.construct(Fake, []);
} catch (x) {
control = x;
}
Reflect.construct(fn, [], Fake);
} else {
try {
Fake.call();
} catch (x) {
control = x;
}
fn.call(Fake.prototype);
}
} else {
try {
throw Error();
} catch (x) {
control = x;
}
fn();
}
} catch (sample) {
if (sample && control && typeof sample.stack === 'string') {
var sampleLines = sample.stack.split('\n');
var controlLines = control.stack.split('\n');
var s = sampleLines.length - 1;
var c = controlLines.length - 1;
while (s >= 1 && c >= 0 && sampleLines[s] !== controlLines[c]) {
c--;
}
for (; s >= 1 && c >= 0; s--, c--) {
if (sampleLines[s] !== controlLines[c]) {
if (s !== 1 || c !== 1) {
do {
s--;
c--;
if (c < 0 || sampleLines[s] !== controlLines[c]) {
var _frame = '\n' + sampleLines[s].replace(' at new ', ' at ');
{
if (typeof fn === 'function') {
componentFrameCache.set(fn, _frame);
}
}
return _frame;
}
} while (s >= 1 && c >= 0);
}
break;
}
}
}
} finally {
reentry = false;
{
ReactCurrentDispatcher.current = previousDispatcher;
reenableLogs();
}
Error.prepareStackTrace = previousPrepareStackTrace;
}
var name = fn ? fn.displayName || fn.name : '';
var syntheticFrame = name ? describeBuiltInComponentFrame(name) : '';
{
if (typeof fn === 'function') {
componentFrameCache.set(fn, syntheticFrame);
}
}
return syntheticFrame;
}
function describeClassComponentFrame(ctor, source, ownerFn) {
{
return describeNativeComponentFrame(ctor, true);
}
}
function describeFunctionComponentFrame(fn, source, ownerFn) {
{
return describeNativeComponentFrame(fn, false);
}
}
function shouldConstruct(Component) {
var prototype = Component.prototype;
return !!(prototype && prototype.isReactComponent);
}
function describeUnknownElementTypeFrameInDEV(type, source, ownerFn) {
if (type == null) {
return '';
}
if (typeof type === 'function') {
{
return describeNativeComponentFrame(type, shouldConstruct(type));
}
}
if (typeof type === 'string') {
return describeBuiltInComponentFrame(type);
}
switch (type) {
case REACT_SUSPENSE_TYPE:
return describeBuiltInComponentFrame('Suspense');
case REACT_SUSPENSE_LIST_TYPE:
return describeBuiltInComponentFrame('SuspenseList');
}
if (typeof type === 'object') {
switch (type.$$typeof) {
case REACT_FORWARD_REF_TYPE:
return describeFunctionComponentFrame(type.render);
case REACT_MEMO_TYPE:
return describeUnknownElementTypeFrameInDEV(type.type, source, ownerFn);
case REACT_BLOCK_TYPE:
return describeFunctionComponentFrame(type._render);
case REACT_LAZY_TYPE:
{
var lazyComponent = type;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
try {
return describeUnknownElementTypeFrameInDEV(init(payload), source, ownerFn);
} catch (x) {}
}
}
}
return '';
}
function describeFiber(fiber) {
fiber._debugOwner ? fiber._debugOwner.type : null ;
fiber._debugSource ;
switch (fiber.tag) {
case HostComponent:
return describeBuiltInComponentFrame(fiber.type);
case LazyComponent:
return describeBuiltInComponentFrame('Lazy');
case SuspenseComponent:
return describeBuiltInComponentFrame('Suspense');
case SuspenseListComponent:
return describeBuiltInComponentFrame('SuspenseList');
case FunctionComponent:
case IndeterminateComponent:
case SimpleMemoComponent:
return describeFunctionComponentFrame(fiber.type);
case ForwardRef:
return describeFunctionComponentFrame(fiber.type.render);
case Block:
return describeFunctionComponentFrame(fiber.type._render);
case ClassComponent:
return describeClassComponentFrame(fiber.type);
default:
return '';
}
}
function getStackByFiberInDevAndProd(workInProgress) {
try {
var info = '';
var node = workInProgress;
do {
info += describeFiber(node);
node = node.return;
} while (node);
return info;
} catch (x) {
return '\nError generating stack: ' + x.message + '\n' + x.stack;
}
}
function getWrappedName(outerType, innerType, wrapperName) {
var functionName = innerType.displayName || innerType.name || '';
return outerType.displayName || (functionName !== '' ? wrapperName + "(" + functionName + ")" : wrapperName);
}
function getContextName(type) {
return type.displayName || 'Context';
}
function getComponentName(type) {
if (type == null) {
return null;
}
{
if (typeof type.tag === 'number') {
error('Received an unexpected object in getComponentName(). ' + 'This is likely a bug in React. Please file an issue.');
}
}
if (typeof type === 'function') {
return type.displayName || type.name || null;
}
if (typeof type === 'string') {
return type;
}
switch (type) {
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_SUSPENSE_TYPE:
return 'Suspense';
case REACT_SUSPENSE_LIST_TYPE:
return 'SuspenseList';
}
if (typeof type === 'object') {
switch (type.$$typeof) {
case REACT_CONTEXT_TYPE:
var context = type;
return getContextName(context) + '.Consumer';
case REACT_PROVIDER_TYPE:
var provider = type;
return getContextName(provider._context) + '.Provider';
case REACT_FORWARD_REF_TYPE:
return getWrappedName(type, type.render, 'ForwardRef');
case REACT_MEMO_TYPE:
return getComponentName(type.type);
case REACT_BLOCK_TYPE:
return getComponentName(type._render);
case REACT_LAZY_TYPE:
{
var lazyComponent = type;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
try {
return getComponentName(init(payload));
} catch (x) {
return null;
}
}
}
}
return null;
}
var ReactDebugCurrentFrame = ReactSharedInternals.ReactDebugCurrentFrame;
var current = null;
var isRendering = false;
function getCurrentFiberOwnerNameInDevOrNull() {
{
if (current === null) {
return null;
}
var owner = current._debugOwner;
if (owner !== null && typeof owner !== 'undefined') {
return getComponentName(owner.type);
}
}
return null;
}
function getCurrentFiberStackInDev() {
{
if (current === null) {
return '';
}
return getStackByFiberInDevAndProd(current);
}
}
function resetCurrentFiber() {
{
ReactDebugCurrentFrame.getCurrentStack = null;
current = null;
isRendering = false;
}
}
function setCurrentFiber(fiber) {
{
ReactDebugCurrentFrame.getCurrentStack = getCurrentFiberStackInDev;
current = fiber;
isRendering = false;
}
}
function setIsRendering(rendering) {
{
isRendering = rendering;
}
}
function getIsRendering() {
{
return isRendering;
}
}
function toString(value) {
return '' + value;
}
function getToStringValue(value) {
switch (typeof value) {
case 'boolean':
case 'number':
case 'object':
case 'string':
case 'undefined':
return value;
default:
return '';
}
}
var hasReadOnlyValue = {
button: true,
checkbox: true,
image: true,
hidden: true,
radio: true,
reset: true,
submit: true
};
function checkControlledValueProps(tagName, props) {
{
if (!(hasReadOnlyValue[props.type] || props.onChange || props.onInput || props.readOnly || props.disabled || props.value == null)) {
error('You provided a `value` prop to a form field without an ' + '`onChange` handler. This will render a read-only field. If ' + 'the field should be mutable use `defaultValue`. Otherwise, ' + 'set either `onChange` or `readOnly`.');
}
if (!(props.onChange || props.readOnly || props.disabled || props.checked == null)) {
error('You provided a `checked` prop to a form field without an ' + '`onChange` handler. This will render a read-only field. If ' + 'the field should be mutable use `defaultChecked`. Otherwise, ' + 'set either `onChange` or `readOnly`.');
}
}
}
function isCheckable(elem) {
var type = elem.type;
var nodeName = elem.nodeName;
return nodeName && nodeName.toLowerCase() === 'input' && (type === 'checkbox' || type === 'radio');
}
function getTracker(node) {
return node._valueTracker;
}
function detachTracker(node) {
node._valueTracker = null;
}
function getValueFromNode(node) {
var value = '';
if (!node) {
return value;
}
if (isCheckable(node)) {
value = node.checked ? 'true' : 'false';
} else {
value = node.value;
}
return value;
}
function trackValueOnNode(node) {
var valueField = isCheckable(node) ? 'checked' : 'value';
var descriptor = Object.getOwnPropertyDescriptor(node.constructor.prototype, valueField);
var currentValue = '' + node[valueField];
if (node.hasOwnProperty(valueField) || typeof descriptor === 'undefined' || typeof descriptor.get !== 'function' || typeof descriptor.set !== 'function') {
return;
}
var get = descriptor.get,
set = descriptor.set;
Object.defineProperty(node, valueField, {
configurable: true,
get: function () {
return get.call(this);
},
set: function (value) {
currentValue = '' + value;
set.call(this, value);
}
});
Object.defineProperty(node, valueField, {
enumerable: descriptor.enumerable
});
var tracker = {
getValue: function () {
return currentValue;
},
setValue: function (value) {
currentValue = '' + value;
},
stopTracking: function () {
detachTracker(node);
delete node[valueField];
}
};
return tracker;
}
function track(node) {
if (getTracker(node)) {
return;
}
node._valueTracker = trackValueOnNode(node);
}
function updateValueIfChanged(node) {
if (!node) {
return false;
}
var tracker = getTracker(node);
if (!tracker) {
return true;
}
var lastValue = tracker.getValue();
var nextValue = getValueFromNode(node);
if (nextValue !== lastValue) {
tracker.setValue(nextValue);
return true;
}
return false;
}
function getActiveElement(doc) {
doc = doc || (typeof document !== 'undefined' ? document : undefined);
if (typeof doc === 'undefined') {
return null;
}
try {
return doc.activeElement || doc.body;
} catch (e) {
return doc.body;
}
}
var didWarnValueDefaultValue = false;
var didWarnCheckedDefaultChecked = false;
var didWarnControlledToUncontrolled = false;
var didWarnUncontrolledToControlled = false;
function isControlled(props) {
var usesChecked = props.type === 'checkbox' || props.type === 'radio';
return usesChecked ? props.checked != null : props.value != null;
}
function getHostProps(element, props) {
var node = element;
var checked = props.checked;
var hostProps = _assign({}, props, {
defaultChecked: undefined,
defaultValue: undefined,
value: undefined,
checked: checked != null ? checked : node._wrapperState.initialChecked
});
return hostProps;
}
function initWrapperState(element, props) {
{
checkControlledValueProps('input', props);
if (props.checked !== undefined && props.defaultChecked !== undefined && !didWarnCheckedDefaultChecked) {
error('%s contains an input of type %s with both checked and defaultChecked props. ' + 'Input elements must be either controlled or uncontrolled ' + '(specify either the checked prop, or the defaultChecked prop, but not ' + 'both). Decide between using a controlled or uncontrolled input ' + 'element and remove one of these props. More info: ' + 'https://reactjs.org/link/controlled-components', getCurrentFiberOwnerNameInDevOrNull() || 'A component', props.type);
didWarnCheckedDefaultChecked = true;
}
if (props.value !== undefined && props.defaultValue !== undefined && !didWarnValueDefaultValue) {
error('%s contains an input of type %s with both value and defaultValue props. ' + 'Input elements must be either controlled or uncontrolled ' + '(specify either the value prop, or the defaultValue prop, but not ' + 'both). Decide between using a controlled or uncontrolled input ' + 'element and remove one of these props. More info: ' + 'https://reactjs.org/link/controlled-components', getCurrentFiberOwnerNameInDevOrNull() || 'A component', props.type);
didWarnValueDefaultValue = true;
}
}
var node = element;
var defaultValue = props.defaultValue == null ? '' : props.defaultValue;
node._wrapperState = {
initialChecked: props.checked != null ? props.checked : props.defaultChecked,
initialValue: getToStringValue(props.value != null ? props.value : defaultValue),
controlled: isControlled(props)
};
}
function updateChecked(element, props) {
var node = element;
var checked = props.checked;
if (checked != null) {
setValueForProperty(node, 'checked', checked, false);
}
}
function updateWrapper(element, props) {
var node = element;
{
var controlled = isControlled(props);
if (!node._wrapperState.controlled && controlled && !didWarnUncontrolledToControlled) {
error('A component is changing an uncontrolled input to be controlled. ' + 'This is likely caused by the value changing from undefined to ' + 'a defined value, which should not happen. ' + 'Decide between using a controlled or uncontrolled input ' + 'element for the lifetime of the component. More info: https://reactjs.org/link/controlled-components');
didWarnUncontrolledToControlled = true;
}
if (node._wrapperState.controlled && !controlled && !didWarnControlledToUncontrolled) {
error('A component is changing a controlled input to be uncontrolled. ' + 'This is likely caused by the value changing from a defined to ' + 'undefined, which should not happen. ' + 'Decide between using a controlled or uncontrolled input ' + 'element for the lifetime of the component. More info: https://reactjs.org/link/controlled-components');
didWarnControlledToUncontrolled = true;
}
}
updateChecked(element, props);
var value = getToStringValue(props.value);
var type = props.type;
if (value != null) {
if (type === 'number') {
if (value === 0 && node.value === '' ||
node.value != value) {
node.value = toString(value);
}
} else if (node.value !== toString(value)) {
node.value = toString(value);
}
} else if (type === 'submit' || type === 'reset') {
node.removeAttribute('value');
return;
}
{
if (props.hasOwnProperty('value')) {
setDefaultValue(node, props.type, value);
} else if (props.hasOwnProperty('defaultValue')) {
setDefaultValue(node, props.type, getToStringValue(props.defaultValue));
}
}
{
if (props.checked == null && props.defaultChecked != null) {
node.defaultChecked = !!props.defaultChecked;
}
}
}
function postMountWrapper(element, props, isHydrating) {
var node = element;
if (props.hasOwnProperty('value') || props.hasOwnProperty('defaultValue')) {
var type = props.type;
var isButton = type === 'submit' || type === 'reset';
if (isButton && (props.value === undefined || props.value === null)) {
return;
}
var initialValue = toString(node._wrapperState.initialValue);
if (!isHydrating) {
{
if (initialValue !== node.value) {
node.value = initialValue;
}
}
}
{
node.defaultValue = initialValue;
}
}
var name = node.name;
if (name !== '') {
node.name = '';
}
{
node.defaultChecked = !node.defaultChecked;
node.defaultChecked = !!node._wrapperState.initialChecked;
}
if (name !== '') {
node.name = name;
}
}
function restoreControlledState(element, props) {
var node = element;
updateWrapper(node, props);
updateNamedCousins(node, props);
}
function updateNamedCousins(rootNode, props) {
var name = props.name;
if (props.type === 'radio' && name != null) {
var queryRoot = rootNode;
while (queryRoot.parentNode) {
queryRoot = queryRoot.parentNode;
}
var group = queryRoot.querySelectorAll('input[name=' + JSON.stringify('' + name) + '][type="radio"]');
for (var i = 0; i < group.length; i++) {
var otherNode = group[i];
if (otherNode === rootNode || otherNode.form !== rootNode.form) {
continue;
}
var otherProps = getFiberCurrentPropsFromNode(otherNode);
if (!otherProps) {
{
throw Error( "ReactDOMInput: Mixing React and non-React radio inputs with the same `name` is not supported." );
}
}
updateValueIfChanged(otherNode);
updateWrapper(otherNode, otherProps);
}
}
}
function setDefaultValue(node, type, value) {
if (
type !== 'number' || getActiveElement(node.ownerDocument) !== node) {
if (value == null) {
node.defaultValue = toString(node._wrapperState.initialValue);
} else if (node.defaultValue !== toString(value)) {
node.defaultValue = toString(value);
}
}
}
var didWarnSelectedSetOnOption = false;
var didWarnInvalidChild = false;
function flattenChildren(children) {
var content = '';
React.Children.forEach(children, function (child) {
if (child == null) {
return;
}
content += child;
});
return content;
}
function validateProps(element, props) {
{
if (typeof props.children === 'object' && props.children !== null) {
React.Children.forEach(props.children, function (child) {
if (child == null) {
return;
}
if (typeof child === 'string' || typeof child === 'number') {
return;
}
if (typeof child.type !== 'string') {
return;
}
if (!didWarnInvalidChild) {
didWarnInvalidChild = true;
error('Only strings and numbers are supported as <option> children.');
}
});
}
if (props.selected != null && !didWarnSelectedSetOnOption) {
error('Use the `defaultValue` or `value` props on <select> instead of ' + 'setting `selected` on <option>.');
didWarnSelectedSetOnOption = true;
}
}
}
function postMountWrapper$1(element, props) {
if (props.value != null) {
element.setAttribute('value', toString(getToStringValue(props.value)));
}
}
function getHostProps$1(element, props) {
var hostProps = _assign({
children: undefined
}, props);
var content = flattenChildren(props.children);
if (content) {
hostProps.children = content;
}
return hostProps;
}
var didWarnValueDefaultValue$1;
{
didWarnValueDefaultValue$1 = false;
}
function getDeclarationErrorAddendum() {
var ownerName = getCurrentFiberOwnerNameInDevOrNull();
if (ownerName) {
return '\n\nCheck the render method of `' + ownerName + '`.';
}
return '';
}
var valuePropNames = ['value', 'defaultValue'];
` and `defaultValue`.
*/
function checkSelectPropTypes(props) {
{
checkControlledValueProps('select', props);
for (var i = 0; i < valuePropNames.length; i++) {
var propName = valuePropNames[i];
if (props[propName] == null) {
continue;
}
var isArray = Array.isArray(props[propName]);
if (props.multiple && !isArray) {
error('The `%s` prop supplied to <select> must be an array if ' + '`multiple` is true.%s', propName, getDeclarationErrorAddendum());
} else if (!props.multiple && isArray) {
error('The `%s` prop supplied to <select> must be a scalar ' + 'value if `multiple` is false.%s', propName, getDeclarationErrorAddendum());
}
}
}
}
function updateOptions(node, multiple, propValue, setDefaultSelected) {
var options = node.options;
if (multiple) {
var selectedValues = propValue;
var selectedValue = {};
for (var i = 0; i < selectedValues.length; i++) {
// Prefix to avoid chaos with special keys.
selectedValue['$' + selectedValues[i]] = true;
}
for (var _i = 0; _i < options.length; _i++) {
var selected = selectedValue.hasOwnProperty('$' + options[_i].value);
if (options[_i].selected !== selected) {
options[_i].selected = selected;
}
if (selected && setDefaultSelected) {
options[_i].defaultSelected = true;
}
}
} else {
// Do not set `select.value` as exact behavior isn't consistent across all
// browsers for all cases.
var _selectedValue = toString(getToStringValue(propValue));
var defaultSelected = null;
for (var _i2 = 0; _i2 < options.length; _i2++) {
if (options[_i2].value === _selectedValue) {
options[_i2].selected = true;
if (setDefaultSelected) {
options[_i2].defaultSelected = true;
}
return;
}
if (defaultSelected === null && !options[_i2].disabled) {
defaultSelected = options[_i2];
}
}
if (defaultSelected !== null) {
defaultSelected.selected = true;
}
}
}
/**
* Implements a <select> host component that allows optionally setting the
* props `value` and `defaultValue`. If `multiple` is false, the prop must be a
* stringable. If `multiple` is true, the prop must be an array of stringables.
*
* If `value` is not supplied (or null/undefined), user actions that change the
* selected option will trigger updates to the rendered options.
*
* If it is supplied (and not null/undefined), the rendered options will not
* update in response to user actions. Instead, the `value` prop must change in
* order for the rendered options to update.
*
* If `defaultValue` is provided, any options with the supplied values will be
* selected.
*/
function getHostProps$2(element, props) {
return _assign({}, props, {
value: undefined
});
}
function initWrapperState$1(element, props) {
var node = element;
{
checkSelectPropTypes(props);
}
node._wrapperState = {
wasMultiple: !!props.multiple
};
{
if (props.value !== undefined && props.defaultValue !== undefined && !didWarnValueDefaultValue$1) {
error('Select elements must be either controlled or uncontrolled ' + '(specify either the value prop, or the defaultValue prop, but not ' + 'both). Decide between using a controlled or uncontrolled select ' + 'element and remove one of these props. More info: ' + 'https://reactjs.org/link/controlled-components');
didWarnValueDefaultValue$1 = true;
}
}
}
function postMountWrapper$2(element, props) {
var node = element;
node.multiple = !!props.multiple;
var value = props.value;
if (value != null) {
updateOptions(node, !!props.multiple, value, false);
} else if (props.defaultValue != null) {
updateOptions(node, !!props.multiple, props.defaultValue, true);
}
}
function postUpdateWrapper(element, props) {
var node = element;
var wasMultiple = node._wrapperState.wasMultiple;
node._wrapperState.wasMultiple = !!props.multiple;
var value = props.value;
if (value != null) {
updateOptions(node, !!props.multiple, value, false);
} else if (wasMultiple !== !!props.multiple) {
// For simplicity, reapply `defaultValue` if `multiple` is toggled.
if (props.defaultValue != null) {
updateOptions(node, !!props.multiple, props.defaultValue, true);
} else {
// Revert the select back to its default unselected state.
updateOptions(node, !!props.multiple, props.multiple ? [] : '', false);
}
}
}
function restoreControlledState$1(element, props) {
var node = element;
var value = props.value;
if (value != null) {
updateOptions(node, !!props.multiple, value, false);
}
}
var didWarnValDefaultVal = false;
/**
* Implements a <textarea> host component that allows setting `value`, and
* `defaultValue`. This differs from the traditional DOM API because value is
* usually set as PCDATA children.
*
* If `value` is not supplied (or null/undefined), user actions that affect the
* value will trigger updates to the element.
*
* If `value` is supplied (and not null/undefined), the rendered element will
* not trigger updates to the element. Instead, the `value` prop must change in
* order for the rendered element to be updated.
*
* The rendered element will be initialized with an empty value, the prop
* `defaultValue` if specified, or the children content (deprecated).
*/
function getHostProps$3(element, props) {
var node = element;
if (!(props.dangerouslySetInnerHTML == null)) {
{
throw Error( "`dangerouslySetInnerHTML` does not make sense on <textarea>." );
}
} // Always set children to the same thing. In IE9, the selection range will
// get reset if `textContent` is mutated. We could add a check in setTextContent
// to only set the value if/when the value differs from the node value (which would
// completely solve this IE9 bug), but Sebastian+Sophie seemed to like this
// solution. The value can be a boolean or object so that's why it's forced
// to be a string.
var hostProps = _assign({}, props, {
value: undefined,
defaultValue: undefined,
children: toString(node._wrapperState.initialValue)
});
return hostProps;
}
function initWrapperState$2(element, props) {
var node = element;
{
checkControlledValueProps('textarea', props);
if (props.value !== undefined && props.defaultValue !== undefined && !didWarnValDefaultVal) {
error('%s contains a textarea with both value and defaultValue props. ' + 'Textarea elements must be either controlled or uncontrolled ' + '(specify either the value prop, or the defaultValue prop, but not ' + 'both). Decide between using a controlled or uncontrolled textarea ' + 'and remove one of these props. More info: ' + 'https://reactjs.org/link/controlled-components', getCurrentFiberOwnerNameInDevOrNull() || 'A component');
didWarnValDefaultVal = true;
}
}
var initialValue = props.value; // Only bother fetching default value if we're going to use it
if (initialValue == null) {
var children = props.children,
defaultValue = props.defaultValue;
if (children != null) {
{
error('Use the `defaultValue` or `value` props instead of setting ' + 'children on <textarea>.');
}
{
if (!(defaultValue == null)) {
{
throw Error( "If you supply `defaultValue` on a <textarea>, do not pass children." );
}
}
if (Array.isArray(children)) {
if (!(children.length <= 1)) {
{
throw Error( "<textarea> can only have at most one child." );
}
}
children = children[0];
}
defaultValue = children;
}
}
if (defaultValue == null) {
defaultValue = '';
}
initialValue = defaultValue;
}
node._wrapperState = {
initialValue: getToStringValue(initialValue)
};
}
function updateWrapper$1(element, props) {
var node = element;
var value = getToStringValue(props.value);
var defaultValue = getToStringValue(props.defaultValue);
if (value != null) {
// Cast `value` to a string to ensure the value is set correctly. While
// browsers typically do this as necessary, jsdom doesn't.
var newValue = toString(value); // To avoid side effects (such as losing text selection), only set value if changed
if (newValue !== node.value) {
node.value = newValue;
}
if (props.defaultValue == null && node.defaultValue !== newValue) {
node.defaultValue = newValue;
}
}
if (defaultValue != null) {
node.defaultValue = toString(defaultValue);
}
}
function postMountWrapper$3(element, props) {
var node = element; // This is in postMount because we need access to the DOM node, which is not
// available until after the component has mounted.
var textContent = node.textContent; // Only set node.value if textContent is equal to the expected
// initial value. In IE10/IE11 there is a bug where the placeholder attribute
// will populate textContent as well.
// https://developer.microsoft.com/microsoft-edge/platform/issues/101525/
if (textContent === node._wrapperState.initialValue) {
if (textContent !== '' && textContent !== null) {
node.value = textContent;
}
}
}
function restoreControlledState$2(element, props) {
// DOM component is still mounted; update
updateWrapper$1(element, props);
}
var HTML_NAMESPACE = 'http://www.w3.org/1999/xhtml';
var MATH_NAMESPACE = 'http://www.w3.org/1998/Math/MathML';
var SVG_NAMESPACE = 'http://www.w3.org/2000/svg';
var Namespaces = {
html: HTML_NAMESPACE,
mathml: MATH_NAMESPACE,
svg: SVG_NAMESPACE
}; // Assumes there is no parent namespace.
function getIntrinsicNamespace(type) {
switch (type) {
case 'svg':
return SVG_NAMESPACE;
case 'math':
return MATH_NAMESPACE;
default:
return HTML_NAMESPACE;
}
}
function getChildNamespace(parentNamespace, type) {
if (parentNamespace == null || parentNamespace === HTML_NAMESPACE) {
// No (or default) parent namespace: potential entry point.
return getIntrinsicNamespace(type);
}
if (parentNamespace === SVG_NAMESPACE && type === 'foreignObject') {
// We're leaving SVG.
return HTML_NAMESPACE;
} // By default, pass namespace below.
return parentNamespace;
}
/* globals MSApp */
/**
* Create a function which has 'unsafe' privileges (required by windows8 apps)
*/
var createMicrosoftUnsafeLocalFunction = function (func) {
if (typeof MSApp !== 'undefined' && MSApp.execUnsafeLocalFunction) {
return function (arg0, arg1, arg2, arg3) {
MSApp.execUnsafeLocalFunction(function () {
return func(arg0, arg1, arg2, arg3);
});
};
} else {
return func;
}
};
var reusableSVGContainer;
/**
* Set the innerHTML property of a node
*
* @param {DOMElement} node
* @param {string} html
* @internal
*/
var setInnerHTML = createMicrosoftUnsafeLocalFunction(function (node, html) {
if (node.namespaceURI === Namespaces.svg) {
if (!('innerHTML' in node)) {
// IE does not have innerHTML for SVG nodes, so instead we inject the
// new markup in a temp node and then move the child nodes across into
// the target node
reusableSVGContainer = reusableSVGContainer || document.createElement('div');
reusableSVGContainer.innerHTML = '<svg>' + html.valueOf().toString() + '</svg>';
var svgNode = reusableSVGContainer.firstChild;
while (node.firstChild) {
node.removeChild(node.firstChild);
}
while (svgNode.firstChild) {
node.appendChild(svgNode.firstChild);
}
return;
}
}
node.innerHTML = html;
});
/**
* HTML nodeType values that represent the type of the node
*/
var ELEMENT_NODE = 1;
var TEXT_NODE = 3;
var COMMENT_NODE = 8;
var DOCUMENT_NODE = 9;
var DOCUMENT_FRAGMENT_NODE = 11;
/**
* Set the textContent property of a node. For text updates, it's faster
* to set the `nodeValue` of the Text node directly instead of using
* `.textContent` which will remove the existing node and create a new one.
*
* @param {DOMElement} node
* @param {string} text
* @internal
*/
var setTextContent = function (node, text) {
if (text) {
var firstChild = node.firstChild;
if (firstChild && firstChild === node.lastChild && firstChild.nodeType === TEXT_NODE) {
firstChild.nodeValue = text;
return;
}
}
node.textContent = text;
};
// List derived from Gecko source code:
// https://github.com/mozilla/gecko-dev/blob/4e638efc71/layout/style/test/property_database.js
var shorthandToLonghand = {
animation: ['animationDelay', 'animationDirection', 'animationDuration', 'animationFillMode', 'animationIterationCount', 'animationName', 'animationPlayState', 'animationTimingFunction'],
background: ['backgroundAttachment', 'backgroundClip', 'backgroundColor', 'backgroundImage', 'backgroundOrigin', 'backgroundPositionX', 'backgroundPositionY', 'backgroundRepeat', 'backgroundSize'],
backgroundPosition: ['backgroundPositionX', 'backgroundPositionY'],
border: ['borderBottomColor', 'borderBottomStyle', 'borderBottomWidth', 'borderImageOutset', 'borderImageRepeat', 'borderImageSlice', 'borderImageSource', 'borderImageWidth', 'borderLeftColor', 'borderLeftStyle', 'borderLeftWidth', 'borderRightColor', 'borderRightStyle', 'borderRightWidth', 'borderTopColor', 'borderTopStyle', 'borderTopWidth'],
borderBlockEnd: ['borderBlockEndColor', 'borderBlockEndStyle', 'borderBlockEndWidth'],
borderBlockStart: ['borderBlockStartColor', 'borderBlockStartStyle', 'borderBlockStartWidth'],
borderBottom: ['borderBottomColor', 'borderBottomStyle', 'borderBottomWidth'],
borderColor: ['borderBottomColor', 'borderLeftColor', 'borderRightColor', 'borderTopColor'],
borderImage: ['borderImageOutset', 'borderImageRepeat', 'borderImageSlice', 'borderImageSource', 'borderImageWidth'],
borderInlineEnd: ['borderInlineEndColor', 'borderInlineEndStyle', 'borderInlineEndWidth'],
borderInlineStart: ['borderInlineStartColor', 'borderInlineStartStyle', 'borderInlineStartWidth'],
borderLeft: ['borderLeftColor', 'borderLeftStyle', 'borderLeftWidth'],
borderRadius: ['borderBottomLeftRadius', 'borderBottomRightRadius', 'borderTopLeftRadius', 'borderTopRightRadius'],
borderRight: ['borderRightColor', 'borderRightStyle', 'borderRightWidth'],
borderStyle: ['borderBottomStyle', 'borderLeftStyle', 'borderRightStyle', 'borderTopStyle'],
borderTop: ['borderTopColor', 'borderTopStyle', 'borderTopWidth'],
borderWidth: ['borderBottomWidth', 'borderLeftWidth', 'borderRightWidth', 'borderTopWidth'],
columnRule: ['columnRuleColor', 'columnRuleStyle', 'columnRuleWidth'],
columns: ['columnCount', 'columnWidth'],
flex: ['flexBasis', 'flexGrow', 'flexShrink'],
flexFlow: ['flexDirection', 'flexWrap'],
font: ['fontFamily', 'fontFeatureSettings', 'fontKerning', 'fontLanguageOverride', 'fontSize', 'fontSizeAdjust', 'fontStretch', 'fontStyle', 'fontVariant', 'fontVariantAlternates', 'fontVariantCaps', 'fontVariantEastAsian', 'fontVariantLigatures', 'fontVariantNumeric', 'fontVariantPosition', 'fontWeight', 'lineHeight'],
fontVariant: ['fontVariantAlternates', 'fontVariantCaps', 'fontVariantEastAsian', 'fontVariantLigatures', 'fontVariantNumeric', 'fontVariantPosition'],
gap: ['columnGap', 'rowGap'],
grid: ['gridAutoColumns', 'gridAutoFlow', 'gridAutoRows', 'gridTemplateAreas', 'gridTemplateColumns', 'gridTemplateRows'],
gridArea: ['gridColumnEnd', 'gridColumnStart', 'gridRowEnd', 'gridRowStart'],
gridColumn: ['gridColumnEnd', 'gridColumnStart'],
gridColumnGap: ['columnGap'],
gridGap: ['columnGap', 'rowGap'],
gridRow: ['gridRowEnd', 'gridRowStart'],
gridRowGap: ['rowGap'],
gridTemplate: ['gridTemplateAreas', 'gridTemplateColumns', 'gridTemplateRows'],
listStyle: ['listStyleImage', 'listStylePosition', 'listStyleType'],
margin: ['marginBottom', 'marginLeft', 'marginRight', 'marginTop'],
marker: ['markerEnd', 'markerMid', 'markerStart'],
mask: ['maskClip', 'maskComposite', 'maskImage', 'maskMode', 'maskOrigin', 'maskPositionX', 'maskPositionY', 'maskRepeat', 'maskSize'],
maskPosition: ['maskPositionX', 'maskPositionY'],
outline: ['outlineColor', 'outlineStyle', 'outlineWidth'],
overflow: ['overflowX', 'overflowY'],
padding: ['paddingBottom', 'paddingLeft', 'paddingRight', 'paddingTop'],
placeContent: ['alignContent', 'justifyContent'],
placeItems: ['alignItems', 'justifyItems'],
placeSelf: ['alignSelf', 'justifySelf'],
textDecoration: ['textDecorationColor', 'textDecorationLine', 'textDecorationStyle'],
textEmphasis: ['textEmphasisColor', 'textEmphasisStyle'],
transition: ['transitionDelay', 'transitionDuration', 'transitionProperty', 'transitionTimingFunction'],
wordWrap: ['overflowWrap']
};
/**
* CSS properties which accept numbers but are not in units of "px".
*/
var isUnitlessNumber = {
animationIterationCount: true,
borderImageOutset: true,
borderImageSlice: true,
borderImageWidth: true,
boxFlex: true,
boxFlexGroup: true,
boxOrdinalGroup: true,
columnCount: true,
columns: true,
flex: true,
flexGrow: true,
flexPositive: true,
flexShrink: true,
flexNegative: true,
flexOrder: true,
gridArea: true,
gridRow: true,
gridRowEnd: true,
gridRowSpan: true,
gridRowStart: true,
gridColumn: true,
gridColumnEnd: true,
gridColumnSpan: true,
gridColumnStart: true,
fontWeight: true,
lineClamp: true,
lineHeight: true,
opacity: true,
order: true,
orphans: true,
tabSize: true,
widows: true,
zIndex: true,
zoom: true,
// SVG-related properties
fillOpacity: true,
floodOpacity: true,
stopOpacity: true,
strokeDasharray: true,
strokeDashoffset: true,
strokeMiterlimit: true,
strokeOpacity: true,
strokeWidth: true
};
/**
* @param {string} prefix vendor-specific prefix, eg: Webkit
* @param {string} key style name, eg: transitionDuration
* @return {string} style name prefixed with `prefix`, properly camelCased, eg:
* WebkitTransitionDuration
*/
function prefixKey(prefix, key) {
return prefix + key.charAt(0).toUpperCase() + key.substring(1);
}
/**
* Support style names that may come passed in prefixed by adding permutations
* of vendor prefixes.
*/
var prefixes = ['Webkit', 'ms', 'Moz', 'O']; // Using Object.keys here, or else the vanilla for-in loop makes IE8 go into an
// infinite loop, because it iterates over the newly added props too.
Object.keys(isUnitlessNumber).forEach(function (prop) {
prefixes.forEach(function (prefix) {
isUnitlessNumber[prefixKey(prefix, prop)] = isUnitlessNumber[prop];
});
});
/**
* Convert a value into the proper css writable value. The style name `name`
* should be logical (no hyphens), as specified
* in `CSSProperty.isUnitlessNumber`.
*
* @param {string} name CSS property name such as `topMargin`.
* @param {*} value CSS property value such as `10px`.
* @return {string} Normalized style value with dimensions applied.
*/
function dangerousStyleValue(name, value, isCustomProperty) {
// Note that we've removed escapeTextForBrowser() calls here since the
// whole string will be escaped when the attribute is injected into
// the markup. If you provide unsafe user data here they can inject
// arbitrary CSS which may be problematic (I couldn't repro this):
// https://www.owasp.org/index.php/XSS_Filter_Evasion_Cheat_Sheet
// http://www.thespanner.co.uk/2007/11/26/ultimate-xss-css-injection/
// This is not an XSS hole but instead a potential CSS injection issue
// which has lead to a greater discussion about how we're going to
// trust URLs moving forward. See #2115901
var isEmpty = value == null || typeof value === 'boolean' || value === '';
if (isEmpty) {
return '';
}
if (!isCustomProperty && typeof value === 'number' && value !== 0 && !(isUnitlessNumber.hasOwnProperty(name) && isUnitlessNumber[name])) {
return value + 'px'; // Presumes implicit 'px' suffix for unitless numbers
}
return ('' + value).trim();
}
var uppercasePattern = /([A-Z])/g;
var msPattern = /^ms-/;
/**
* Hyphenates a camelcased CSS property name, for example:
*
* > hyphenateStyleName('backgroundColor')
* < "background-color"
* > hyphenateStyleName('MozTransition')
* < "-moz-transition"
* > hyphenateStyleName('msTransition')
* < "-ms-transition"
*
* As Modernizr suggests (http://modernizr.com/docs/#prefixed), an `ms` prefix
* is converted to `-ms-`.
*/
function hyphenateStyleName(name) {
return name.replace(uppercasePattern, '-$1').toLowerCase().replace(msPattern, '-ms-');
}
var warnValidStyle = function () {};
{
// 'msTransform' is correct, but the other prefixes should be capitalized
var badVendoredStyleNamePattern = /^(?:webkit|moz|o)[A-Z]/;
var msPattern$1 = /^-ms-/;
var hyphenPattern = /-(.)/g; // style values shouldn't contain a semicolon
var badStyleValueWithSemicolonPattern = /;\s*$/;
var warnedStyleNames = {};
var warnedStyleValues = {};
var warnedForNaNValue = false;
var warnedForInfinityValue = false;
var camelize = function (string) {
return string.replace(hyphenPattern, function (_, character) {
return character.toUpperCase();
});
};
var warnHyphenatedStyleName = function (name) {
if (warnedStyleNames.hasOwnProperty(name) && warnedStyleNames[name]) {
return;
}
warnedStyleNames[name] = true;
error('Unsupported style property %s. Did you mean %s?', name, // As Andi Smith suggests
// (http://www.andismith.com/blog/2012/02/modernizr-prefixed/), an `-ms` prefix
// is converted to lowercase `ms`.
camelize(name.replace(msPattern$1, 'ms-')));
};
var warnBadVendoredStyleName = function (name) {
if (warnedStyleNames.hasOwnProperty(name) && warnedStyleNames[name]) {
return;
}
warnedStyleNames[name] = true;
error('Unsupported vendor-prefixed style property %s. Did you mean %s?', name, name.charAt(0).toUpperCase() + name.slice(1));
};
var warnStyleValueWithSemicolon = function (name, value) {
if (warnedStyleValues.hasOwnProperty(value) && warnedStyleValues[value]) {
return;
}
warnedStyleValues[value] = true;
error("Style property values shouldn't contain a semicolon. " + 'Try "%s: %s" instead.', name, value.replace(badStyleValueWithSemicolonPattern, ''));
};
var warnStyleValueIsNaN = function (name, value) {
if (warnedForNaNValue) {
return;
}
warnedForNaNValue = true;
error('`NaN` is an invalid value for the `%s` css style property.', name);
};
var warnStyleValueIsInfinity = function (name, value) {
if (warnedForInfinityValue) {
return;
}
warnedForInfinityValue = true;
error('`Infinity` is an invalid value for the `%s` css style property.', name);
};
warnValidStyle = function (name, value) {
if (name.indexOf('-') > -1) {
warnHyphenatedStyleName(name);
} else if (badVendoredStyleNamePattern.test(name)) {
warnBadVendoredStyleName(name);
} else if (badStyleValueWithSemicolonPattern.test(value)) {
warnStyleValueWithSemicolon(name, value);
}
if (typeof value === 'number') {
if (isNaN(value)) {
warnStyleValueIsNaN(name, value);
} else if (!isFinite(value)) {
warnStyleValueIsInfinity(name, value);
}
}
};
}
var warnValidStyle$1 = warnValidStyle;
/**
* Operations for dealing with CSS properties.
*/
/**
* This creates a string that is expected to be equivalent to the style
* attribute generated by server-side rendering. It by-passes warnings and
* security checks so it's not safe to use this value for anything other than
* comparison. It is only used in DEV for SSR validation.
*/
function createDangerousStringForStyles(styles) {
{
var serialized = '';
var delimiter = '';
for (var styleName in styles) {
if (!styles.hasOwnProperty(styleName)) {
continue;
}
var styleValue = styles[styleName];
if (styleValue != null) {
var isCustomProperty = styleName.indexOf('--') === 0;
serialized += delimiter + (isCustomProperty ? styleName : hyphenateStyleName(styleName)) + ':';
serialized += dangerousStyleValue(styleName, styleValue, isCustomProperty);
delimiter = ';';
}
}
return serialized || null;
}
}
/**
* Sets the value for multiple styles on a node. If a value is specified as
* '' (empty string), the corresponding style property will be unset.
*
* @param {DOMElement} node
* @param {object} styles
*/
function setValueForStyles(node, styles) {
var style = node.style;
for (var styleName in styles) {
if (!styles.hasOwnProperty(styleName)) {
continue;
}
var isCustomProperty = styleName.indexOf('--') === 0;
{
if (!isCustomProperty) {
warnValidStyle$1(styleName, styles[styleName]);
}
}
var styleValue = dangerousStyleValue(styleName, styles[styleName], isCustomProperty);
if (styleName === 'float') {
styleName = 'cssFloat';
}
if (isCustomProperty) {
style.setProperty(styleName, styleValue);
} else {
style[styleName] = styleValue;
}
}
}
function isValueEmpty(value) {
return value == null || typeof value === 'boolean' || value === '';
}
/**
* Given {color: 'red', overflow: 'hidden'} returns {
* color: 'color',
* overflowX: 'overflow',
* overflowY: 'overflow',
* }. This can be read as "the overflowY property was set by the overflow
* shorthand". That is, the values are the property that each was derived from.
*/
function expandShorthandMap(styles) {
var expanded = {};
for (var key in styles) {
var longhands = shorthandToLonghand[key] || [key];
for (var i = 0; i < longhands.length; i++) {
expanded[longhands[i]] = key;
}
}
return expanded;
}
/**
* When mixing shorthand and longhand property names, we warn during updates if
* we expect an incorrect result to occur. In particular, we warn for:
*
* Updating a shorthand property (longhand gets overwritten):
* {font: 'foo', fontVariant: 'bar'} -> {font: 'baz', fontVariant: 'bar'}
* becomes .style.font = 'baz'
* Removing a shorthand property (longhand gets lost too):
* {font: 'foo', fontVariant: 'bar'} -> {fontVariant: 'bar'}
* becomes .style.font = ''
* Removing a longhand property (should revert to shorthand; doesn't):
* {font: 'foo', fontVariant: 'bar'} -> {font: 'foo'}
* becomes .style.fontVariant = ''
*/
function validateShorthandPropertyCollisionInDev(styleUpdates, nextStyles) {
{
if (!nextStyles) {
return;
}
var expandedUpdates = expandShorthandMap(styleUpdates);
var expandedStyles = expandShorthandMap(nextStyles);
var warnedAbout = {};
for (var key in expandedUpdates) {
var originalKey = expandedUpdates[key];
var correctOriginalKey = expandedStyles[key];
if (correctOriginalKey && originalKey !== correctOriginalKey) {
var warningKey = originalKey + ',' + correctOriginalKey;
if (warnedAbout[warningKey]) {
continue;
}
warnedAbout[warningKey] = true;
error('%s a style property during rerender (%s) when a ' + 'conflicting property is set (%s) can lead to styling bugs. To ' + "avoid this, don't mix shorthand and non-shorthand properties " + 'for the same value; instead, replace the shorthand with ' + 'separate values.', isValueEmpty(styleUpdates[originalKey]) ? 'Removing' : 'Updating', originalKey, correctOriginalKey);
}
}
}
}
// For HTML, certain tags should omit their close tag. We keep a list for
// those special-case tags.
var omittedCloseTags = {
area: true,
base: true,
br: true,
col: true,
embed: true,
hr: true,
img: true,
input: true,
keygen: true,
link: true,
meta: true,
param: true,
source: true,
track: true,
wbr: true // NOTE: menuitem's close tag should be omitted, but that causes problems.
};
// `omittedCloseTags` except that `menuitem` should still have its closing tag.
var voidElementTags = _assign({
menuitem: true
}, omittedCloseTags);
var HTML = '__html';
function assertValidProps(tag, props) {
if (!props) {
return;
} // Note the use of `==` which checks for null or undefined.
if (voidElementTags[tag]) {
if (!(props.children == null && props.dangerouslySetInnerHTML == null)) {
{
throw Error( tag + " is a void element tag and must neither have `children` nor use `dangerouslySetInnerHTML`." );
}
}
}
if (props.dangerouslySetInnerHTML != null) {
if (!(props.children == null)) {
{
throw Error( "Can only set one of `children` or `props.dangerouslySetInnerHTML`." );
}
}
if (!(typeof props.dangerouslySetInnerHTML === 'object' && HTML in props.dangerouslySetInnerHTML)) {
{
throw Error( "`props.dangerouslySetInnerHTML` must be in the form `{__html: ...}`. Please visit https://reactjs.org/link/dangerously-set-inner-html for more information." );
}
}
}
{
if (!props.suppressContentEditableWarning && props.contentEditable && props.children != null) {
error('A component is `contentEditable` and contains `children` managed by ' + 'React. It is now your responsibility to guarantee that none of ' + 'those nodes are unexpectedly modified or duplicated. This is ' + 'probably not intentional.');
}
}
if (!(props.style == null || typeof props.style === 'object')) {
{
throw Error( "The `style` prop expects a mapping from style properties to values, not a string. For example, style={{marginRight: spacing + 'em'}} when using JSX." );
}
}
}
function isCustomComponent(tagName, props) {
if (tagName.indexOf('-') === -1) {
return typeof props.is === 'string';
}
switch (tagName) {
// These are reserved SVG and MathML elements.
// We don't mind this list too much because we expect it to never grow.
// The alternative is to track the namespace in a few places which is convoluted.
// https://w3c.github.io/webcomponents/spec/custom/#custom-elements-core-concepts
case 'annotation-xml':
case 'color-profile':
case 'font-face':
case 'font-face-src':
case 'font-face-uri':
case 'font-face-format':
case 'font-face-name':
case 'missing-glyph':
return false;
default:
return true;
}
}
// When adding attributes to the HTML or SVG allowed attribute list, be sure to
// also add them to this module to ensure casing and incorrect name
// warnings.
var possibleStandardNames = {
// HTML
accept: 'accept',
acceptcharset: 'acceptCharset',
'accept-charset': 'acceptCharset',
accesskey: 'accessKey',
action: 'action',
allowfullscreen: 'allowFullScreen',
alt: 'alt',
as: 'as',
async: 'async',
autocapitalize: 'autoCapitalize',
autocomplete: 'autoComplete',
autocorrect: 'autoCorrect',
autofocus: 'autoFocus',
autoplay: 'autoPlay',
autosave: 'autoSave',
capture: 'capture',
cellpadding: 'cellPadding',
cellspacing: 'cellSpacing',
challenge: 'challenge',
charset: 'charSet',
checked: 'checked',
children: 'children',
cite: 'cite',
class: 'className',
classid: 'classID',
classname: 'className',
cols: 'cols',
colspan: 'colSpan',
content: 'content',
contenteditable: 'contentEditable',
contextmenu: 'contextMenu',
controls: 'controls',
controlslist: 'controlsList',
coords: 'coords',
crossorigin: 'crossOrigin',
dangerouslysetinnerhtml: 'dangerouslySetInnerHTML',
data: 'data',
datetime: 'dateTime',
default: 'default',
defaultchecked: 'defaultChecked',
defaultvalue: 'defaultValue',
defer: 'defer',
dir: 'dir',
disabled: 'disabled',
disablepictureinpicture: 'disablePictureInPicture',
disableremoteplayback: 'disableRemotePlayback',
download: 'download',
draggable: 'draggable',
enctype: 'encType',
enterkeyhint: 'enterKeyHint',
for: 'htmlFor',
form: 'form',
formmethod: 'formMethod',
formaction: 'formAction',
formenctype: 'formEncType',
formnovalidate: 'formNoValidate',
formtarget: 'formTarget',
frameborder: 'frameBorder',
headers: 'headers',
height: 'height',
hidden: 'hidden',
high: 'high',
href: 'href',
hreflang: 'hrefLang',
htmlfor: 'htmlFor',
httpequiv: 'httpEquiv',
'http-equiv': 'httpEquiv',
icon: 'icon',
id: 'id',
innerhtml: 'innerHTML',
inputmode: 'inputMode',
integrity: 'integrity',
is: 'is',
itemid: 'itemID',
itemprop: 'itemProp',
itemref: 'itemRef',
itemscope: 'itemScope',
itemtype: 'itemType',
keyparams: 'keyParams',
keytype: 'keyType',
kind: 'kind',
label: 'label',
lang: 'lang',
list: 'list',
loop: 'loop',
low: 'low',
manifest: 'manifest',
marginwidth: 'marginWidth',
marginheight: 'marginHeight',
max: 'max',
maxlength: 'maxLength',
media: 'media',
mediagroup: 'mediaGroup',
method: 'method',
min: 'min',
minlength: 'minLength',
multiple: 'multiple',
muted: 'muted',
name: 'name',
nomodule: 'noModule',
nonce: 'nonce',
novalidate: 'noValidate',
open: 'open',
optimum: 'optimum',
pattern: 'pattern',
placeholder: 'placeholder',
playsinline: 'playsInline',
poster: 'poster',
preload: 'preload',
profile: 'profile',
radiogroup: 'radioGroup',
readonly: 'readOnly',
referrerpolicy: 'referrerPolicy',
rel: 'rel',
required: 'required',
reversed: 'reversed',
role: 'role',
rows: 'rows',
rowspan: 'rowSpan',
sandbox: 'sandbox',
scope: 'scope',
scoped: 'scoped',
scrolling: 'scrolling',
seamless: 'seamless',
selected: 'selected',
shape: 'shape',
size: 'size',
sizes: 'sizes',
span: 'span',
spellcheck: 'spellCheck',
src: 'src',
srcdoc: 'srcDoc',
srclang: 'srcLang',
srcset: 'srcSet',
start: 'start',
step: 'step',
style: 'style',
summary: 'summary',
tabindex: 'tabIndex',
target: 'target',
title: 'title',
type: 'type',
usemap: 'useMap',
value: 'value',
width: 'width',
wmode: 'wmode',
wrap: 'wrap',
// SVG
about: 'about',
accentheight: 'accentHeight',
'accent-height': 'accentHeight',
accumulate: 'accumulate',
additive: 'additive',
alignmentbaseline: 'alignmentBaseline',
'alignment-baseline': 'alignmentBaseline',
allowreorder: 'allowReorder',
alphabetic: 'alphabetic',
amplitude: 'amplitude',
arabicform: 'arabicForm',
'arabic-form': 'arabicForm',
ascent: 'ascent',
attributename: 'attributeName',
attributetype: 'attributeType',
autoreverse: 'autoReverse',
azimuth: 'azimuth',
basefrequency: 'baseFrequency',
baselineshift: 'baselineShift',
'baseline-shift': 'baselineShift',
baseprofile: 'baseProfile',
bbox: 'bbox',
begin: 'begin',
bias: 'bias',
by: 'by',
calcmode: 'calcMode',
capheight: 'capHeight',
'cap-height': 'capHeight',
clip: 'clip',
clippath: 'clipPath',
'clip-path': 'clipPath',
clippathunits: 'clipPathUnits',
cliprule: 'clipRule',
'clip-rule': 'clipRule',
color: 'color',
colorinterpolation: 'colorInterpolation',
'color-interpolation': 'colorInterpolation',
colorinterpolationfilters: 'colorInterpolationFilters',
'color-interpolation-filters': 'colorInterpolationFilters',
colorprofile: 'colorProfile',
'color-profile': 'colorProfile',
colorrendering: 'colorRendering',
'color-rendering': 'colorRendering',
contentscripttype: 'contentScriptType',
contentstyletype: 'contentStyleType',
cursor: 'cursor',
cx: 'cx',
cy: 'cy',
d: 'd',
datatype: 'datatype',
decelerate: 'decelerate',
descent: 'descent',
diffuseconstant: 'diffuseConstant',
direction: 'direction',
display: 'display',
divisor: 'divisor',
dominantbaseline: 'dominantBaseline',
'dominant-baseline': 'dominantBaseline',
dur: 'dur',
dx: 'dx',
dy: 'dy',
edgemode: 'edgeMode',
elevation: 'elevation',
enablebackground: 'enableBackground',
'enable-background': 'enableBackground',
end: 'end',
exponent: 'exponent',
externalresourcesrequired: 'externalResourcesRequired',
fill: 'fill',
fillopacity: 'fillOpacity',
'fill-opacity': 'fillOpacity',
fillrule: 'fillRule',
'fill-rule': 'fillRule',
filter: 'filter',
filterres: 'filterRes',
filterunits: 'filterUnits',
floodopacity: 'floodOpacity',
'flood-opacity': 'floodOpacity',
floodcolor: 'floodColor',
'flood-color': 'floodColor',
focusable: 'focusable',
fontfamily: 'fontFamily',
'font-family': 'fontFamily',
fontsize: 'fontSize',
'font-size': 'fontSize',
fontsizeadjust: 'fontSizeAdjust',
'font-size-adjust': 'fontSizeAdjust',
fontstretch: 'fontStretch',
'font-stretch': 'fontStretch',
fontstyle: 'fontStyle',
'font-style': 'fontStyle',
fontvariant: 'fontVariant',
'font-variant': 'fontVariant',
fontweight: 'fontWeight',
'font-weight': 'fontWeight',
format: 'format',
from: 'from',
fx: 'fx',
fy: 'fy',
g1: 'g1',
g2: 'g2',
glyphname: 'glyphName',
'glyph-name': 'glyphName',
glyphorientationhorizontal: 'glyphOrientationHorizontal',
'glyph-orientation-horizontal': 'glyphOrientationHorizontal',
glyphorientationvertical: 'glyphOrientationVertical',
'glyph-orientation-vertical': 'glyphOrientationVertical',
glyphref: 'glyphRef',
gradienttransform: 'gradientTransform',
gradientunits: 'gradientUnits',
hanging: 'hanging',
horizadvx: 'horizAdvX',
'horiz-adv-x': 'horizAdvX',
horizoriginx: 'horizOriginX',
'horiz-origin-x': 'horizOriginX',
ideographic: 'ideographic',
imagerendering: 'imageRendering',
'image-rendering': 'imageRendering',
in2: 'in2',
in: 'in',
inlist: 'inlist',
intercept: 'intercept',
k1: 'k1',
k2: 'k2',
k3: 'k3',
k4: 'k4',
k: 'k',
kernelmatrix: 'kernelMatrix',
kernelunitlength: 'kernelUnitLength',
kerning: 'kerning',
keypoints: 'keyPoints',
keysplines: 'keySplines',
keytimes: 'keyTimes',
lengthadjust: 'lengthAdjust',
letterspacing: 'letterSpacing',
'letter-spacing': 'letterSpacing',
lightingcolor: 'lightingColor',
'lighting-color': 'lightingColor',
limitingconeangle: 'limitingConeAngle',
local: 'local',
markerend: 'markerEnd',
'marker-end': 'markerEnd',
markerheight: 'markerHeight',
markermid: 'markerMid',
'marker-mid': 'markerMid',
markerstart: 'markerStart',
'marker-start': 'markerStart',
markerunits: 'markerUnits',
markerwidth: 'markerWidth',
mask: 'mask',
maskcontentunits: 'maskContentUnits',
maskunits: 'maskUnits',
mathematical: 'mathematical',
mode: 'mode',
numoctaves: 'numOctaves',
offset: 'offset',
opacity: 'opacity',
operator: 'operator',
order: 'order',
orient: 'orient',
orientation: 'orientation',
origin: 'origin',
overflow: 'overflow',
overlineposition: 'overlinePosition',
'overline-position': 'overlinePosition',
overlinethickness: 'overlineThickness',
'overline-thickness': 'overlineThickness',
paintorder: 'paintOrder',
'paint-order': 'paintOrder',
panose1: 'panose1',
'panose-1': 'panose1',
pathlength: 'pathLength',
patterncontentunits: 'patternContentUnits',
patterntransform: 'patternTransform',
patternunits: 'patternUnits',
pointerevents: 'pointerEvents',
'pointer-events': 'pointerEvents',
points: 'points',
pointsatx: 'pointsAtX',
pointsaty: 'pointsAtY',
pointsatz: 'pointsAtZ',
prefix: 'prefix',
preservealpha: 'preserveAlpha',
preserveaspectratio: 'preserveAspectRatio',
primitiveunits: 'primitiveUnits',
property: 'property',
r: 'r',
radius: 'radius',
refx: 'refX',
refy: 'refY',
renderingintent: 'renderingIntent',
'rendering-intent': 'renderingIntent',
repeatcount: 'repeatCount',
repeatdur: 'repeatDur',
requiredextensions: 'requiredExtensions',
requiredfeatures: 'requiredFeatures',
resource: 'resource',
restart: 'restart',
result: 'result',
results: 'results',
rotate: 'rotate',
rx: 'rx',
ry: 'ry',
scale: 'scale',
security: 'security',
seed: 'seed',
shaperendering: 'shapeRendering',
'shape-rendering': 'shapeRendering',
slope: 'slope',
spacing: 'spacing',
specularconstant: 'specularConstant',
specularexponent: 'specularExponent',
speed: 'speed',
spreadmethod: 'spreadMethod',
startoffset: 'startOffset',
stddeviation: 'stdDeviation',
stemh: 'stemh',
stemv: 'stemv',
stitchtiles: 'stitchTiles',
stopcolor: 'stopColor',
'stop-color': 'stopColor',
stopopacity: 'stopOpacity',
'stop-opacity': 'stopOpacity',
strikethroughposition: 'strikethroughPosition',
'strikethrough-position': 'strikethroughPosition',
strikethroughthickness: 'strikethroughThickness',
'strikethrough-thickness': 'strikethroughThickness',
string: 'string',
stroke: 'stroke',
strokedasharray: 'strokeDasharray',
'stroke-dasharray': 'strokeDasharray',
strokedashoffset: 'strokeDashoffset',
'stroke-dashoffset': 'strokeDashoffset',
strokelinecap: 'strokeLinecap',
'stroke-linecap': 'strokeLinecap',
strokelinejoin: 'strokeLinejoin',
'stroke-linejoin': 'strokeLinejoin',
strokemiterlimit: 'strokeMiterlimit',
'stroke-miterlimit': 'strokeMiterlimit',
strokewidth: 'strokeWidth',
'stroke-width': 'strokeWidth',
strokeopacity: 'strokeOpacity',
'stroke-opacity': 'strokeOpacity',
suppresscontenteditablewarning: 'suppressContentEditableWarning',
suppresshydrationwarning: 'suppressHydrationWarning',
surfacescale: 'surfaceScale',
systemlanguage: 'systemLanguage',
tablevalues: 'tableValues',
targetx: 'targetX',
targety: 'targetY',
textanchor: 'textAnchor',
'text-anchor': 'textAnchor',
textdecoration: 'textDecoration',
'text-decoration': 'textDecoration',
textlength: 'textLength',
textrendering: 'textRendering',
'text-rendering': 'textRendering',
to: 'to',
transform: 'transform',
typeof: 'typeof',
u1: 'u1',
u2: 'u2',
underlineposition: 'underlinePosition',
'underline-position': 'underlinePosition',
underlinethickness: 'underlineThickness',
'underline-thickness': 'underlineThickness',
unicode: 'unicode',
unicodebidi: 'unicodeBidi',
'unicode-bidi': 'unicodeBidi',
unicoderange: 'unicodeRange',
'unicode-range': 'unicodeRange',
unitsperem: 'unitsPerEm',
'units-per-em': 'unitsPerEm',
unselectable: 'unselectable',
valphabetic: 'vAlphabetic',
'v-alphabetic': 'vAlphabetic',
values: 'values',
vectoreffect: 'vectorEffect',
'vector-effect': 'vectorEffect',
version: 'version',
vertadvy: 'vertAdvY',
'vert-adv-y': 'vertAdvY',
vertoriginx: 'vertOriginX',
'vert-origin-x': 'vertOriginX',
vertoriginy: 'vertOriginY',
'vert-origin-y': 'vertOriginY',
vhanging: 'vHanging',
'v-hanging': 'vHanging',
videographic: 'vIdeographic',
'v-ideographic': 'vIdeographic',
viewbox: 'viewBox',
viewtarget: 'viewTarget',
visibility: 'visibility',
vmathematical: 'vMathematical',
'v-mathematical': 'vMathematical',
vocab: 'vocab',
widths: 'widths',
wordspacing: 'wordSpacing',
'word-spacing': 'wordSpacing',
writingmode: 'writingMode',
'writing-mode': 'writingMode',
x1: 'x1',
x2: 'x2',
x: 'x',
xchannelselector: 'xChannelSelector',
xheight: 'xHeight',
'x-height': 'xHeight',
xlinkactuate: 'xlinkActuate',
'xlink:actuate': 'xlinkActuate',
xlinkarcrole: 'xlinkArcrole',
'xlink:arcrole': 'xlinkArcrole',
xlinkhref: 'xlinkHref',
'xlink:href': 'xlinkHref',
xlinkrole: 'xlinkRole',
'xlink:role': 'xlinkRole',
xlinkshow: 'xlinkShow',
'xlink:show': 'xlinkShow',
xlinktitle: 'xlinkTitle',
'xlink:title': 'xlinkTitle',
xlinktype: 'xlinkType',
'xlink:type': 'xlinkType',
xmlbase: 'xmlBase',
'xml:base': 'xmlBase',
xmllang: 'xmlLang',
'xml:lang': 'xmlLang',
xmlns: 'xmlns',
'xml:space': 'xmlSpace',
xmlnsxlink: 'xmlnsXlink',
'xmlns:xlink': 'xmlnsXlink',
xmlspace: 'xmlSpace',
y1: 'y1',
y2: 'y2',
y: 'y',
ychannelselector: 'yChannelSelector',
z: 'z',
zoomandpan: 'zoomAndPan'
};
var ariaProperties = {
'aria-current': 0,
// state
'aria-details': 0,
'aria-disabled': 0,
// state
'aria-hidden': 0,
// state
'aria-invalid': 0,
// state
'aria-keyshortcuts': 0,
'aria-label': 0,
'aria-roledescription': 0,
// Widget Attributes
'aria-autocomplete': 0,
'aria-checked': 0,
'aria-expanded': 0,
'aria-haspopup': 0,
'aria-level': 0,
'aria-modal': 0,
'aria-multiline': 0,
'aria-multiselectable': 0,
'aria-orientation': 0,
'aria-placeholder': 0,
'aria-pressed': 0,
'aria-readonly': 0,
'aria-required': 0,
'aria-selected': 0,
'aria-sort': 0,
'aria-valuemax': 0,
'aria-valuemin': 0,
'aria-valuenow': 0,
'aria-valuetext': 0,
// Live Region Attributes
'aria-atomic': 0,
'aria-busy': 0,
'aria-live': 0,
'aria-relevant': 0,
// Drag-and-Drop Attributes
'aria-dropeffect': 0,
'aria-grabbed': 0,
// Relationship Attributes
'aria-activedescendant': 0,
'aria-colcount': 0,
'aria-colindex': 0,
'aria-colspan': 0,
'aria-controls': 0,
'aria-describedby': 0,
'aria-errormessage': 0,
'aria-flowto': 0,
'aria-labelledby': 0,
'aria-owns': 0,
'aria-posinset': 0,
'aria-rowcount': 0,
'aria-rowindex': 0,
'aria-rowspan': 0,
'aria-setsize': 0
};
var warnedProperties = {};
var rARIA = new RegExp('^(aria)-[' + ATTRIBUTE_NAME_CHAR + ']*$');
var rARIACamel = new RegExp('^(aria)[A-Z][' + ATTRIBUTE_NAME_CHAR + ']*$');
var hasOwnProperty$1 = Object.prototype.hasOwnProperty;
function validateProperty(tagName, name) {
{
if (hasOwnProperty$1.call(warnedProperties, name) && warnedProperties[name]) {
return true;
}
if (rARIACamel.test(name)) {
var ariaName = 'aria-' + name.slice(4).toLowerCase();
var correctName = ariaProperties.hasOwnProperty(ariaName) ? ariaName : null; // If this is an aria-* attribute, but is not listed in the known DOM
// DOM properties, then it is an invalid aria-* attribute.
if (correctName == null) {
error('Invalid ARIA attribute `%s`. ARIA attributes follow the pattern aria-* and must be lowercase.', name);
warnedProperties[name] = true;
return true;
} // aria-* attributes should be lowercase; suggest the lowercase version.
if (name !== correctName) {
error('Invalid ARIA attribute `%s`. Did you mean `%s`?', name, correctName);
warnedProperties[name] = true;
return true;
}
}
if (rARIA.test(name)) {
var lowerCasedName = name.toLowerCase();
var standardName = ariaProperties.hasOwnProperty(lowerCasedName) ? lowerCasedName : null; // If this is an aria-* attribute, but is not listed in the known DOM
// DOM properties, then it is an invalid aria-* attribute.
if (standardName == null) {
warnedProperties[name] = true;
return false;
} // aria-* attributes should be lowercase; suggest the lowercase version.
if (name !== standardName) {
error('Unknown ARIA attribute `%s`. Did you mean `%s`?', name, standardName);
warnedProperties[name] = true;
return true;
}
}
}
return true;
}
function warnInvalidARIAProps(type, props) {
{
var invalidProps = [];
for (var key in props) {
var isValid = validateProperty(type, key);
if (!isValid) {
invalidProps.push(key);
}
}
var unknownPropString = invalidProps.map(function (prop) {
return '`' + prop + '`';
}).join(', ');
if (invalidProps.length === 1) {
error('Invalid aria prop %s on <%s> tag. ' + 'For details, see https://reactjs.org/link/invalid-aria-props', unknownPropString, type);
} else if (invalidProps.length > 1) {
error('Invalid aria props %s on <%s> tag. ' + 'For details, see https://reactjs.org/link/invalid-aria-props', unknownPropString, type);
}
}
}
function validateProperties(type, props) {
if (isCustomComponent(type, props)) {
return;
}
warnInvalidARIAProps(type, props);
}
var didWarnValueNull = false;
function validateProperties$1(type, props) {
{
if (type !== 'input' && type !== 'textarea' && type !== 'select') {
return;
}
if (props != null && props.value === null && !didWarnValueNull) {
didWarnValueNull = true;
if (type === 'select' && props.multiple) {
error('`value` prop on `%s` should not be null. ' + 'Consider using an empty array when `multiple` is set to `true` ' + 'to clear the component or `undefined` for uncontrolled components.', type);
} else {
error('`value` prop on `%s` should not be null. ' + 'Consider using an empty string to clear the component or `undefined` ' + 'for uncontrolled components.', type);
}
}
}
}
var validateProperty$1 = function () {};
{
var warnedProperties$1 = {};
var _hasOwnProperty = Object.prototype.hasOwnProperty;
var EVENT_NAME_REGEX = /^on./;
var INVALID_EVENT_NAME_REGEX = /^on[^A-Z]/;
var rARIA$1 = new RegExp('^(aria)-[' + ATTRIBUTE_NAME_CHAR + ']*$');
var rARIACamel$1 = new RegExp('^(aria)[A-Z][' + ATTRIBUTE_NAME_CHAR + ']*$');
validateProperty$1 = function (tagName, name, value, eventRegistry) {
if (_hasOwnProperty.call(warnedProperties$1, name) && warnedProperties$1[name]) {
return true;
}
var lowerCasedName = name.toLowerCase();
if (lowerCasedName === 'onfocusin' || lowerCasedName === 'onfocusout') {
error('React uses onFocus and onBlur instead of onFocusIn and onFocusOut. ' + 'All React events are normalized to bubble, so onFocusIn and onFocusOut ' + 'are not needed/supported by React.');
warnedProperties$1[name] = true;
return true;
} // We can't rely on the event system being injected on the server.
if (eventRegistry != null) {
var registrationNameDependencies = eventRegistry.registrationNameDependencies,
possibleRegistrationNames = eventRegistry.possibleRegistrationNames;
if (registrationNameDependencies.hasOwnProperty(name)) {
return true;
}
var registrationName = possibleRegistrationNames.hasOwnProperty(lowerCasedName) ? possibleRegistrationNames[lowerCasedName] : null;
if (registrationName != null) {
error('Invalid event handler property `%s`. Did you mean `%s`?', name, registrationName);
warnedProperties$1[name] = true;
return true;
}
if (EVENT_NAME_REGEX.test(name)) {
error('Unknown event handler property `%s`. It will be ignored.', name);
warnedProperties$1[name] = true;
return true;
}
} else if (EVENT_NAME_REGEX.test(name)) {
// If no event plugins have been injected, we are in a server environment.
// So we can't tell if the event name is correct for sure, but we can filter
// out known bad ones like `onclick`. We can't suggest a specific replacement though.
if (INVALID_EVENT_NAME_REGEX.test(name)) {
error('Invalid event handler property `%s`. ' + 'React events use the camelCase naming convention, for example `onClick`.', name);
}
warnedProperties$1[name] = true;
return true;
} // Let the ARIA attribute hook validate ARIA attributes
if (rARIA$1.test(name) || rARIACamel$1.test(name)) {
return true;
}
if (lowerCasedName === 'innerhtml') {
error('Directly setting property `innerHTML` is not permitted. ' + 'For more information, lookup documentation on `dangerouslySetInnerHTML`.');
warnedProperties$1[name] = true;
return true;
}
if (lowerCasedName === 'aria') {
error('The `aria` attribute is reserved for future use in React. ' + 'Pass individual `aria-` attributes instead.');
warnedProperties$1[name] = true;
return true;
}
if (lowerCasedName === 'is' && value !== null && value !== undefined && typeof value !== 'string') {
error('Received a `%s` for a string attribute `is`. If this is expected, cast ' + 'the value to a string.', typeof value);
warnedProperties$1[name] = true;
return true;
}
if (typeof value === 'number' && isNaN(value)) {
error('Received NaN for the `%s` attribute. If this is expected, cast ' + 'the value to a string.', name);
warnedProperties$1[name] = true;
return true;
}
var propertyInfo = getPropertyInfo(name);
var isReserved = propertyInfo !== null && propertyInfo.type === RESERVED; // Known attributes should match the casing specified in the property config.
if (possibleStandardNames.hasOwnProperty(lowerCasedName)) {
var standardName = possibleStandardNames[lowerCasedName];
if (standardName !== name) {
error('Invalid DOM property `%s`. Did you mean `%s`?', name, standardName);
warnedProperties$1[name] = true;
return true;
}
} else if (!isReserved && name !== lowerCasedName) {
// Unknown attributes should have lowercase casing since that's how they
// will be cased anyway with server rendering.
error('React does not recognize the `%s` prop on a DOM element. If you ' + 'intentionally want it to appear in the DOM as a custom ' + 'attribute, spell it as lowercase `%s` instead. ' + 'If you accidentally passed it from a parent component, remove ' + 'it from the DOM element.', name, lowerCasedName);
warnedProperties$1[name] = true;
return true;
}
if (typeof value === 'boolean' && shouldRemoveAttributeWithWarning(name, value, propertyInfo, false)) {
if (value) {
error('Received `%s` for a non-boolean attribute `%s`.\n\n' + 'If you want to write it to the DOM, pass a string instead: ' + '%s="%s" or %s={value.toString()}.', value, name, name, value, name);
} else {
error('Received `%s` for a non-boolean attribute `%s`.\n\n' + 'If you want to write it to the DOM, pass a string instead: ' + '%s="%s" or %s={value.toString()}.\n\n' + 'If you used to conditionally omit it with %s={condition && value}, ' + 'pass %s={condition ? value : undefined} instead.', value, name, name, value, name, name, name);
}
warnedProperties$1[name] = true;
return true;
} // Now that we've validated casing, do not validate
// data types for reserved props
if (isReserved) {
return true;
} // Warn when a known attribute is a bad type
if (shouldRemoveAttributeWithWarning(name, value, propertyInfo, false)) {
warnedProperties$1[name] = true;
return false;
} // Warn when passing the strings 'false' or 'true' into a boolean prop
if ((value === 'false' || value === 'true') && propertyInfo !== null && propertyInfo.type === BOOLEAN) {
error('Received the string `%s` for the boolean attribute `%s`. ' + '%s ' + 'Did you mean %s={%s}?', value, name, value === 'false' ? 'The browser will interpret it as a truthy value.' : 'Although this works, it will not work as expected if you pass the string "false".', name, value);
warnedProperties$1[name] = true;
return true;
}
return true;
};
}
var warnUnknownProperties = function (type, props, eventRegistry) {
{
var unknownProps = [];
for (var key in props) {
var isValid = validateProperty$1(type, key, props[key], eventRegistry);
if (!isValid) {
unknownProps.push(key);
}
}
var unknownPropString = unknownProps.map(function (prop) {
return '`' + prop + '`';
}).join(', ');
if (unknownProps.length === 1) {
error('Invalid value for prop %s on <%s> tag. Either remove it from the element, ' + 'or pass a string or number value to keep it in the DOM. ' + 'For details, see https://reactjs.org/link/attribute-behavior ', unknownPropString, type);
} else if (unknownProps.length > 1) {
error('Invalid values for props %s on <%s> tag. Either remove them from the element, ' + 'or pass a string or number value to keep them in the DOM. ' + 'For details, see https://reactjs.org/link/attribute-behavior ', unknownPropString, type);
}
}
};
function validateProperties$2(type, props, eventRegistry) {
if (isCustomComponent(type, props)) {
return;
}
warnUnknownProperties(type, props, eventRegistry);
}
var IS_EVENT_HANDLE_NON_MANAGED_NODE = 1;
var IS_NON_DELEGATED = 1 << 1;
var IS_CAPTURE_PHASE = 1 << 2;
var IS_REPLAYED = 1 << 4;
// set to LEGACY_FB_SUPPORT. LEGACY_FB_SUPPORT only gets set when
// we call willDeferLaterForLegacyFBSupport, thus not bailing out
// will result in endless cycles like an infinite loop.
// We also don't want to defer during event replaying.
var SHOULD_NOT_PROCESS_POLYFILL_EVENT_PLUGINS = IS_EVENT_HANDLE_NON_MANAGED_NODE | IS_NON_DELEGATED | IS_CAPTURE_PHASE;
/**
* Gets the target node from a native browser event by accounting for
* inconsistencies in browser DOM APIs.
*
* @param {object} nativeEvent Native browser event.
* @return {DOMEventTarget} Target node.
*/
function getEventTarget(nativeEvent) {
// Fallback to nativeEvent.srcElement for IE9
// https://github.com/facebook/react/issues/12506
var target = nativeEvent.target || nativeEvent.srcElement || window; // Normalize SVG <use> element events #4963
if (target.correspondingUseElement) {
target = target.correspondingUseElement;
} // Safari may fire events on text nodes (Node.TEXT_NODE is 3).
// @see http://www.quirksmode.org/js/events_properties.html
return target.nodeType === TEXT_NODE ? target.parentNode : target;
}
var restoreImpl = null;
var restoreTarget = null;
var restoreQueue = null;
function restoreStateOfTarget(target) {
// We perform this translation at the end of the event loop so that we
// always receive the correct fiber here
var internalInstance = getInstanceFromNode(target);
if (!internalInstance) {
// Unmounted
return;
}
if (!(typeof restoreImpl === 'function')) {
{
throw Error( "setRestoreImplementation() needs to be called to handle a target for controlled events. This error is likely caused by a bug in React. Please file an issue." );
}
}
var stateNode = internalInstance.stateNode; // Guard against Fiber being unmounted.
if (stateNode) {
var _props = getFiberCurrentPropsFromNode(stateNode);
restoreImpl(internalInstance.stateNode, internalInstance.type, _props);
}
}
function setRestoreImplementation(impl) {
restoreImpl = impl;
}
function enqueueStateRestore(target) {
if (restoreTarget) {
if (restoreQueue) {
restoreQueue.push(target);
} else {
restoreQueue = [target];
}
} else {
restoreTarget = target;
}
}
function needsStateRestore() {
return restoreTarget !== null || restoreQueue !== null;
}
function restoreStateIfNeeded() {
if (!restoreTarget) {
return;
}
var target = restoreTarget;
var queuedTargets = restoreQueue;
restoreTarget = null;
restoreQueue = null;
restoreStateOfTarget(target);
if (queuedTargets) {
for (var i = 0; i < queuedTargets.length; i++) {
restoreStateOfTarget(queuedTargets[i]);
}
}
}
// the renderer. Such as when we're dispatching events or if third party
// libraries need to call batchedUpdates. Eventually, this API will go away when
// everything is batched by default. We'll then have a similar API to opt-out of
// scheduled work and instead do synchronous work.
// Defaults
var batchedUpdatesImpl = function (fn, bookkeeping) {
return fn(bookkeeping);
};
var discreteUpdatesImpl = function (fn, a, b, c, d) {
return fn(a, b, c, d);
};
var flushDiscreteUpdatesImpl = function () {};
var batchedEventUpdatesImpl = batchedUpdatesImpl;
var isInsideEventHandler = false;
var isBatchingEventUpdates = false;
function finishEventHandler() {
// Here we wait until all updates have propagated, which is important
// when using controlled components within layers:
// https://github.com/facebook/react/issues/1698
// Then we restore state of any controlled component.
var controlledComponentsHavePendingUpdates = needsStateRestore();
if (controlledComponentsHavePendingUpdates) {
// If a controlled event was fired, we may need to restore the state of
// the DOM node back to the controlled value. This is necessary when React
// bails out of the update without touching the DOM.
flushDiscreteUpdatesImpl();
restoreStateIfNeeded();
}
}
function batchedUpdates(fn, bookkeeping) {
if (isInsideEventHandler) {
// If we are currently inside another batch, we need to wait until it
// fully completes before restoring state.
return fn(bookkeeping);
}
isInsideEventHandler = true;
try {
return batchedUpdatesImpl(fn, bookkeeping);
} finally {
isInsideEventHandler = false;
finishEventHandler();
}
}
function batchedEventUpdates(fn, a, b) {
if (isBatchingEventUpdates) {
// If we are currently inside another batch, we need to wait until it
// fully completes before restoring state.
return fn(a, b);
}
isBatchingEventUpdates = true;
try {
return batchedEventUpdatesImpl(fn, a, b);
} finally {
isBatchingEventUpdates = false;
finishEventHandler();
}
}
function discreteUpdates(fn, a, b, c, d) {
var prevIsInsideEventHandler = isInsideEventHandler;
isInsideEventHandler = true;
try {
return discreteUpdatesImpl(fn, a, b, c, d);
} finally {
isInsideEventHandler = prevIsInsideEventHandler;
if (!isInsideEventHandler) {
finishEventHandler();
}
}
}
function flushDiscreteUpdatesIfNeeded(timeStamp) {
{
if (!isInsideEventHandler) {
flushDiscreteUpdatesImpl();
}
}
}
function setBatchingImplementation(_batchedUpdatesImpl, _discreteUpdatesImpl, _flushDiscreteUpdatesImpl, _batchedEventUpdatesImpl) {
batchedUpdatesImpl = _batchedUpdatesImpl;
discreteUpdatesImpl = _discreteUpdatesImpl;
flushDiscreteUpdatesImpl = _flushDiscreteUpdatesImpl;
batchedEventUpdatesImpl = _batchedEventUpdatesImpl;
}
function isInteractive(tag) {
return tag === 'button' || tag === 'input' || tag === 'select' || tag === 'textarea';
}
function shouldPreventMouseEvent(name, type, props) {
switch (name) {
case 'onClick':
case 'onClickCapture':
case 'onDoubleClick':
case 'onDoubleClickCapture':
case 'onMouseDown':
case 'onMouseDownCapture':
case 'onMouseMove':
case 'onMouseMoveCapture':
case 'onMouseUp':
case 'onMouseUpCapture':
case 'onMouseEnter':
return !!(props.disabled && isInteractive(type));
default:
return false;
}
}
/**
* @param {object} inst The instance, which is the source of events.
* @param {string} registrationName Name of listener (e.g. `onClick`).
* @return {?function} The stored callback.
*/
function getListener(inst, registrationName) {
var stateNode = inst.stateNode;
if (stateNode === null) {
// Work in progress (ex: onload events in incremental mode).
return null;
}
var props = getFiberCurrentPropsFromNode(stateNode);
if (props === null) {
// Work in progress.
return null;
}
var listener = props[registrationName];
if (shouldPreventMouseEvent(registrationName, inst.type, props)) {
return null;
}
if (!(!listener || typeof listener === 'function')) {
{
throw Error( "Expected `" + registrationName + "` listener to be a function, instead got a value of `" + typeof listener + "` type." );
}
}
return listener;
}
var passiveBrowserEventsSupported = false; // Check if browser support events with passive listeners
// https://developer.mozilla.org/en-US/docs/Web/API/EventTarget/addEventListener#Safely_detecting_option_support
if (canUseDOM) {
try {
var options = {}; // $FlowFixMe: Ignore Flow complaining about needing a value
Object.defineProperty(options, 'passive', {
get: function () {
passiveBrowserEventsSupported = true;
}
});
window.addEventListener('test', options, options);
window.removeEventListener('test', options, options);
} catch (e) {
passiveBrowserEventsSupported = false;
}
}
function invokeGuardedCallbackProd(name, func, context, a, b, c, d, e, f) {
var funcArgs = Array.prototype.slice.call(arguments, 3);
try {
func.apply(context, funcArgs);
} catch (error) {
this.onError(error);
}
}
var invokeGuardedCallbackImpl = invokeGuardedCallbackProd;
{
// In DEV mode, we swap out invokeGuardedCallback for a special version
// that plays more nicely with the browser's DevTools. The idea is to preserve
// "Pause on exceptions" behavior. Because React wraps all user-provided
// functions in invokeGuardedCallback, and the production version of
// invokeGuardedCallback uses a try-catch, all user exceptions are treated
// like caught exceptions, and the DevTools won't pause unless the developer
// takes the extra step of enabling pause on caught exceptions. This is
// unintuitive, though, because even though React has caught the error, from
// the developer's perspective, the error is uncaught.
//
// To preserve the expected "Pause on exceptions" behavior, we don't use a
// try-catch in DEV. Instead, we synchronously dispatch a fake event to a fake
// DOM node, and call the user-provided callback from inside an event handler
// for that fake event. If the callback throws, the error is "captured" using
// a global event handler. But because the error happens in a different
// event loop context, it does not interrupt the normal program flow.
// Effectively, this gives us try-catch behavior without actually using
// try-catch. Neat!
// Check that the browser supports the APIs we need to implement our special
// DEV version of invokeGuardedCallback
if (typeof window !== 'undefined' && typeof window.dispatchEvent === 'function' && typeof document !== 'undefined' && typeof document.createEvent === 'function') {
var fakeNode = document.createElement('react');
invokeGuardedCallbackImpl = function invokeGuardedCallbackDev(name, func, context, a, b, c, d, e, f) {
// If document doesn't exist we know for sure we will crash in this method
// when we call document.createEvent(). However this can cause confusing
// errors: https://github.com/facebookincubator/create-react-app/issues/3482
// So we preemptively throw with a better message instead.
if (!(typeof document !== 'undefined')) {
{
throw Error( "The `document` global was defined when React was initialized, but is not defined anymore. This can happen in a test environment if a component schedules an update from an asynchronous callback, but the test has already finished running. To solve this, you can either unmount the component at the end of your test (and ensure that any asynchronous operations get canceled in `componentWillUnmount`), or you can change the test itself to be asynchronous." );
}
}
var evt = document.createEvent('Event');
var didCall = false; // Keeps track of whether the user-provided callback threw an error. We
// set this to true at the beginning, then set it to false right after
// calling the function. If the function errors, `didError` will never be
// set to false. This strategy works even if the browser is flaky and
// fails to call our global error handler, because it doesn't rely on
// the error event at all.
var didError = true; // Keeps track of the value of window.event so that we can reset it
// during the callback to let user code access window.event in the
// browsers that support it.
var windowEvent = window.event; // Keeps track of the descriptor of window.event to restore it after event
// dispatching: https://github.com/facebook/react/issues/13688
var windowEventDescriptor = Object.getOwnPropertyDescriptor(window, 'event');
function restoreAfterDispatch() {
// We immediately remove the callback from event listeners so that
// nested `invokeGuardedCallback` calls do not clash. Otherwise, a
// nested call would trigger the fake event handlers of any call higher
// in the stack.
fakeNode.removeEventListener(evtType, callCallback, false); // We check for window.hasOwnProperty('event') to prevent the
// window.event assignment in both IE <= 10 as they throw an error
// "Member not found" in strict mode, and in Firefox which does not
// support window.event.
if (typeof window.event !== 'undefined' && window.hasOwnProperty('event')) {
window.event = windowEvent;
}
} // Create an event handler for our fake event. We will synchronously
// dispatch our fake event using `dispatchEvent`. Inside the handler, we
// call the user-provided callback.
var funcArgs = Array.prototype.slice.call(arguments, 3);
function callCallback() {
didCall = true;
restoreAfterDispatch();
func.apply(context, funcArgs);
didError = false;
} // Create a global error event handler. We use this to capture the value
// that was thrown. It's possible that this error handler will fire more
// than once; for example, if non-React code also calls `dispatchEvent`
// and a handler for that event throws. We should be resilient to most of
// those cases. Even if our error event handler fires more than once, the
// last error event is always used. If the callback actually does error,
// we know that the last error event is the correct one, because it's not
// possible for anything else to have happened in between our callback
// erroring and the code that follows the `dispatchEvent` call below. If
// the callback doesn't error, but the error event was fired, we know to
// ignore it because `didError` will be false, as described above.
var error; // Use this to track whether the error event is ever called.
var didSetError = false;
var isCrossOriginError = false;
function handleWindowError(event) {
error = event.error;
didSetError = true;
if (error === null && event.colno === 0 && event.lineno === 0) {
isCrossOriginError = true;
}
if (event.defaultPrevented) {
// Some other error handler has prevented default.
// Browsers silence the error report if this happens.
// We'll remember this to later decide whether to log it or not.
if (error != null && typeof error === 'object') {
try {
error._suppressLogging = true;
} catch (inner) {// Ignore.
}
}
}
} // Create a fake event type.
var evtType = "react-" + (name ? name : 'invokeguardedcallback'); // Attach our event handlers
window.addEventListener('error', handleWindowError);
fakeNode.addEventListener(evtType, callCallback, false); // Synchronously dispatch our fake event. If the user-provided function
// errors, it will trigger our global error handler.
evt.initEvent(evtType, false, false);
fakeNode.dispatchEvent(evt);
if (windowEventDescriptor) {
Object.defineProperty(window, 'event', windowEventDescriptor);
}
if (didCall && didError) {
if (!didSetError) {
// The callback errored, but the error event never fired.
error = new Error('An error was thrown inside one of your components, but React ' + "doesn't know what it was. This is likely due to browser " + 'flakiness. React does its best to preserve the "Pause on ' + 'exceptions" behavior of the DevTools, which requires some ' + "DEV-mode only tricks. It's possible that these don't work in " + 'your browser. Try triggering the error in production mode, ' + 'or switching to a modern browser. If you suspect that this is ' + 'actually an issue with React, please file an issue.');
} else if (isCrossOriginError) {
error = new Error("A cross-origin error was thrown. React doesn't have access to " + 'the actual error object in development. ' + 'See https://reactjs.org/link/crossorigin-error for more information.');
}
this.onError(error);
} // Remove our event listeners
window.removeEventListener('error', handleWindowError);
if (!didCall) {
// Something went really wrong, and our event was not dispatched.
// https://github.com/facebook/react/issues/16734
// https://github.com/facebook/react/issues/16585
// Fall back to the production implementation.
restoreAfterDispatch();
return invokeGuardedCallbackProd.apply(this, arguments);
}
};
}
}
var invokeGuardedCallbackImpl$1 = invokeGuardedCallbackImpl;
var hasError = false;
var caughtError = null; // Used by event system to capture/rethrow the first error.
var hasRethrowError = false;
var rethrowError = null;
var reporter = {
onError: function (error) {
hasError = true;
caughtError = error;
}
};
/**
* Call a function while guarding against errors that happens within it.
* Returns an error if it throws, otherwise null.
*
* In production, this is implemented using a try-catch. The reason we don't
* use a try-catch directly is so that we can swap out a different
* implementation in DEV mode.
*
* @param {String} name of the guard to use for logging or debugging
* @param {Function} func The function to invoke
* @param {*} context The context to use when calling the function
* @param {...*} args Arguments for function
*/
function invokeGuardedCallback(name, func, context, a, b, c, d, e, f) {
hasError = false;
caughtError = null;
invokeGuardedCallbackImpl$1.apply(reporter, arguments);
}
/**
* Same as invokeGuardedCallback, but instead of returning an error, it stores
* it in a global so it can be rethrown by `rethrowCaughtError` later.
* TODO: See if caughtError and rethrowError can be unified.
*
* @param {String} name of the guard to use for logging or debugging
* @param {Function} func The function to invoke
* @param {*} context The context to use when calling the function
* @param {...*} args Arguments for function
*/
function invokeGuardedCallbackAndCatchFirstError(name, func, context, a, b, c, d, e, f) {
invokeGuardedCallback.apply(this, arguments);
if (hasError) {
var error = clearCaughtError();
if (!hasRethrowError) {
hasRethrowError = true;
rethrowError = error;
}
}
}
/**
* During execution of guarded functions we will capture the first error which
* we will rethrow to be handled by the top level error handler.
*/
function rethrowCaughtError() {
if (hasRethrowError) {
var error = rethrowError;
hasRethrowError = false;
rethrowError = null;
throw error;
}
}
function hasCaughtError() {
return hasError;
}
function clearCaughtError() {
if (hasError) {
var error = caughtError;
hasError = false;
caughtError = null;
return error;
} else {
{
{
throw Error( "clearCaughtError was called but no error was captured. This error is likely caused by a bug in React. Please file an issue." );
}
}
}
}
/**
* `ReactInstanceMap` maintains a mapping from a public facing stateful
* instance (key) and the internal representation (value). This allows public
* methods to accept the user facing instance as an argument and map them back
* to internal methods.
*
* Note that this module is currently shared and assumed to be stateless.
* If this becomes an actual Map, that will break.
*/
function get(key) {
return key._reactInternals;
}
function has(key) {
return key._reactInternals !== undefined;
}
function set(key, value) {
key._reactInternals = value;
}
// Don't change these two values. They're used by React Dev Tools.
var NoFlags =
/* */
0;
var PerformedWork =
/* */
1; // You can change the rest (and add more).
var Placement =
/* */
2;
var Update =
/* */
4;
var PlacementAndUpdate =
/* */
6;
var Deletion =
/* */
8;
var ContentReset =
/* */
16;
var Callback =
/* */
32;
var DidCapture =
/* */
64;
var Ref =
/* */
128;
var Snapshot =
/* */
256;
var Passive =
/* */
512; // TODO (effects) Remove this bit once the new reconciler is synced to the old.
var PassiveUnmountPendingDev =
/* */
8192;
var Hydrating =
/* */
1024;
var HydratingAndUpdate =
/* */
1028; // Passive & Update & Callback & Ref & Snapshot
var LifecycleEffectMask =
/* */
932; // Union of all host effects
var HostEffectMask =
/* */
2047; // These are not really side effects, but we still reuse this field.
var Incomplete =
/* */
2048;
var ShouldCapture =
/* */
4096;
var ForceUpdateForLegacySuspense =
/* */
16384; // Static tags describe aspects of a fiber that are not specific to a render,
var ReactCurrentOwner = ReactSharedInternals.ReactCurrentOwner;
function getNearestMountedFiber(fiber) {
var node = fiber;
var nearestMounted = fiber;
if (!fiber.alternate) {
// If there is no alternate, this might be a new tree that isn't inserted
// yet. If it is, then it will have a pending insertion effect on it.
var nextNode = node;
do {
node = nextNode;
if ((node.flags & (Placement | Hydrating)) !== NoFlags) {
// This is an insertion or in-progress hydration. The nearest possible
// mounted fiber is the parent but we need to continue to figure out
// if that one is still mounted.
nearestMounted = node.return;
}
nextNode = node.return;
} while (nextNode);
} else {
while (node.return) {
node = node.return;
}
}
if (node.tag === HostRoot) {
// TODO: Check if this was a nested HostRoot when used with
// renderContainerIntoSubtree.
return nearestMounted;
} // If we didn't hit the root, that means that we're in an disconnected tree
// that has been unmounted.
return null;
}
function getSuspenseInstanceFromFiber(fiber) {
if (fiber.tag === SuspenseComponent) {
var suspenseState = fiber.memoizedState;
if (suspenseState === null) {
var current = fiber.alternate;
if (current !== null) {
suspenseState = current.memoizedState;
}
}
if (suspenseState !== null) {
return suspenseState.dehydrated;
}
}
return null;
}
function getContainerFromFiber(fiber) {
return fiber.tag === HostRoot ? fiber.stateNode.containerInfo : null;
}
function isFiberMounted(fiber) {
return getNearestMountedFiber(fiber) === fiber;
}
function isMounted(component) {
{
var owner = ReactCurrentOwner.current;
if (owner !== null && owner.tag === ClassComponent) {
var ownerFiber = owner;
var instance = ownerFiber.stateNode;
if (!instance._warnedAboutRefsInRender) {
error('%s is accessing isMounted inside its render() function. ' + 'render() should be a pure function of props and state. It should ' + 'never access something that requires stale data from the previous ' + 'render, such as refs. Move this logic to componentDidMount and ' + 'componentDidUpdate instead.', getComponentName(ownerFiber.type) || 'A component');
}
instance._warnedAboutRefsInRender = true;
}
}
var fiber = get(component);
if (!fiber) {
return false;
}
return getNearestMountedFiber(fiber) === fiber;
}
function assertIsMounted(fiber) {
if (!(getNearestMountedFiber(fiber) === fiber)) {
{
throw Error( "Unable to find node on an unmounted component." );
}
}
}
function findCurrentFiberUsingSlowPath(fiber) {
var alternate = fiber.alternate;
if (!alternate) {
// If there is no alternate, then we only need to check if it is mounted.
var nearestMounted = getNearestMountedFiber(fiber);
if (!(nearestMounted !== null)) {
{
throw Error( "Unable to find node on an unmounted component." );
}
}
if (nearestMounted !== fiber) {
return null;
}
return fiber;
} // If we have two possible branches, we'll walk backwards up to the root
// to see what path the root points to. On the way we may hit one of the
// special cases and we'll deal with them.
var a = fiber;
var b = alternate;
while (true) {
var parentA = a.return;
if (parentA === null) {
// We're at the root.
break;
}
var parentB = parentA.alternate;
if (parentB === null) {
// There is no alternate. This is an unusual case. Currently, it only
// happens when a Suspense component is hidden. An extra fragment fiber
// is inserted in between the Suspense fiber and its children. Skip
// over this extra fragment fiber and proceed to the next parent.
var nextParent = parentA.return;
if (nextParent !== null) {
a = b = nextParent;
continue;
} // If there's no parent, we're at the root.
break;
} // If both copies of the parent fiber point to the same child, we can
// assume that the child is current. This happens when we bailout on low
// priority: the bailed out fiber's child reuses the current child.
if (parentA.child === parentB.child) {
var child = parentA.child;
while (child) {
if (child === a) {
// We've determined that A is the current branch.
assertIsMounted(parentA);
return fiber;
}
if (child === b) {
// We've determined that B is the current branch.
assertIsMounted(parentA);
return alternate;
}
child = child.sibling;
} // We should never have an alternate for any mounting node. So the only
// way this could possibly happen is if this was unmounted, if at all.
{
{
throw Error( "Unable to find node on an unmounted component." );
}
}
}
if (a.return !== b.return) {
// The return pointer of A and the return pointer of B point to different
// fibers. We assume that return pointers never criss-cross, so A must
// belong to the child set of A.return, and B must belong to the child
// set of B.return.
a = parentA;
b = parentB;
} else {
// The return pointers point to the same fiber. We'll have to use the
// default, slow path: scan the child sets of each parent alternate to see
// which child belongs to which set.
//
// Search parent A's child set
var didFindChild = false;
var _child = parentA.child;
while (_child) {
if (_child === a) {
didFindChild = true;
a = parentA;
b = parentB;
break;
}
if (_child === b) {
didFindChild = true;
b = parentA;
a = parentB;
break;
}
_child = _child.sibling;
}
if (!didFindChild) {
// Search parent B's child set
_child = parentB.child;
while (_child) {
if (_child === a) {
didFindChild = true;
a = parentB;
b = parentA;
break;
}
if (_child === b) {
didFindChild = true;
b = parentB;
a = parentA;
break;
}
_child = _child.sibling;
}
if (!didFindChild) {
{
throw Error( "Child was not found in either parent set. This indicates a bug in React related to the return pointer. Please file an issue." );
}
}
}
}
if (!(a.alternate === b)) {
{
throw Error( "Return fibers should always be each others' alternates. This error is likely caused by a bug in React. Please file an issue." );
}
}
} // If the root is not a host container, we're in a disconnected tree. I.e.
// unmounted.
if (!(a.tag === HostRoot)) {
{
throw Error( "Unable to find node on an unmounted component." );
}
}
if (a.stateNode.current === a) {
// We've determined that A is the current branch.
return fiber;
} // Otherwise B has to be current branch.
return alternate;
}
function findCurrentHostFiber(parent) {
var currentParent = findCurrentFiberUsingSlowPath(parent);
if (!currentParent) {
return null;
} // Next we'll drill down this component to find the first HostComponent/Text.
var node = currentParent;
while (true) {
if (node.tag === HostComponent || node.tag === HostText) {
return node;
} else if (node.child) {
node.child.return = node;
node = node.child;
continue;
}
if (node === currentParent) {
return null;
}
while (!node.sibling) {
if (!node.return || node.return === currentParent) {
return null;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
} // Flow needs the return null here, but ESLint complains about it.
// eslint-disable-next-line no-unreachable
return null;
}
function findCurrentHostFiberWithNoPortals(parent) {
var currentParent = findCurrentFiberUsingSlowPath(parent);
if (!currentParent) {
return null;
} // Next we'll drill down this component to find the first HostComponent/Text.
var node = currentParent;
while (true) {
if (node.tag === HostComponent || node.tag === HostText || enableFundamentalAPI ) {
return node;
} else if (node.child && node.tag !== HostPortal) {
node.child.return = node;
node = node.child;
continue;
}
if (node === currentParent) {
return null;
}
while (!node.sibling) {
if (!node.return || node.return === currentParent) {
return null;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
} // Flow needs the return null here, but ESLint complains about it.
// eslint-disable-next-line no-unreachable
return null;
}
function doesFiberContain(parentFiber, childFiber) {
var node = childFiber;
var parentFiberAlternate = parentFiber.alternate;
while (node !== null) {
if (node === parentFiber || node === parentFiberAlternate) {
return true;
}
node = node.return;
}
return false;
}
var attemptUserBlockingHydration;
function setAttemptUserBlockingHydration(fn) {
attemptUserBlockingHydration = fn;
}
var attemptContinuousHydration;
function setAttemptContinuousHydration(fn) {
attemptContinuousHydration = fn;
}
var attemptHydrationAtCurrentPriority;
function setAttemptHydrationAtCurrentPriority(fn) {
attemptHydrationAtCurrentPriority = fn;
}
var attemptHydrationAtPriority;
function setAttemptHydrationAtPriority(fn) {
attemptHydrationAtPriority = fn;
} // TODO: Upgrade this definition once we're on a newer version of Flow that
var hasScheduledReplayAttempt = false; // The queue of discrete events to be replayed.
var queuedDiscreteEvents = []; // Indicates if any continuous event targets are non-null for early bailout.
// if the last target was dehydrated.
var queuedFocus = null;
var queuedDrag = null;
var queuedMouse = null; // For pointer events there can be one latest event per pointerId.
var queuedPointers = new Map();
var queuedPointerCaptures = new Map(); // We could consider replaying selectionchange and touchmoves too.
var queuedExplicitHydrationTargets = [];
function hasQueuedDiscreteEvents() {
return queuedDiscreteEvents.length > 0;
}
var discreteReplayableEvents = ['mousedown', 'mouseup', 'touchcancel', 'touchend', 'touchstart', 'auxclick', 'dblclick', 'pointercancel', 'pointerdown', 'pointerup', 'dragend', 'dragstart', 'drop', 'compositionend', 'compositionstart', 'keydown', 'keypress', 'keyup', 'input', 'textInput', // Intentionally camelCase
'copy', 'cut', 'paste', 'click', 'change', 'contextmenu', 'reset', 'submit'];
function isReplayableDiscreteEvent(eventType) {
return discreteReplayableEvents.indexOf(eventType) > -1;
}
function createQueuedReplayableEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
return {
blockedOn: blockedOn,
domEventName: domEventName,
eventSystemFlags: eventSystemFlags | IS_REPLAYED,
nativeEvent: nativeEvent,
targetContainers: [targetContainer]
};
}
function queueDiscreteEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
var queuedEvent = createQueuedReplayableEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent);
queuedDiscreteEvents.push(queuedEvent);
} // Resets the replaying for this type of continuous event to no event.
function clearIfContinuousEvent(domEventName, nativeEvent) {
switch (domEventName) {
case 'focusin':
case 'focusout':
queuedFocus = null;
break;
case 'dragenter':
case 'dragleave':
queuedDrag = null;
break;
case 'mouseover':
case 'mouseout':
queuedMouse = null;
break;
case 'pointerover':
case 'pointerout':
{
var pointerId = nativeEvent.pointerId;
queuedPointers.delete(pointerId);
break;
}
case 'gotpointercapture':
case 'lostpointercapture':
{
var _pointerId = nativeEvent.pointerId;
queuedPointerCaptures.delete(_pointerId);
break;
}
}
}
function accumulateOrCreateContinuousQueuedReplayableEvent(existingQueuedEvent, blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
if (existingQueuedEvent === null || existingQueuedEvent.nativeEvent !== nativeEvent) {
var queuedEvent = createQueuedReplayableEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent);
if (blockedOn !== null) {
var _fiber2 = getInstanceFromNode(blockedOn);
if (_fiber2 !== null) {
// Attempt to increase the priority of this target.
attemptContinuousHydration(_fiber2);
}
}
return queuedEvent;
} // If we have already queued this exact event, then it's because
// the different event systems have different DOM event listeners.
// We can accumulate the flags, and the targetContainers, and
// store a single event to be replayed.
existingQueuedEvent.eventSystemFlags |= eventSystemFlags;
var targetContainers = existingQueuedEvent.targetContainers;
if (targetContainer !== null && targetContainers.indexOf(targetContainer) === -1) {
targetContainers.push(targetContainer);
}
return existingQueuedEvent;
}
function queueIfContinuousEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
// These set relatedTarget to null because the replayed event will be treated as if we
// moved from outside the window (no target) onto the target once it hydrates.
// Instead of mutating we could clone the event.
switch (domEventName) {
case 'focusin':
{
var focusEvent = nativeEvent;
queuedFocus = accumulateOrCreateContinuousQueuedReplayableEvent(queuedFocus, blockedOn, domEventName, eventSystemFlags, targetContainer, focusEvent);
return true;
}
case 'dragenter':
{
var dragEvent = nativeEvent;
queuedDrag = accumulateOrCreateContinuousQueuedReplayableEvent(queuedDrag, blockedOn, domEventName, eventSystemFlags, targetContainer, dragEvent);
return true;
}
case 'mouseover':
{
var mouseEvent = nativeEvent;
queuedMouse = accumulateOrCreateContinuousQueuedReplayableEvent(queuedMouse, blockedOn, domEventName, eventSystemFlags, targetContainer, mouseEvent);
return true;
}
case 'pointerover':
{
var pointerEvent = nativeEvent;
var pointerId = pointerEvent.pointerId;
queuedPointers.set(pointerId, accumulateOrCreateContinuousQueuedReplayableEvent(queuedPointers.get(pointerId) || null, blockedOn, domEventName, eventSystemFlags, targetContainer, pointerEvent));
return true;
}
case 'gotpointercapture':
{
var _pointerEvent = nativeEvent;
var _pointerId2 = _pointerEvent.pointerId;
queuedPointerCaptures.set(_pointerId2, accumulateOrCreateContinuousQueuedReplayableEvent(queuedPointerCaptures.get(_pointerId2) || null, blockedOn, domEventName, eventSystemFlags, targetContainer, _pointerEvent));
return true;
}
}
return false;
} // Check if this target is unblocked. Returns true if it's unblocked.
function attemptExplicitHydrationTarget(queuedTarget) {
// TODO: This function shares a lot of logic with attemptToDispatchEvent.
// Try to unify them. It's a bit tricky since it would require two return
// values.
var targetInst = getClosestInstanceFromNode(queuedTarget.target);
if (targetInst !== null) {
var nearestMounted = getNearestMountedFiber(targetInst);
if (nearestMounted !== null) {
var tag = nearestMounted.tag;
if (tag === SuspenseComponent) {
var instance = getSuspenseInstanceFromFiber(nearestMounted);
if (instance !== null) {
// We're blocked on hydrating this boundary.
// Increase its priority.
queuedTarget.blockedOn = instance;
attemptHydrationAtPriority(queuedTarget.lanePriority, function () {
Scheduler.unstable_runWithPriority(queuedTarget.priority, function () {
attemptHydrationAtCurrentPriority(nearestMounted);
});
});
return;
}
} else if (tag === HostRoot) {
var root = nearestMounted.stateNode;
if (root.hydrate) {
queuedTarget.blockedOn = getContainerFromFiber(nearestMounted); // We don't currently have a way to increase the priority of
// a root other than sync.
return;
}
}
}
}
queuedTarget.blockedOn = null;
}
function attemptReplayContinuousQueuedEvent(queuedEvent) {
if (queuedEvent.blockedOn !== null) {
return false;
}
var targetContainers = queuedEvent.targetContainers;
while (targetContainers.length > 0) {
var targetContainer = targetContainers[0];
var nextBlockedOn = attemptToDispatchEvent(queuedEvent.domEventName, queuedEvent.eventSystemFlags, targetContainer, queuedEvent.nativeEvent);
if (nextBlockedOn !== null) {
// We're still blocked. Try again later.
var _fiber3 = getInstanceFromNode(nextBlockedOn);
if (_fiber3 !== null) {
attemptContinuousHydration(_fiber3);
}
queuedEvent.blockedOn = nextBlockedOn;
return false;
} // This target container was successfully dispatched. Try the next.
targetContainers.shift();
}
return true;
}
function attemptReplayContinuousQueuedEventInMap(queuedEvent, key, map) {
if (attemptReplayContinuousQueuedEvent(queuedEvent)) {
map.delete(key);
}
}
function replayUnblockedEvents() {
hasScheduledReplayAttempt = false; // First replay discrete events.
while (queuedDiscreteEvents.length > 0) {
var nextDiscreteEvent = queuedDiscreteEvents[0];
if (nextDiscreteEvent.blockedOn !== null) {
// We're still blocked.
// Increase the priority of this boundary to unblock
// the next discrete event.
var _fiber4 = getInstanceFromNode(nextDiscreteEvent.blockedOn);
if (_fiber4 !== null) {
attemptUserBlockingHydration(_fiber4);
}
break;
}
var targetContainers = nextDiscreteEvent.targetContainers;
while (targetContainers.length > 0) {
var targetContainer = targetContainers[0];
var nextBlockedOn = attemptToDispatchEvent(nextDiscreteEvent.domEventName, nextDiscreteEvent.eventSystemFlags, targetContainer, nextDiscreteEvent.nativeEvent);
if (nextBlockedOn !== null) {
// We're still blocked. Try again later.
nextDiscreteEvent.blockedOn = nextBlockedOn;
break;
} // This target container was successfully dispatched. Try the next.
targetContainers.shift();
}
if (nextDiscreteEvent.blockedOn === null) {
// We've successfully replayed the first event. Let's try the next one.
queuedDiscreteEvents.shift();
}
} // Next replay any continuous events.
if (queuedFocus !== null && attemptReplayContinuousQueuedEvent(queuedFocus)) {
queuedFocus = null;
}
if (queuedDrag !== null && attemptReplayContinuousQueuedEvent(queuedDrag)) {
queuedDrag = null;
}
if (queuedMouse !== null && attemptReplayContinuousQueuedEvent(queuedMouse)) {
queuedMouse = null;
}
queuedPointers.forEach(attemptReplayContinuousQueuedEventInMap);
queuedPointerCaptures.forEach(attemptReplayContinuousQueuedEventInMap);
}
function scheduleCallbackIfUnblocked(queuedEvent, unblocked) {
if (queuedEvent.blockedOn === unblocked) {
queuedEvent.blockedOn = null;
if (!hasScheduledReplayAttempt) {
hasScheduledReplayAttempt = true; // Schedule a callback to attempt replaying as many events as are
// now unblocked. This first might not actually be unblocked yet.
// We could check it early to avoid scheduling an unnecessary callback.
Scheduler.unstable_scheduleCallback(Scheduler.unstable_NormalPriority, replayUnblockedEvents);
}
}
}
function retryIfBlockedOn(unblocked) {
// Mark anything that was blocked on this as no longer blocked
// and eligible for a replay.
if (queuedDiscreteEvents.length > 0) {
scheduleCallbackIfUnblocked(queuedDiscreteEvents[0], unblocked); // This is a exponential search for each boundary that commits. I think it's
// worth it because we expect very few discrete events to queue up and once
// we are actually fully unblocked it will be fast to replay them.
for (var i = 1; i < queuedDiscreteEvents.length; i++) {
var queuedEvent = queuedDiscreteEvents[i];
if (queuedEvent.blockedOn === unblocked) {
queuedEvent.blockedOn = null;
}
}
}
if (queuedFocus !== null) {
scheduleCallbackIfUnblocked(queuedFocus, unblocked);
}
if (queuedDrag !== null) {
scheduleCallbackIfUnblocked(queuedDrag, unblocked);
}
if (queuedMouse !== null) {
scheduleCallbackIfUnblocked(queuedMouse, unblocked);
}
var unblock = function (queuedEvent) {
return scheduleCallbackIfUnblocked(queuedEvent, unblocked);
};
queuedPointers.forEach(unblock);
queuedPointerCaptures.forEach(unblock);
for (var _i = 0; _i < queuedExplicitHydrationTargets.length; _i++) {
var queuedTarget = queuedExplicitHydrationTargets[_i];
if (queuedTarget.blockedOn === unblocked) {
queuedTarget.blockedOn = null;
}
}
while (queuedExplicitHydrationTargets.length > 0) {
var nextExplicitTarget = queuedExplicitHydrationTargets[0];
if (nextExplicitTarget.blockedOn !== null) {
// We're still blocked.
break;
} else {
attemptExplicitHydrationTarget(nextExplicitTarget);
if (nextExplicitTarget.blockedOn === null) {
// We're unblocked.
queuedExplicitHydrationTargets.shift();
}
}
}
}
var DiscreteEvent = 0;
var UserBlockingEvent = 1;
var ContinuousEvent = 2;
/**
* Generate a mapping of standard vendor prefixes using the defined style property and event name.
*
* @param {string} styleProp
* @param {string} eventName
* @returns {object}
*/
function makePrefixMap(styleProp, eventName) {
var prefixes = {};
prefixes[styleProp.toLowerCase()] = eventName.toLowerCase();
prefixes['Webkit' + styleProp] = 'webkit' + eventName;
prefixes['Moz' + styleProp] = 'moz' + eventName;
return prefixes;
}
/**
* A list of event names to a configurable list of vendor prefixes.
*/
var vendorPrefixes = {
animationend: makePrefixMap('Animation', 'AnimationEnd'),
animationiteration: makePrefixMap('Animation', 'AnimationIteration'),
animationstart: makePrefixMap('Animation', 'AnimationStart'),
transitionend: makePrefixMap('Transition', 'TransitionEnd')
};
/**
* Event names that have already been detected and prefixed (if applicable).
*/
var prefixedEventNames = {};
/**
* Element to check for prefixes on.
*/
var style = {};
/**
* Bootstrap if a DOM exists.
*/
if (canUseDOM) {
style = document.createElement('div').style; // On some platforms, in particular some releases of Android 4.x,
// the un-prefixed "animation" and "transition" properties are defined on the
// style object but the events that fire will still be prefixed, so we need
// to check if the un-prefixed events are usable, and if not remove them from the map.
if (!('AnimationEvent' in window)) {
delete vendorPrefixes.animationend.animation;
delete vendorPrefixes.animationiteration.animation;
delete vendorPrefixes.animationstart.animation;
} // Same as above
if (!('TransitionEvent' in window)) {
delete vendorPrefixes.transitionend.transition;
}
}
/**
* Attempts to determine the correct vendor prefixed event name.
*
* @param {string} eventName
* @returns {string}
*/
function getVendorPrefixedEventName(eventName) {
if (prefixedEventNames[eventName]) {
return prefixedEventNames[eventName];
} else if (!vendorPrefixes[eventName]) {
return eventName;
}
var prefixMap = vendorPrefixes[eventName];
for (var styleProp in prefixMap) {
if (prefixMap.hasOwnProperty(styleProp) && styleProp in style) {
return prefixedEventNames[eventName] = prefixMap[styleProp];
}
}
return eventName;
}
var ANIMATION_END = getVendorPrefixedEventName('animationend');
var ANIMATION_ITERATION = getVendorPrefixedEventName('animationiteration');
var ANIMATION_START = getVendorPrefixedEventName('animationstart');
var TRANSITION_END = getVendorPrefixedEventName('transitionend');
var topLevelEventsToReactNames = new Map();
var eventPriorities = new Map(); // We store most of the events in this module in pairs of two strings so we can re-use
// the code required to apply the same logic for event prioritization and that of the
// SimpleEventPlugin. This complicates things slightly, but the aim is to reduce code
// duplication (for which there would be quite a bit). For the events that are not needed
// for the SimpleEventPlugin (otherDiscreteEvents) we process them separately as an
// array of top level events.
// Lastly, we ignore prettier so we can keep the formatting sane.
// prettier-ignore
var discreteEventPairsForSimpleEventPlugin = ['cancel', 'cancel', 'click', 'click', 'close', 'close', 'contextmenu', 'contextMenu', 'copy', 'copy', 'cut', 'cut', 'auxclick', 'auxClick', 'dblclick', 'doubleClick', // Careful!
'dragend', 'dragEnd', 'dragstart', 'dragStart', 'drop', 'drop', 'focusin', 'focus', // Careful!
'focusout', 'blur', // Careful!
'input', 'input', 'invalid', 'invalid', 'keydown', 'keyDown', 'keypress', 'keyPress', 'keyup', 'keyUp', 'mousedown', 'mouseDown', 'mouseup', 'mouseUp', 'paste', 'paste', 'pause', 'pause', 'play', 'play', 'pointercancel', 'pointerCancel', 'pointerdown', 'pointerDown', 'pointerup', 'pointerUp', 'ratechange', 'rateChange', 'reset', 'reset', 'seeked', 'seeked', 'submit', 'submit', 'touchcancel', 'touchCancel', 'touchend', 'touchEnd', 'touchstart', 'touchStart', 'volumechange', 'volumeChange'];
var otherDiscreteEvents = ['change', 'selectionchange', 'textInput', 'compositionstart', 'compositionend', 'compositionupdate'];
var userBlockingPairsForSimpleEventPlugin = ['drag', 'drag', 'dragenter', 'dragEnter', 'dragexit', 'dragExit', 'dragleave', 'dragLeave', 'dragover', 'dragOver', 'mousemove', 'mouseMove', 'mouseout', 'mouseOut', 'mouseover', 'mouseOver', 'pointermove', 'pointerMove', 'pointerout', 'pointerOut', 'pointerover', 'pointerOver', 'scroll', 'scroll', 'toggle', 'toggle', 'touchmove', 'touchMove', 'wheel', 'wheel']; // prettier-ignore
var continuousPairsForSimpleEventPlugin = ['abort', 'abort', ANIMATION_END, 'animationEnd', ANIMATION_ITERATION, 'animationIteration', ANIMATION_START, 'animationStart', 'canplay', 'canPlay', 'canplaythrough', 'canPlayThrough', 'durationchange', 'durationChange', 'emptied', 'emptied', 'encrypted', 'encrypted', 'ended', 'ended', 'error', 'error', 'gotpointercapture', 'gotPointerCapture', 'load', 'load', 'loadeddata', 'loadedData', 'loadedmetadata', 'loadedMetadata', 'loadstart', 'loadStart', 'lostpointercapture', 'lostPointerCapture', 'playing', 'playing', 'progress', 'progress', 'seeking', 'seeking', 'stalled', 'stalled', 'suspend', 'suspend', 'timeupdate', 'timeUpdate', TRANSITION_END, 'transitionEnd', 'waiting', 'waiting'];
/**
* Turns
* ['abort', ...]
*
* into
*
* topLevelEventsToReactNames = new Map([
* ['abort', 'onAbort'],
* ]);
*
* and registers them.
*/
function registerSimplePluginEventsAndSetTheirPriorities(eventTypes, priority) {
// As the event types are in pairs of two, we need to iterate
// through in twos. The events are in pairs of two to save code
// and improve init perf of processing this array, as it will
// result in far fewer object allocations and property accesses
// if we only use three arrays to process all the categories of
// instead of tuples.
for (var i = 0; i < eventTypes.length; i += 2) {
var topEvent = eventTypes[i];
var event = eventTypes[i + 1];
var capitalizedEvent = event[0].toUpperCase() + event.slice(1);
var reactName = 'on' + capitalizedEvent;
eventPriorities.set(topEvent, priority);
topLevelEventsToReactNames.set(topEvent, reactName);
registerTwoPhaseEvent(reactName, [topEvent]);
}
}
function setEventPriorities(eventTypes, priority) {
for (var i = 0; i < eventTypes.length; i++) {
eventPriorities.set(eventTypes[i], priority);
}
}
function getEventPriorityForPluginSystem(domEventName) {
var priority = eventPriorities.get(domEventName); // Default to a ContinuousEvent. Note: we might
// want to warn if we can't detect the priority
// for the event.
return priority === undefined ? ContinuousEvent : priority;
}
function registerSimpleEvents() {
registerSimplePluginEventsAndSetTheirPriorities(discreteEventPairsForSimpleEventPlugin, DiscreteEvent);
registerSimplePluginEventsAndSetTheirPriorities(userBlockingPairsForSimpleEventPlugin, UserBlockingEvent);
registerSimplePluginEventsAndSetTheirPriorities(continuousPairsForSimpleEventPlugin, ContinuousEvent);
setEventPriorities(otherDiscreteEvents, DiscreteEvent);
}
var Scheduler_now = Scheduler.unstable_now;
{
// Provide explicit error message when production+profiling bundle of e.g.
// react-dom is used with production (non-profiling) bundle of
// scheduler/tracing
if (!(tracing$1.__interactionsRef != null && tracing$1.__interactionsRef.current != null)) {
{
throw Error( "It is not supported to run the profiling version of a renderer (for example, `react-dom/profiling`) without also replacing the `scheduler/tracing` module with `scheduler/tracing-profiling`. Your bundler might have a setting for aliasing both modules. Learn more at https://reactjs.org/link/profiling" );
}
}
}
// ascending numbers so we can compare them like numbers. They start at 90 to
// avoid clashing with Scheduler's priorities.
var ImmediatePriority = 99;
var UserBlockingPriority = 98;
var NormalPriority = 97;
var LowPriority = 96;
var IdlePriority = 95; // NoPriority is the absence of priority. Also React-only.
var NoPriority = 90;
Scheduler_now(); // If the initial timestamp is reasonably small, use Scheduler's `now` directly.
var SyncLanePriority = 15;
var SyncBatchedLanePriority = 14;
var InputDiscreteHydrationLanePriority = 13;
var InputDiscreteLanePriority = 12;
var InputContinuousHydrationLanePriority = 11;
var InputContinuousLanePriority = 10;
var DefaultHydrationLanePriority = 9;
var DefaultLanePriority = 8;
var TransitionHydrationPriority = 7;
var TransitionPriority = 6;
var RetryLanePriority = 5;
var SelectiveHydrationLanePriority = 4;
var IdleHydrationLanePriority = 3;
var IdleLanePriority = 2;
var OffscreenLanePriority = 1;
var NoLanePriority = 0;
var TotalLanes = 31;
var NoLanes =
/* */
0;
var NoLane =
/* */
0;
var SyncLane =
/* */
1;
var SyncBatchedLane =
/* */
2;
var InputDiscreteHydrationLane =
/* */
4;
var InputDiscreteLanes =
/* */
24;
var InputContinuousHydrationLane =
/* */
32;
var InputContinuousLanes =
/* */
192;
var DefaultHydrationLane =
/* */
256;
var DefaultLanes =
/* */
3584;
var TransitionHydrationLane =
/* */
4096;
var TransitionLanes =
/* */
4186112;
var RetryLanes =
/* */
62914560;
var SomeRetryLane =
/* */
33554432;
var SelectiveHydrationLane =
/* */
67108864;
var NonIdleLanes =
/* */
134217727;
var IdleHydrationLane =
/* */
134217728;
var IdleLanes =
/* */
805306368;
var OffscreenLane =
/* */
1073741824;
var NoTimestamp = -1;
function setCurrentUpdateLanePriority(newLanePriority) {
} // "Registers" used to "return" multiple values
// Used by getHighestPriorityLanes and getNextLanes:
var return_highestLanePriority = DefaultLanePriority;
function getHighestPriorityLanes(lanes) {
if ((SyncLane & lanes) !== NoLanes) {
return_highestLanePriority = SyncLanePriority;
return SyncLane;
}
if ((SyncBatchedLane & lanes) !== NoLanes) {
return_highestLanePriority = SyncBatchedLanePriority;
return SyncBatchedLane;
}
if ((InputDiscreteHydrationLane & lanes) !== NoLanes) {
return_highestLanePriority = InputDiscreteHydrationLanePriority;
return InputDiscreteHydrationLane;
}
var inputDiscreteLanes = InputDiscreteLanes & lanes;
if (inputDiscreteLanes !== NoLanes) {
return_highestLanePriority = InputDiscreteLanePriority;
return inputDiscreteLanes;
}
if ((lanes & InputContinuousHydrationLane) !== NoLanes) {
return_highestLanePriority = InputContinuousHydrationLanePriority;
return InputContinuousHydrationLane;
}
var inputContinuousLanes = InputContinuousLanes & lanes;
if (inputContinuousLanes !== NoLanes) {
return_highestLanePriority = InputContinuousLanePriority;
return inputContinuousLanes;
}
if ((lanes & DefaultHydrationLane) !== NoLanes) {
return_highestLanePriority = DefaultHydrationLanePriority;
return DefaultHydrationLane;
}
var defaultLanes = DefaultLanes & lanes;
if (defaultLanes !== NoLanes) {
return_highestLanePriority = DefaultLanePriority;
return defaultLanes;
}
if ((lanes & TransitionHydrationLane) !== NoLanes) {
return_highestLanePriority = TransitionHydrationPriority;
return TransitionHydrationLane;
}
var transitionLanes = TransitionLanes & lanes;
if (transitionLanes !== NoLanes) {
return_highestLanePriority = TransitionPriority;
return transitionLanes;
}
var retryLanes = RetryLanes & lanes;
if (retryLanes !== NoLanes) {
return_highestLanePriority = RetryLanePriority;
return retryLanes;
}
if (lanes & SelectiveHydrationLane) {
return_highestLanePriority = SelectiveHydrationLanePriority;
return SelectiveHydrationLane;
}
if ((lanes & IdleHydrationLane) !== NoLanes) {
return_highestLanePriority = IdleHydrationLanePriority;
return IdleHydrationLane;
}
var idleLanes = IdleLanes & lanes;
if (idleLanes !== NoLanes) {
return_highestLanePriority = IdleLanePriority;
return idleLanes;
}
if ((OffscreenLane & lanes) !== NoLanes) {
return_highestLanePriority = OffscreenLanePriority;
return OffscreenLane;
}
{
error('Should have found matching lanes. This is a bug in React.');
} // This shouldn't be reachable, but as a fallback, return the entire bitmask.
return_highestLanePriority = DefaultLanePriority;
return lanes;
}
function schedulerPriorityToLanePriority(schedulerPriorityLevel) {
switch (schedulerPriorityLevel) {
case ImmediatePriority:
return SyncLanePriority;
case UserBlockingPriority:
return InputContinuousLanePriority;
case NormalPriority:
case LowPriority:
// TODO: Handle LowSchedulerPriority, somehow. Maybe the same lane as hydration.
return DefaultLanePriority;
case IdlePriority:
return IdleLanePriority;
default:
return NoLanePriority;
}
}
function lanePriorityToSchedulerPriority(lanePriority) {
switch (lanePriority) {
case SyncLanePriority:
case SyncBatchedLanePriority:
return ImmediatePriority;
case InputDiscreteHydrationLanePriority:
case InputDiscreteLanePriority:
case InputContinuousHydrationLanePriority:
case InputContinuousLanePriority:
return UserBlockingPriority;
case DefaultHydrationLanePriority:
case DefaultLanePriority:
case TransitionHydrationPriority:
case TransitionPriority:
case SelectiveHydrationLanePriority:
case RetryLanePriority:
return NormalPriority;
case IdleHydrationLanePriority:
case IdleLanePriority:
case OffscreenLanePriority:
return IdlePriority;
case NoLanePriority:
return NoPriority;
default:
{
{
throw Error( "Invalid update priority: " + lanePriority + ". This is a bug in React." );
}
}
}
}
function getNextLanes(root, wipLanes) {
// Early bailout if there's no pending work left.
var pendingLanes = root.pendingLanes;
if (pendingLanes === NoLanes) {
return_highestLanePriority = NoLanePriority;
return NoLanes;
}
var nextLanes = NoLanes;
var nextLanePriority = NoLanePriority;
var expiredLanes = root.expiredLanes;
var suspendedLanes = root.suspendedLanes;
var pingedLanes = root.pingedLanes; // Check if any work has expired.
if (expiredLanes !== NoLanes) {
nextLanes = expiredLanes;
nextLanePriority = return_highestLanePriority = SyncLanePriority;
} else {
// Do not work on any idle work until all the non-idle work has finished,
// even if the work is suspended.
var nonIdlePendingLanes = pendingLanes & NonIdleLanes;
if (nonIdlePendingLanes !== NoLanes) {
var nonIdleUnblockedLanes = nonIdlePendingLanes & ~suspendedLanes;
if (nonIdleUnblockedLanes !== NoLanes) {
nextLanes = getHighestPriorityLanes(nonIdleUnblockedLanes);
nextLanePriority = return_highestLanePriority;
} else {
var nonIdlePingedLanes = nonIdlePendingLanes & pingedLanes;
if (nonIdlePingedLanes !== NoLanes) {
nextLanes = getHighestPriorityLanes(nonIdlePingedLanes);
nextLanePriority = return_highestLanePriority;
}
}
} else {
// The only remaining work is Idle.
var unblockedLanes = pendingLanes & ~suspendedLanes;
if (unblockedLanes !== NoLanes) {
nextLanes = getHighestPriorityLanes(unblockedLanes);
nextLanePriority = return_highestLanePriority;
} else {
if (pingedLanes !== NoLanes) {
nextLanes = getHighestPriorityLanes(pingedLanes);
nextLanePriority = return_highestLanePriority;
}
}
}
}
if (nextLanes === NoLanes) {
// This should only be reachable if we're suspended
// TODO: Consider warning in this path if a fallback timer is not scheduled.
return NoLanes;
} // If there are higher priority lanes, we'll include them even if they
// are suspended.
nextLanes = pendingLanes & getEqualOrHigherPriorityLanes(nextLanes); // If we're already in the middle of a render, switching lanes will interrupt
// it and we'll lose our progress. We should only do this if the new lanes are
// higher priority.
if (wipLanes !== NoLanes && wipLanes !== nextLanes && // If we already suspended with a delay, then interrupting is fine. Don't
// bother waiting until the root is complete.
(wipLanes & suspendedLanes) === NoLanes) {
getHighestPriorityLanes(wipLanes);
var wipLanePriority = return_highestLanePriority;
if (nextLanePriority <= wipLanePriority) {
return wipLanes;
} else {
return_highestLanePriority = nextLanePriority;
}
} // Check for entangled lanes and add them to the batch.
//
// A lane is said to be entangled with another when it's not allowed to render
// in a batch that does not also include the other lane. Typically we do this
// when multiple updates have the same source, and we only want to respond to
// the most recent event from that source.
//
// Note that we apply entanglements *after* checking for partial work above.
// This means that if a lane is entangled during an interleaved event while
// it's already rendering, we won't interrupt it. This is intentional, since
// entanglement is usually "best effort": we'll try our best to render the
// lanes in the same batch, but it's not worth throwing out partially
// completed work in order to do it.
//
// For those exceptions where entanglement is semantically important, like
// useMutableSource, we should ensure that there is no partial work at the
// time we apply the entanglement.
var entangledLanes = root.entangledLanes;
if (entangledLanes !== NoLanes) {
var entanglements = root.entanglements;
var lanes = nextLanes & entangledLanes;
while (lanes > 0) {
var index = pickArbitraryLaneIndex(lanes);
var lane = 1 << index;
nextLanes |= entanglements[index];
lanes &= ~lane;
}
}
return nextLanes;
}
function getMostRecentEventTime(root, lanes) {
var eventTimes = root.eventTimes;
var mostRecentEventTime = NoTimestamp;
while (lanes > 0) {
var index = pickArbitraryLaneIndex(lanes);
var lane = 1 << index;
var eventTime = eventTimes[index];
if (eventTime > mostRecentEventTime) {
mostRecentEventTime = eventTime;
}
lanes &= ~lane;
}
return mostRecentEventTime;
}
function computeExpirationTime(lane, currentTime) {
// TODO: Expiration heuristic is constant per lane, so could use a map.
getHighestPriorityLanes(lane);
var priority = return_highestLanePriority;
if (priority >= InputContinuousLanePriority) {
// User interactions should expire slightly more quickly.
//
// NOTE: This is set to the corresponding constant as in Scheduler.js. When
// we made it larger, a product metric in www regressed, suggesting there's
// a user interaction that's being starved by a series of synchronous
// updates. If that theory is correct, the proper solution is to fix the
// starvation. However, this scenario supports the idea that expiration
// times are an important safeguard when starvation does happen.
//
// Also note that, in the case of user input specifically, this will soon no
// longer be an issue because we plan to make user input synchronous by
// default (until you enter `startTransition`, of course.)
//
// If weren't planning to make these updates synchronous soon anyway, I
// would probably make this number a configurable parameter.
return currentTime + 250;
} else if (priority >= TransitionPriority) {
return currentTime + 5000;
} else {
// Anything idle priority or lower should never expire.
return NoTimestamp;
}
}
function markStarvedLanesAsExpired(root, currentTime) {
// TODO: This gets called every time we yield. We can optimize by storing
// the earliest expiration time on the root. Then use that to quickly bail out
// of this function.
var pendingLanes = root.pendingLanes;
var suspendedLanes = root.suspendedLanes;
var pingedLanes = root.pingedLanes;
var expirationTimes = root.expirationTimes; // Iterate through the pending lanes and check if we've reached their
// expiration time. If so, we'll assume the update is being starved and mark
// it as expired to force it to finish.
var lanes = pendingLanes;
while (lanes > 0) {
var index = pickArbitraryLaneIndex(lanes);
var lane = 1 << index;
var expirationTime = expirationTimes[index];
if (expirationTime === NoTimestamp) {
// Found a pending lane with no expiration time. If it's not suspended, or
// if it's pinged, assume it's CPU-bound. Compute a new expiration time
// using the current time.
if ((lane & suspendedLanes) === NoLanes || (lane & pingedLanes) !== NoLanes) {
// Assumes timestamps are monotonically increasing.
expirationTimes[index] = computeExpirationTime(lane, currentTime);
}
} else if (expirationTime <= currentTime) {
// This lane expired
root.expiredLanes |= lane;
}
lanes &= ~lane;
}
} // This returns the highest priority pending lanes regardless of whether they
function getLanesToRetrySynchronouslyOnError(root) {
var everythingButOffscreen = root.pendingLanes & ~OffscreenLane;
if (everythingButOffscreen !== NoLanes) {
return everythingButOffscreen;
}
if (everythingButOffscreen & OffscreenLane) {
return OffscreenLane;
}
return NoLanes;
}
function returnNextLanesPriority() {
return return_highestLanePriority;
}
function includesNonIdleWork(lanes) {
return (lanes & NonIdleLanes) !== NoLanes;
}
function includesOnlyRetries(lanes) {
return (lanes & RetryLanes) === lanes;
}
function includesOnlyTransitions(lanes) {
return (lanes & TransitionLanes) === lanes;
} // To ensure consistency across multiple updates in the same event, this should
// be a pure function, so that it always returns the same lane for given inputs.
function findUpdateLane(lanePriority, wipLanes) {
switch (lanePriority) {
case NoLanePriority:
break;
case SyncLanePriority:
return SyncLane;
case SyncBatchedLanePriority:
return SyncBatchedLane;
case InputDiscreteLanePriority:
{
var _lane = pickArbitraryLane(InputDiscreteLanes & ~wipLanes);
if (_lane === NoLane) {
// Shift to the next priority level
return findUpdateLane(InputContinuousLanePriority, wipLanes);
}
return _lane;
}
case InputContinuousLanePriority:
{
var _lane2 = pickArbitraryLane(InputContinuousLanes & ~wipLanes);
if (_lane2 === NoLane) {
// Shift to the next priority level
return findUpdateLane(DefaultLanePriority, wipLanes);
}
return _lane2;
}
case DefaultLanePriority:
{
var _lane3 = pickArbitraryLane(DefaultLanes & ~wipLanes);
if (_lane3 === NoLane) {
// If all the default lanes are already being worked on, look for a
// lane in the transition range.
_lane3 = pickArbitraryLane(TransitionLanes & ~wipLanes);
if (_lane3 === NoLane) {
// All the transition lanes are taken, too. This should be very
// rare, but as a last resort, pick a default lane. This will have
// the effect of interrupting the current work-in-progress render.
_lane3 = pickArbitraryLane(DefaultLanes);
}
}
return _lane3;
}
case TransitionPriority: // Should be handled by findTransitionLane instead
case RetryLanePriority:
// Should be handled by findRetryLane instead
break;
case IdleLanePriority:
var lane = pickArbitraryLane(IdleLanes & ~wipLanes);
if (lane === NoLane) {
lane = pickArbitraryLane(IdleLanes);
}
return lane;
}
{
{
throw Error( "Invalid update priority: " + lanePriority + ". This is a bug in React." );
}
}
} // To ensure consistency across multiple updates in the same event, this should
// be pure function, so that it always returns the same lane for given inputs.
function findTransitionLane(wipLanes, pendingLanes) {
// First look for lanes that are completely unclaimed, i.e. have no
// pending work.
var lane = pickArbitraryLane(TransitionLanes & ~pendingLanes);
if (lane === NoLane) {
// If all lanes have pending work, look for a lane that isn't currently
// being worked on.
lane = pickArbitraryLane(TransitionLanes & ~wipLanes);
if (lane === NoLane) {
// If everything is being worked on, pick any lane. This has the
// effect of interrupting the current work-in-progress.
lane = pickArbitraryLane(TransitionLanes);
}
}
return lane;
} // To ensure consistency across multiple updates in the same event, this should
// be pure function, so that it always returns the same lane for given inputs.
function findRetryLane(wipLanes) {
// This is a fork of `findUpdateLane` designed specifically for Suspense
// "retries" — a special update that attempts to flip a Suspense boundary
// from its placeholder state to its primary/resolved state.
var lane = pickArbitraryLane(RetryLanes & ~wipLanes);
if (lane === NoLane) {
lane = pickArbitraryLane(RetryLanes);
}
return lane;
}
function getHighestPriorityLane(lanes) {
return lanes & -lanes;
}
function getLowestPriorityLane(lanes) {
// This finds the most significant non-zero bit.
var index = 31 - clz32(lanes);
return index < 0 ? NoLanes : 1 << index;
}
function getEqualOrHigherPriorityLanes(lanes) {
return (getLowestPriorityLane(lanes) << 1) - 1;
}
function pickArbitraryLane(lanes) {
// This wrapper function gets inlined. Only exists so to communicate that it
// doesn't matter which bit is selected; you can pick any bit without
// affecting the algorithms where its used. Here I'm using
// getHighestPriorityLane because it requires the fewest operations.
return getHighestPriorityLane(lanes);
}
function pickArbitraryLaneIndex(lanes) {
return 31 - clz32(lanes);
}
function laneToIndex(lane) {
return pickArbitraryLaneIndex(lane);
}
function includesSomeLane(a, b) {
return (a & b) !== NoLanes;
}
function isSubsetOfLanes(set, subset) {
return (set & subset) === subset;
}
function mergeLanes(a, b) {
return a | b;
}
function removeLanes(set, subset) {
return set & ~subset;
} // Seems redundant, but it changes the type from a single lane (used for
// updates) to a group of lanes (used for flushing work).
function laneToLanes(lane) {
return lane;
}
function higherPriorityLane(a, b) {
// This works because the bit ranges decrease in priority as you go left.
return a !== NoLane && a < b ? a : b;
}
function createLaneMap(initial) {
// Intentionally pushing one by one.
// https://v8.dev/blog/elements-kinds#avoid-creating-holes
var laneMap = [];
for (var i = 0; i < TotalLanes; i++) {
laneMap.push(initial);
}
return laneMap;
}
function markRootUpdated(root, updateLane, eventTime) {
root.pendingLanes |= updateLane; // TODO: Theoretically, any update to any lane can unblock any other lane. But
// it's not practical to try every single possible combination. We need a
// heuristic to decide which lanes to attempt to render, and in which batches.
// For now, we use the same heuristic as in the old ExpirationTimes model:
// retry any lane at equal or lower priority, but don't try updates at higher
// priority without also including the lower priority updates. This works well
// when considering updates across different priority levels, but isn't
// sufficient for updates within the same priority, since we want to treat
// those updates as parallel.
// Unsuspend any update at equal or lower priority.
var higherPriorityLanes = updateLane - 1; // Turns 0b1000 into 0b0111
root.suspendedLanes &= higherPriorityLanes;
root.pingedLanes &= higherPriorityLanes;
var eventTimes = root.eventTimes;
var index = laneToIndex(updateLane); // We can always overwrite an existing timestamp because we prefer the most
// recent event, and we assume time is monotonically increasing.
eventTimes[index] = eventTime;
}
function markRootSuspended(root, suspendedLanes) {
root.suspendedLanes |= suspendedLanes;
root.pingedLanes &= ~suspendedLanes; // The suspended lanes are no longer CPU-bound. Clear their expiration times.
var expirationTimes = root.expirationTimes;
var lanes = suspendedLanes;
while (lanes > 0) {
var index = pickArbitraryLaneIndex(lanes);
var lane = 1 << index;
expirationTimes[index] = NoTimestamp;
lanes &= ~lane;
}
}
function markRootPinged(root, pingedLanes, eventTime) {
root.pingedLanes |= root.suspendedLanes & pingedLanes;
}
function markDiscreteUpdatesExpired(root) {
root.expiredLanes |= InputDiscreteLanes & root.pendingLanes;
}
function hasDiscreteLanes(lanes) {
return (lanes & InputDiscreteLanes) !== NoLanes;
}
function markRootMutableRead(root, updateLane) {
root.mutableReadLanes |= updateLane & root.pendingLanes;
}
function markRootFinished(root, remainingLanes) {
var noLongerPendingLanes = root.pendingLanes & ~remainingLanes;
root.pendingLanes = remainingLanes; // Let's try everything again
root.suspendedLanes = 0;
root.pingedLanes = 0;
root.expiredLanes &= remainingLanes;
root.mutableReadLanes &= remainingLanes;
root.entangledLanes &= remainingLanes;
var entanglements = root.entanglements;
var eventTimes = root.eventTimes;
var expirationTimes = root.expirationTimes; // Clear the lanes that no longer have pending work
var lanes = noLongerPendingLanes;
while (lanes > 0) {
var index = pickArbitraryLaneIndex(lanes);
var lane = 1 << index;
entanglements[index] = NoLanes;
eventTimes[index] = NoTimestamp;
expirationTimes[index] = NoTimestamp;
lanes &= ~lane;
}
}
function markRootEntangled(root, entangledLanes) {
root.entangledLanes |= entangledLanes;
var entanglements = root.entanglements;
var lanes = entangledLanes;
while (lanes > 0) {
var index = pickArbitraryLaneIndex(lanes);
var lane = 1 << index;
entanglements[index] |= entangledLanes;
lanes &= ~lane;
}
}
var clz32 = Math.clz32 ? Math.clz32 : clz32Fallback; // Count leading zeros. Only used on lanes, so assume input is an integer.
// Based on:
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Math/clz32
var log = Math.log;
var LN2 = Math.LN2;
function clz32Fallback(lanes) {
if (lanes === 0) {
return 32;
}
return 31 - (log(lanes) / LN2 | 0) | 0;
}
// Intentionally not named imports because Rollup would use dynamic dispatch for
var UserBlockingPriority$1 = Scheduler.unstable_UserBlockingPriority,
runWithPriority = Scheduler.unstable_runWithPriority; // TODO: can we stop exporting these?
var _enabled = true; // This is exported in FB builds for use by legacy FB layer infra.
// We'd like to remove this but it's not clear if this is safe.
function setEnabled(enabled) {
_enabled = !!enabled;
}
function isEnabled() {
return _enabled;
}
function createEventListenerWrapperWithPriority(targetContainer, domEventName, eventSystemFlags) {
var eventPriority = getEventPriorityForPluginSystem(domEventName);
var listenerWrapper;
switch (eventPriority) {
case DiscreteEvent:
listenerWrapper = dispatchDiscreteEvent;
break;
case UserBlockingEvent:
listenerWrapper = dispatchUserBlockingUpdate;
break;
case ContinuousEvent:
default:
listenerWrapper = dispatchEvent;
break;
}
return listenerWrapper.bind(null, domEventName, eventSystemFlags, targetContainer);
}
function dispatchDiscreteEvent(domEventName, eventSystemFlags, container, nativeEvent) {
{
flushDiscreteUpdatesIfNeeded(nativeEvent.timeStamp);
}
discreteUpdates(dispatchEvent, domEventName, eventSystemFlags, container, nativeEvent);
}
function dispatchUserBlockingUpdate(domEventName, eventSystemFlags, container, nativeEvent) {
{
runWithPriority(UserBlockingPriority$1, dispatchEvent.bind(null, domEventName, eventSystemFlags, container, nativeEvent));
}
}
function dispatchEvent(domEventName, eventSystemFlags, targetContainer, nativeEvent) {
if (!_enabled) {
return;
}
var allowReplay = true;
{
// TODO: replaying capture phase events is currently broken
// because we used to do it during top-level native bubble handlers
// but now we use different bubble and capture handlers.
// In eager mode, we attach capture listeners early, so we need
// to filter them out until we fix the logic to handle them correctly.
// This could've been outside the flag but I put it inside to reduce risk.
allowReplay = (eventSystemFlags & IS_CAPTURE_PHASE) === 0;
}
if (allowReplay && hasQueuedDiscreteEvents() && isReplayableDiscreteEvent(domEventName)) {
// If we already have a queue of discrete events, and this is another discrete
// event, then we can't dispatch it regardless of its target, since they
// need to dispatch in order.
queueDiscreteEvent(null, // Flags that we're not actually blocked on anything as far as we know.
domEventName, eventSystemFlags, targetContainer, nativeEvent);
return;
}
var blockedOn = attemptToDispatchEvent(domEventName, eventSystemFlags, targetContainer, nativeEvent);
if (blockedOn === null) {
// We successfully dispatched this event.
if (allowReplay) {
clearIfContinuousEvent(domEventName, nativeEvent);
}
return;
}
if (allowReplay) {
if (isReplayableDiscreteEvent(domEventName)) {
// This this to be replayed later once the target is available.
queueDiscreteEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent);
return;
}
if (queueIfContinuousEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent)) {
return;
} // We need to clear only if we didn't queue because
// queueing is accummulative.
clearIfContinuousEvent(domEventName, nativeEvent);
} // This is not replayable so we'll invoke it but without a target,
// in case the event system needs to trace it.
dispatchEventForPluginEventSystem(domEventName, eventSystemFlags, nativeEvent, null, targetContainer);
} // Attempt dispatching an event. Returns a SuspenseInstance or Container if it's blocked.
function attemptToDispatchEvent(domEventName, eventSystemFlags, targetContainer, nativeEvent) {
// TODO: Warn if _enabled is false.
var nativeEventTarget = getEventTarget(nativeEvent);
var targetInst = getClosestInstanceFromNode(nativeEventTarget);
if (targetInst !== null) {
var nearestMounted = getNearestMountedFiber(targetInst);
if (nearestMounted === null) {
// This tree has been unmounted already. Dispatch without a target.
targetInst = null;
} else {
var tag = nearestMounted.tag;
if (tag === SuspenseComponent) {
var instance = getSuspenseInstanceFromFiber(nearestMounted);
if (instance !== null) {
// Queue the event to be replayed later. Abort dispatching since we
// don't want this event dispatched twice through the event system.
// TODO: If this is the first discrete event in the queue. Schedule an increased
// priority for this boundary.
return instance;
} // This shouldn't happen, something went wrong but to avoid blocking
// the whole system, dispatch the event without a target.
// TODO: Warn.
targetInst = null;
} else if (tag === HostRoot) {
var root = nearestMounted.stateNode;
if (root.hydrate) {
// If this happens during a replay something went wrong and it might block
// the whole system.
return getContainerFromFiber(nearestMounted);
}
targetInst = null;
} else if (nearestMounted !== targetInst) {
// If we get an event (ex: img onload) before committing that
// component's mount, ignore it for now (that is, treat it as if it was an
// event on a non-React tree). We might also consider queueing events and
// dispatching them after the mount.
targetInst = null;
}
}
}
dispatchEventForPluginEventSystem(domEventName, eventSystemFlags, nativeEvent, targetInst, targetContainer); // We're not blocked on anything.
return null;
}
function addEventBubbleListener(target, eventType, listener) {
target.addEventListener(eventType, listener, false);
return listener;
}
function addEventCaptureListener(target, eventType, listener) {
target.addEventListener(eventType, listener, true);
return listener;
}
function addEventCaptureListenerWithPassiveFlag(target, eventType, listener, passive) {
target.addEventListener(eventType, listener, {
capture: true,
passive: passive
});
return listener;
}
function addEventBubbleListenerWithPassiveFlag(target, eventType, listener, passive) {
target.addEventListener(eventType, listener, {
passive: passive
});
return listener;
}
/**
* These variables store information about text content of a target node,
* allowing comparison of content before and after a given event.
*
* Identify the node where selection currently begins, then observe
* both its text content and its current position in the DOM. Since the
* browser may natively replace the target node during composition, we can
* use its position to find its replacement.
*
*
*/
var root = null;
var startText = null;
var fallbackText = null;
function initialize(nativeEventTarget) {
root = nativeEventTarget;
startText = getText();
return true;
}
function reset() {
root = null;
startText = null;
fallbackText = null;
}
function getData() {
if (fallbackText) {
return fallbackText;
}
var start;
var startValue = startText;
var startLength = startValue.length;
var end;
var endValue = getText();
var endLength = endValue.length;
for (start = 0; start < startLength; start++) {
if (startValue[start] !== endValue[start]) {
break;
}
}
var minEnd = startLength - start;
for (end = 1; end <= minEnd; end++) {
if (startValue[startLength - end] !== endValue[endLength - end]) {
break;
}
}
var sliceTail = end > 1 ? 1 - end : undefined;
fallbackText = endValue.slice(start, sliceTail);
return fallbackText;
}
function getText() {
if ('value' in root) {
return root.value;
}
return root.textContent;
}
/**
* `charCode` represents the actual "character code" and is safe to use with
* `String.fromCharCode`. As such, only keys that correspond to printable
* characters produce a valid `charCode`, the only exception to this is Enter.
* The Tab-key is considered non-printable and does not have a `charCode`,
* presumably because it does not produce a tab-character in browsers.
*
* @param {object} nativeEvent Native browser event.
* @return {number} Normalized `charCode` property.
*/
function getEventCharCode(nativeEvent) {
var charCode;
var keyCode = nativeEvent.keyCode;
if ('charCode' in nativeEvent) {
charCode = nativeEvent.charCode; // FF does not set `charCode` for the Enter-key, check against `keyCode`.
if (charCode === 0 && keyCode === 13) {
charCode = 13;
}
} else {
// IE8 does not implement `charCode`, but `keyCode` has the correct value.
charCode = keyCode;
} // IE and Edge (on Windows) and Chrome / Safari (on Windows and Linux)
// report Enter as charCode 10 when ctrl is pressed.
if (charCode === 10) {
charCode = 13;
} // Some non-printable keys are reported in `charCode`/`keyCode`, discard them.
// Must not discard the (non-)printable Enter-key.
if (charCode >= 32 || charCode === 13) {
return charCode;
}
return 0;
}
function functionThatReturnsTrue() {
return true;
}
function functionThatReturnsFalse() {
return false;
} // This is intentionally a factory so that we have different returned constructors.
// If we had a single constructor, it would be megamorphic and engines would deopt.
function createSyntheticEvent(Interface) {
/**
* Synthetic events are dispatched by event plugins, typically in response to a
* top-level event delegation handler.
*
* These systems should generally use pooling to reduce the frequency of garbage
* collection. The system should check `isPersistent` to determine whether the
* event should be released into the pool after being dispatched. Users that
* need a persisted event should invoke `persist`.
*
* Synthetic events (and subclasses) implement the DOM Level 3 Events API by
* normalizing browser quirks. Subclasses do not necessarily have to implement a
* DOM interface; custom application-specific events can also subclass this.
*/
function SyntheticBaseEvent(reactName, reactEventType, targetInst, nativeEvent, nativeEventTarget) {
this._reactName = reactName;
this._targetInst = targetInst;
this.type = reactEventType;
this.nativeEvent = nativeEvent;
this.target = nativeEventTarget;
this.currentTarget = null;
for (var _propName in Interface) {
if (!Interface.hasOwnProperty(_propName)) {
continue;
}
var normalize = Interface[_propName];
if (normalize) {
this[_propName] = normalize(nativeEvent);
} else {
this[_propName] = nativeEvent[_propName];
}
}
var defaultPrevented = nativeEvent.defaultPrevented != null ? nativeEvent.defaultPrevented : nativeEvent.returnValue === false;
if (defaultPrevented) {
this.isDefaultPrevented = functionThatReturnsTrue;
} else {
this.isDefaultPrevented = functionThatReturnsFalse;
}
this.isPropagationStopped = functionThatReturnsFalse;
return this;
}
_assign(SyntheticBaseEvent.prototype, {
preventDefault: function () {
this.defaultPrevented = true;
var event = this.nativeEvent;
if (!event) {
return;
}
if (event.preventDefault) {
event.preventDefault(); // $FlowFixMe - flow is not aware of `unknown` in IE
} else if (typeof event.returnValue !== 'unknown') {
event.returnValue = false;
}
this.isDefaultPrevented = functionThatReturnsTrue;
},
stopPropagation: function () {
var event = this.nativeEvent;
if (!event) {
return;
}
if (event.stopPropagation) {
event.stopPropagation(); // $FlowFixMe - flow is not aware of `unknown` in IE
} else if (typeof event.cancelBubble !== 'unknown') {
// The ChangeEventPlugin registers a "propertychange" event for
// IE. This event does not support bubbling or cancelling, and
// any references to cancelBubble throw "Member not found". A
// typeof check of "unknown" circumvents this issue (and is also
// IE specific).
event.cancelBubble = true;
}
this.isPropagationStopped = functionThatReturnsTrue;
},
/**
* We release all dispatched `SyntheticEvent`s after each event loop, adding
* them back into the pool. This allows a way to hold onto a reference that
* won't be added back into the pool.
*/
persist: function () {// Modern event system doesn't use pooling.
},
/**
* Checks if this event should be released back into the pool.
*
* @return {boolean} True if this should not be released, false otherwise.
*/
isPersistent: functionThatReturnsTrue
});
return SyntheticBaseEvent;
}
/**
* @interface Event
* @see http://www.w3.org/TR/DOM-Level-3-Events/
*/
var EventInterface = {
eventPhase: 0,
bubbles: 0,
cancelable: 0,
timeStamp: function (event) {
return event.timeStamp || Date.now();
},
defaultPrevented: 0,
isTrusted: 0
};
var SyntheticEvent = createSyntheticEvent(EventInterface);
var UIEventInterface = _assign({}, EventInterface, {
view: 0,
detail: 0
});
var SyntheticUIEvent = createSyntheticEvent(UIEventInterface);
var lastMovementX;
var lastMovementY;
var lastMouseEvent;
function updateMouseMovementPolyfillState(event) {
if (event !== lastMouseEvent) {
if (lastMouseEvent && event.type === 'mousemove') {
lastMovementX = event.screenX - lastMouseEvent.screenX;
lastMovementY = event.screenY - lastMouseEvent.screenY;
} else {
lastMovementX = 0;
lastMovementY = 0;
}
lastMouseEvent = event;
}
}
/**
* @interface MouseEvent
* @see http://www.w3.org/TR/DOM-Level-3-Events/
*/
var MouseEventInterface = _assign({}, UIEventInterface, {
screenX: 0,
screenY: 0,
clientX: 0,
clientY: 0,
pageX: 0,
pageY: 0,
ctrlKey: 0,
shiftKey: 0,
altKey: 0,
metaKey: 0,
getModifierState: getEventModifierState,
button: 0,
buttons: 0,
relatedTarget: function (event) {
if (event.relatedTarget === undefined) return event.fromElement === event.srcElement ? event.toElement : event.fromElement;
return event.relatedTarget;
},
movementX: function (event) {
if ('movementX' in event) {
return event.movementX;
}
updateMouseMovementPolyfillState(event);
return lastMovementX;
},
movementY: function (event) {
if ('movementY' in event) {
return event.movementY;
} // Don't need to call updateMouseMovementPolyfillState() here
// because it's guaranteed to have already run when movementX
// was copied.
return lastMovementY;
}
});
var SyntheticMouseEvent = createSyntheticEvent(MouseEventInterface);
/**
* @interface DragEvent
* @see http://www.w3.org/TR/DOM-Level-3-Events/
*/
var DragEventInterface = _assign({}, MouseEventInterface, {
dataTransfer: 0
});
var SyntheticDragEvent = createSyntheticEvent(DragEventInterface);
/**
* @interface FocusEvent
* @see http://www.w3.org/TR/DOM-Level-3-Events/
*/
var FocusEventInterface = _assign({}, UIEventInterface, {
relatedTarget: 0
});
var SyntheticFocusEvent = createSyntheticEvent(FocusEventInterface);
/**
* @interface Event
* @see http://www.w3.org/TR/css3-animations/#AnimationEvent-interface
* @see https://developer.mozilla.org/en-US/docs/Web/API/AnimationEvent
*/
var AnimationEventInterface = _assign({}, EventInterface, {
animationName: 0,
elapsedTime: 0,
pseudoElement: 0
});
var SyntheticAnimationEvent = createSyntheticEvent(AnimationEventInterface);
/**
* @interface Event
* @see http://www.w3.org/TR/clipboard-apis/
*/
var ClipboardEventInterface = _assign({}, EventInterface, {
clipboardData: function (event) {
return 'clipboardData' in event ? event.clipboardData : window.clipboardData;
}
});
var SyntheticClipboardEvent = createSyntheticEvent(ClipboardEventInterface);
/**
* @interface Event
* @see http://www.w3.org/TR/DOM-Level-3-Events/#events-compositionevents
*/
var CompositionEventInterface = _assign({}, EventInterface, {
data: 0
});
var SyntheticCompositionEvent = createSyntheticEvent(CompositionEventInterface);
/**
* @interface Event
* @see http://www.w3.org/TR/2013/WD-DOM-Level-3-Events-20131105
* /#events-inputevents
*/
// Happens to share the same list for now.
var SyntheticInputEvent = SyntheticCompositionEvent;
/**
* Normalization of deprecated HTML5 `key` values
* @see https://developer.mozilla.org/en-US/docs/Web/API/KeyboardEvent#Key_names
*/
var normalizeKey = {
Esc: 'Escape',
Spacebar: ' ',
Left: 'ArrowLeft',
Up: 'ArrowUp',
Right: 'ArrowRight',
Down: 'ArrowDown',
Del: 'Delete',
Win: 'OS',
Menu: 'ContextMenu',
Apps: 'ContextMenu',
Scroll: 'ScrollLock',
MozPrintableKey: 'Unidentified'
};
/**
* Translation from legacy `keyCode` to HTML5 `key`
* Only special keys supported, all others depend on keyboard layout or browser
* @see https://developer.mozilla.org/en-US/docs/Web/API/KeyboardEvent#Key_names
*/
var translateToKey = {
'8': 'Backspace',
'9': 'Tab',
'12': 'Clear',
'13': 'Enter',
'16': 'Shift',
'17': 'Control',
'18': 'Alt',
'19': 'Pause',
'20': 'CapsLock',
'27': 'Escape',
'32': ' ',
'33': 'PageUp',
'34': 'PageDown',
'35': 'End',
'36': 'Home',
'37': 'ArrowLeft',
'38': 'ArrowUp',
'39': 'ArrowRight',
'40': 'ArrowDown',
'45': 'Insert',
'46': 'Delete',
'112': 'F1',
'113': 'F2',
'114': 'F3',
'115': 'F4',
'116': 'F5',
'117': 'F6',
'118': 'F7',
'119': 'F8',
'120': 'F9',
'121': 'F10',
'122': 'F11',
'123': 'F12',
'144': 'NumLock',
'145': 'ScrollLock',
'224': 'Meta'
};
/**
* @param {object} nativeEvent Native browser event.
* @return {string} Normalized `key` property.
*/
function getEventKey(nativeEvent) {
if (nativeEvent.key) {
// Normalize inconsistent values reported by browsers due to
// implementations of a working draft specification.
// FireFox implements `key` but returns `MozPrintableKey` for all
// printable characters (normalized to `Unidentified`), ignore it.
var key = normalizeKey[nativeEvent.key] || nativeEvent.key;
if (key !== 'Unidentified') {
return key;
}
} // Browser does not implement `key`, polyfill as much of it as we can.
if (nativeEvent.type === 'keypress') {
var charCode = getEventCharCode(nativeEvent); // The enter-key is technically both printable and non-printable and can
// thus be captured by `keypress`, no other non-printable key should.
return charCode === 13 ? 'Enter' : String.fromCharCode(charCode);
}
if (nativeEvent.type === 'keydown' || nativeEvent.type === 'keyup') {
// While user keyboard layout determines the actual meaning of each
// `keyCode` value, almost all function keys have a universal value.
return translateToKey[nativeEvent.keyCode] || 'Unidentified';
}
return '';
}
/**
* Translation from modifier key to the associated property in the event.
* @see http://www.w3.org/TR/DOM-Level-3-Events/#keys-Modifiers
*/
var modifierKeyToProp = {
Alt: 'altKey',
Control: 'ctrlKey',
Meta: 'metaKey',
Shift: 'shiftKey'
}; // Older browsers (Safari <= 10, iOS Safari <= 10.2) do not support
// getModifierState. If getModifierState is not supported, we map it to a set of
// modifier keys exposed by the event. In this case, Lock-keys are not supported.
function modifierStateGetter(keyArg) {
var syntheticEvent = this;
var nativeEvent = syntheticEvent.nativeEvent;
if (nativeEvent.getModifierState) {
return nativeEvent.getModifierState(keyArg);
}
var keyProp = modifierKeyToProp[keyArg];
return keyProp ? !!nativeEvent[keyProp] : false;
}
function getEventModifierState(nativeEvent) {
return modifierStateGetter;
}
/**
* @interface KeyboardEvent
* @see http://www.w3.org/TR/DOM-Level-3-Events/
*/
var KeyboardEventInterface = _assign({}, UIEventInterface, {
key: getEventKey,
code: 0,
location: 0,
ctrlKey: 0,
shiftKey: 0,
altKey: 0,
metaKey: 0,
repeat: 0,
locale: 0,
getModifierState: getEventModifierState,
// Legacy Interface
charCode: function (event) {
// `charCode` is the result of a KeyPress event and represents the value of
// the actual printable character.
// KeyPress is deprecated, but its replacement is not yet final and not
// implemented in any major browser. Only KeyPress has charCode.
if (event.type === 'keypress') {
return getEventCharCode(event);
}
return 0;
},
keyCode: function (event) {
// `keyCode` is the result of a KeyDown/Up event and represents the value of
// physical keyboard key.
// The actual meaning of the value depends on the users' keyboard layout
// which cannot be detected. Assuming that it is a US keyboard layout
// provides a surprisingly accurate mapping for US and European users.
// Due to this, it is left to the user to implement at this time.
if (event.type === 'keydown' || event.type === 'keyup') {
return event.keyCode;
}
return 0;
},
which: function (event) {
// `which` is an alias for either `keyCode` or `charCode` depending on the
// type of the event.
if (event.type === 'keypress') {
return getEventCharCode(event);
}
if (event.type === 'keydown' || event.type === 'keyup') {
return event.keyCode;
}
return 0;
}
});
var SyntheticKeyboardEvent = createSyntheticEvent(KeyboardEventInterface);
/**
* @interface PointerEvent
* @see http://www.w3.org/TR/pointerevents/
*/
var PointerEventInterface = _assign({}, MouseEventInterface, {
pointerId: 0,
width: 0,
height: 0,
pressure: 0,
tangentialPressure: 0,
tiltX: 0,
tiltY: 0,
twist: 0,
pointerType: 0,
isPrimary: 0
});
var SyntheticPointerEvent = createSyntheticEvent(PointerEventInterface);
/**
* @interface TouchEvent
* @see http://www.w3.org/TR/touch-events/
*/
var TouchEventInterface = _assign({}, UIEventInterface, {
touches: 0,
targetTouches: 0,
changedTouches: 0,
altKey: 0,
metaKey: 0,
ctrlKey: 0,
shiftKey: 0,
getModifierState: getEventModifierState
});
var SyntheticTouchEvent = createSyntheticEvent(TouchEventInterface);
/**
* @interface Event
* @see http://www.w3.org/TR/2009/WD-css3-transitions-20090320/#transition-events-
* @see https://developer.mozilla.org/en-US/docs/Web/API/TransitionEvent
*/
var TransitionEventInterface = _assign({}, EventInterface, {
propertyName: 0,
elapsedTime: 0,
pseudoElement: 0
});
var SyntheticTransitionEvent = createSyntheticEvent(TransitionEventInterface);
/**
* @interface WheelEvent
* @see http://www.w3.org/TR/DOM-Level-3-Events/
*/
var WheelEventInterface = _assign({}, MouseEventInterface, {
deltaX: function (event) {
return 'deltaX' in event ? event.deltaX : // Fallback to `wheelDeltaX` for Webkit and normalize (right is positive).
'wheelDeltaX' in event ? -event.wheelDeltaX : 0;
},
deltaY: function (event) {
return 'deltaY' in event ? event.deltaY : // Fallback to `wheelDeltaY` for Webkit and normalize (down is positive).
'wheelDeltaY' in event ? -event.wheelDeltaY : // Fallback to `wheelDelta` for IE<9 and normalize (down is positive).
'wheelDelta' in event ? -event.wheelDelta : 0;
},
deltaZ: 0,
// Browsers without "deltaMode" is reporting in raw wheel delta where one
// notch on the scroll is always +/- 120, roughly equivalent to pixels.
// A good approximation of DOM_DELTA_LINE (1) is 5% of viewport size or
// ~40 pixels, for DOM_DELTA_SCREEN (2) it is 87.5% of viewport size.
deltaMode: 0
});
var SyntheticWheelEvent = createSyntheticEvent(WheelEventInterface);
var END_KEYCODES = [9, 13, 27, 32]; // Tab, Return, Esc, Space
var START_KEYCODE = 229;
var canUseCompositionEvent = canUseDOM && 'CompositionEvent' in window;
var documentMode = null;
if (canUseDOM && 'documentMode' in document) {
documentMode = document.documentMode;
} // Webkit offers a very useful `textInput` event that can be used to
// directly represent `beforeInput`. The IE `textinput` event is not as
// useful, so we don't use it.
var canUseTextInputEvent = canUseDOM && 'TextEvent' in window && !documentMode; // In IE9+, we have access to composition events, but the data supplied
// by the native compositionend event may be incorrect. Japanese ideographic
// spaces, for instance (\u3000) are not recorded correctly.
var useFallbackCompositionData = canUseDOM && (!canUseCompositionEvent || documentMode && documentMode > 8 && documentMode <= 11);
var SPACEBAR_CODE = 32;
var SPACEBAR_CHAR = String.fromCharCode(SPACEBAR_CODE);
function registerEvents() {
registerTwoPhaseEvent('onBeforeInput', ['compositionend', 'keypress', 'textInput', 'paste']);
registerTwoPhaseEvent('onCompositionEnd', ['compositionend', 'focusout', 'keydown', 'keypress', 'keyup', 'mousedown']);
registerTwoPhaseEvent('onCompositionStart', ['compositionstart', 'focusout', 'keydown', 'keypress', 'keyup', 'mousedown']);
registerTwoPhaseEvent('onCompositionUpdate', ['compositionupdate', 'focusout', 'keydown', 'keypress', 'keyup', 'mousedown']);
} // Track whether we've ever handled a keypress on the space key.
var hasSpaceKeypress = false;
/**
* Return whether a native keypress event is assumed to be a command.
* This is required because Firefox fires `keypress` events for key commands
* (cut, copy, select-all, etc.) even though no character is inserted.
*/
function isKeypressCommand(nativeEvent) {
return (nativeEvent.ctrlKey || nativeEvent.altKey || nativeEvent.metaKey) && // ctrlKey && altKey is equivalent to AltGr, and is not a command.
!(nativeEvent.ctrlKey && nativeEvent.altKey);
}
/**
* Translate native top level events into event types.
*/
function getCompositionEventType(domEventName) {
switch (domEventName) {
case 'compositionstart':
return 'onCompositionStart';
case 'compositionend':
return 'onCompositionEnd';
case 'compositionupdate':
return 'onCompositionUpdate';
}
}
/**
* Does our fallback best-guess model think this event signifies that
* composition has begun?
*/
function isFallbackCompositionStart(domEventName, nativeEvent) {
return domEventName === 'keydown' && nativeEvent.keyCode === START_KEYCODE;
}
/**
* Does our fallback mode think that this event is the end of composition?
*/
function isFallbackCompositionEnd(domEventName, nativeEvent) {
switch (domEventName) {
case 'keyup':
// Command keys insert or clear IME input.
return END_KEYCODES.indexOf(nativeEvent.keyCode) !== -1;
case 'keydown':
// Expect IME keyCode on each keydown. If we get any other
// code we must have exited earlier.
return nativeEvent.keyCode !== START_KEYCODE;
case 'keypress':
case 'mousedown':
case 'focusout':
// Events are not possible without cancelling IME.
return true;
default:
return false;
}
}
/**
* Google Input Tools provides composition data via a CustomEvent,
* with the `data` property populated in the `detail` object. If this
* is available on the event object, use it. If not, this is a plain
* composition event and we have nothing special to extract.
*
* @param {object} nativeEvent
* @return {?string}
*/
function getDataFromCustomEvent(nativeEvent) {
var detail = nativeEvent.detail;
if (typeof detail === 'object' && 'data' in detail) {
return detail.data;
}
return null;
}
/**
* Check if a composition event was triggered by Korean IME.
* Our fallback mode does not work well with IE's Korean IME,
* so just use native composition events when Korean IME is used.
* Although CompositionEvent.locale property is deprecated,
* it is available in IE, where our fallback mode is enabled.
*
* @param {object} nativeEvent
* @return {boolean}
*/
function isUsingKoreanIME(nativeEvent) {
return nativeEvent.locale === 'ko';
} // Track the current IME composition status, if any.
var isComposing = false;
/**
* @return {?object} A SyntheticCompositionEvent.
*/
function extractCompositionEvent(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget) {
var eventType;
var fallbackData;
if (canUseCompositionEvent) {
eventType = getCompositionEventType(domEventName);
} else if (!isComposing) {
if (isFallbackCompositionStart(domEventName, nativeEvent)) {
eventType = 'onCompositionStart';
}
} else if (isFallbackCompositionEnd(domEventName, nativeEvent)) {
eventType = 'onCompositionEnd';
}
if (!eventType) {
return null;
}
if (useFallbackCompositionData && !isUsingKoreanIME(nativeEvent)) {
// The current composition is stored statically and must not be
// overwritten while composition continues.
if (!isComposing && eventType === 'onCompositionStart') {
isComposing = initialize(nativeEventTarget);
} else if (eventType === 'onCompositionEnd') {
if (isComposing) {
fallbackData = getData();
}
}
}
var listeners = accumulateTwoPhaseListeners(targetInst, eventType);
if (listeners.length > 0) {
var event = new SyntheticCompositionEvent(eventType, domEventName, null, nativeEvent, nativeEventTarget);
dispatchQueue.push({
event: event,
listeners: listeners
});
if (fallbackData) {
// Inject data generated from fallback path into the synthetic event.
// This matches the property of native CompositionEventInterface.
event.data = fallbackData;
} else {
var customData = getDataFromCustomEvent(nativeEvent);
if (customData !== null) {
event.data = customData;
}
}
}
}
function getNativeBeforeInputChars(domEventName, nativeEvent) {
switch (domEventName) {
case 'compositionend':
return getDataFromCustomEvent(nativeEvent);
case 'keypress':
/**
* If native `textInput` events are available, our goal is to make
* use of them. However, there is a special case: the spacebar key.
* In Webkit, preventing default on a spacebar `textInput` event
* cancels character insertion, but it *also* causes the browser
* to fall back to its default spacebar behavior of scrolling the
* page.
*
* Tracking at:
* https://code.google.com/p/chromium/issues/detail?id=355103
*
* To avoid this issue, use the keypress event as if no `textInput`
* event is available.
*/
var which = nativeEvent.which;
if (which !== SPACEBAR_CODE) {
return null;
}
hasSpaceKeypress = true;
return SPACEBAR_CHAR;
case 'textInput':
// Record the characters to be added to the DOM.
var chars = nativeEvent.data; // If it's a spacebar character, assume that we have already handled
// it at the keypress level and bail immediately. Android Chrome
// doesn't give us keycodes, so we need to ignore it.
if (chars === SPACEBAR_CHAR && hasSpaceKeypress) {
return null;
}
return chars;
default:
// For other native event types, do nothing.
return null;
}
}
/**
* For browsers that do not provide the `textInput` event, extract the
* appropriate string to use for SyntheticInputEvent.
*/
function getFallbackBeforeInputChars(domEventName, nativeEvent) {
// If we are currently composing (IME) and using a fallback to do so,
// try to extract the composed characters from the fallback object.
// If composition event is available, we extract a string only at
// compositionevent, otherwise extract it at fallback events.
if (isComposing) {
if (domEventName === 'compositionend' || !canUseCompositionEvent && isFallbackCompositionEnd(domEventName, nativeEvent)) {
var chars = getData();
reset();
isComposing = false;
return chars;
}
return null;
}
switch (domEventName) {
case 'paste':
// If a paste event occurs after a keypress, throw out the input
// chars. Paste events should not lead to BeforeInput events.
return null;
case 'keypress':
/**
* As of v27, Firefox may fire keypress events even when no character
* will be inserted. A few possibilities:
*
* - `which` is `0`. Arrow keys, Esc key, etc.
*
* - `which` is the pressed key code, but no char is available.
* Ex: 'AltGr + d` in Polish. There is no modified character for
* this key combination and no character is inserted into the
* document, but FF fires the keypress for char code `100` anyway.
* No `input` event will occur.
*
* - `which` is the pressed key code, but a command combination is
* being used. Ex: `Cmd+C`. No character is inserted, and no
* `input` event will occur.
*/
if (!isKeypressCommand(nativeEvent)) {
if (nativeEvent.char && nativeEvent.char.length > 1) {
return nativeEvent.char;
} else if (nativeEvent.which) {
return String.fromCharCode(nativeEvent.which);
}
}
return null;
case 'compositionend':
return useFallbackCompositionData && !isUsingKoreanIME(nativeEvent) ? null : nativeEvent.data;
default:
return null;
}
}
function extractBeforeInputEvent(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget) {
var chars;
if (canUseTextInputEvent) {
chars = getNativeBeforeInputChars(domEventName, nativeEvent);
} else {
chars = getFallbackBeforeInputChars(domEventName, nativeEvent);
}
if (!chars) {
return null;
}
var listeners = accumulateTwoPhaseListeners(targetInst, 'onBeforeInput');
if (listeners.length > 0) {
var event = new SyntheticInputEvent('onBeforeInput', 'beforeinput', null, nativeEvent, nativeEventTarget);
dispatchQueue.push({
event: event,
listeners: listeners
});
event.data = chars;
}
}
function extractEvents(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
extractCompositionEvent(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
extractBeforeInputEvent(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
}
var supportedInputTypes = {
color: true,
date: true,
datetime: true,
'datetime-local': true,
email: true,
month: true,
number: true,
password: true,
range: true,
search: true,
tel: true,
text: true,
time: true,
url: true,
week: true
};
function isTextInputElement(elem) {
var nodeName = elem && elem.nodeName && elem.nodeName.toLowerCase();
if (nodeName === 'input') {
return !!supportedInputTypes[elem.type];
}
if (nodeName === 'textarea') {
return true;
}
return false;
}
function isEventSupported(eventNameSuffix) {
if (!canUseDOM) {
return false;
}
var eventName = 'on' + eventNameSuffix;
var isSupported = (eventName in document);
if (!isSupported) {
var element = document.createElement('div');
element.setAttribute(eventName, 'return;');
isSupported = typeof element[eventName] === 'function';
}
return isSupported;
}
function registerEvents$1() {
registerTwoPhaseEvent('onChange', ['change', 'click', 'focusin', 'focusout', 'input', 'keydown', 'keyup', 'selectionchange']);
}
function createAndAccumulateChangeEvent(dispatchQueue, inst, nativeEvent, target) {
enqueueStateRestore(target);
var listeners = accumulateTwoPhaseListeners(inst, 'onChange');
if (listeners.length > 0) {
var event = new SyntheticEvent('onChange', 'change', null, nativeEvent, target);
dispatchQueue.push({
event: event,
listeners: listeners
});
}
}
var activeElement = null;
var activeElementInst = null;
function shouldUseChangeEvent(elem) {
var nodeName = elem.nodeName && elem.nodeName.toLowerCase();
return nodeName === 'select' || nodeName === 'input' && elem.type === 'file';
}
function manualDispatchChangeEvent(nativeEvent) {
var dispatchQueue = [];
createAndAccumulateChangeEvent(dispatchQueue, activeElementInst, nativeEvent, getEventTarget(nativeEvent));
batchedUpdates(runEventInBatch, dispatchQueue);
}
function runEventInBatch(dispatchQueue) {
processDispatchQueue(dispatchQueue, 0);
}
function getInstIfValueChanged(targetInst) {
var targetNode = getNodeFromInstance(targetInst);
if (updateValueIfChanged(targetNode)) {
return targetInst;
}
}
function getTargetInstForChangeEvent(domEventName, targetInst) {
if (domEventName === 'change') {
return targetInst;
}
}
var isInputEventSupported = false;
if (canUseDOM) {
isInputEventSupported = isEventSupported('input') && (!document.documentMode || document.documentMode > 9);
}
function startWatchingForValueChange(target, targetInst) {
activeElement = target;
activeElementInst = targetInst;
activeElement.attachEvent('onpropertychange', handlePropertyChange);
}
function stopWatchingForValueChange() {
if (!activeElement) {
return;
}
activeElement.detachEvent('onpropertychange', handlePropertyChange);
activeElement = null;
activeElementInst = null;
}
function handlePropertyChange(nativeEvent) {
if (nativeEvent.propertyName !== 'value') {
return;
}
if (getInstIfValueChanged(activeElementInst)) {
manualDispatchChangeEvent(nativeEvent);
}
}
function handleEventsForInputEventPolyfill(domEventName, target, targetInst) {
if (domEventName === 'focusin') {
stopWatchingForValueChange();
startWatchingForValueChange(target, targetInst);
} else if (domEventName === 'focusout') {
stopWatchingForValueChange();
}
}
function getTargetInstForInputEventPolyfill(domEventName, targetInst) {
if (domEventName === 'selectionchange' || domEventName === 'keyup' || domEventName === 'keydown') {
return getInstIfValueChanged(activeElementInst);
}
}
function shouldUseClickEvent(elem) {
var nodeName = elem.nodeName;
return nodeName && nodeName.toLowerCase() === 'input' && (elem.type === 'checkbox' || elem.type === 'radio');
}
function getTargetInstForClickEvent(domEventName, targetInst) {
if (domEventName === 'click') {
return getInstIfValueChanged(targetInst);
}
}
function getTargetInstForInputOrChangeEvent(domEventName, targetInst) {
if (domEventName === 'input' || domEventName === 'change') {
return getInstIfValueChanged(targetInst);
}
}
function handleControlledInputBlur(node) {
var state = node._wrapperState;
if (!state || !state.controlled || node.type !== 'number') {
return;
}
{
setDefaultValue(node, 'number', node.value);
}
}
function extractEvents$1(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
var targetNode = targetInst ? getNodeFromInstance(targetInst) : window;
var getTargetInstFunc, handleEventFunc;
if (shouldUseChangeEvent(targetNode)) {
getTargetInstFunc = getTargetInstForChangeEvent;
} else if (isTextInputElement(targetNode)) {
if (isInputEventSupported) {
getTargetInstFunc = getTargetInstForInputOrChangeEvent;
} else {
getTargetInstFunc = getTargetInstForInputEventPolyfill;
handleEventFunc = handleEventsForInputEventPolyfill;
}
} else if (shouldUseClickEvent(targetNode)) {
getTargetInstFunc = getTargetInstForClickEvent;
}
if (getTargetInstFunc) {
var inst = getTargetInstFunc(domEventName, targetInst);
if (inst) {
createAndAccumulateChangeEvent(dispatchQueue, inst, nativeEvent, nativeEventTarget);
return;
}
}
if (handleEventFunc) {
handleEventFunc(domEventName, targetNode, targetInst);
}
if (domEventName === 'focusout') {
handleControlledInputBlur(targetNode);
}
}
function registerEvents$2() {
registerDirectEvent('onMouseEnter', ['mouseout', 'mouseover']);
registerDirectEvent('onMouseLeave', ['mouseout', 'mouseover']);
registerDirectEvent('onPointerEnter', ['pointerout', 'pointerover']);
registerDirectEvent('onPointerLeave', ['pointerout', 'pointerover']);
}
function extractEvents$2(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
var isOverEvent = domEventName === 'mouseover' || domEventName === 'pointerover';
var isOutEvent = domEventName === 'mouseout' || domEventName === 'pointerout';
if (isOverEvent && (eventSystemFlags & IS_REPLAYED) === 0) {
var related = nativeEvent.relatedTarget || nativeEvent.fromElement;
if (related) {
if (getClosestInstanceFromNode(related) || isContainerMarkedAsRoot(related)) {
return;
}
}
}
if (!isOutEvent && !isOverEvent) {
return;
}
var win;
if (nativeEventTarget.window === nativeEventTarget) {
win = nativeEventTarget;
} else {
var doc = nativeEventTarget.ownerDocument;
if (doc) {
win = doc.defaultView || doc.parentWindow;
} else {
win = window;
}
}
var from;
var to;
if (isOutEvent) {
var _related = nativeEvent.relatedTarget || nativeEvent.toElement;
from = targetInst;
to = _related ? getClosestInstanceFromNode(_related) : null;
if (to !== null) {
var nearestMounted = getNearestMountedFiber(to);
if (to !== nearestMounted || to.tag !== HostComponent && to.tag !== HostText) {
to = null;
}
}
} else {
from = null;
to = targetInst;
}
if (from === to) {
return;
}
var SyntheticEventCtor = SyntheticMouseEvent;
var leaveEventType = 'onMouseLeave';
var enterEventType = 'onMouseEnter';
var eventTypePrefix = 'mouse';
if (domEventName === 'pointerout' || domEventName === 'pointerover') {
SyntheticEventCtor = SyntheticPointerEvent;
leaveEventType = 'onPointerLeave';
enterEventType = 'onPointerEnter';
eventTypePrefix = 'pointer';
}
var fromNode = from == null ? win : getNodeFromInstance(from);
var toNode = to == null ? win : getNodeFromInstance(to);
var leave = new SyntheticEventCtor(leaveEventType, eventTypePrefix + 'leave', from, nativeEvent, nativeEventTarget);
leave.target = fromNode;
leave.relatedTarget = toNode;
var enter = null;
var nativeTargetInst = getClosestInstanceFromNode(nativeEventTarget);
if (nativeTargetInst === targetInst) {
var enterEvent = new SyntheticEventCtor(enterEventType, eventTypePrefix + 'enter', to, nativeEvent, nativeEventTarget);
enterEvent.target = toNode;
enterEvent.relatedTarget = fromNode;
enter = enterEvent;
}
accumulateEnterLeaveTwoPhaseListeners(dispatchQueue, leave, enter, from, to);
}
function is(x, y) {
return x === y && (x !== 0 || 1 / x === 1 / y) || x !== x && y !== y
;
}
var objectIs = typeof Object.is === 'function' ? Object.is : is;
var hasOwnProperty$2 = Object.prototype.hasOwnProperty;
function shallowEqual(objA, objB) {
if (objectIs(objA, objB)) {
return true;
}
if (typeof objA !== 'object' || objA === null || typeof objB !== 'object' || objB === null) {
return false;
}
var keysA = Object.keys(objA);
var keysB = Object.keys(objB);
if (keysA.length !== keysB.length) {
return false;
}
for (var i = 0; i < keysA.length; i++) {
if (!hasOwnProperty$2.call(objB, keysA[i]) || !objectIs(objA[keysA[i]], objB[keysA[i]])) {
return false;
}
}
return true;
}
function getLeafNode(node) {
while (node && node.firstChild) {
node = node.firstChild;
}
return node;
}
function getSiblingNode(node) {
while (node) {
if (node.nextSibling) {
return node.nextSibling;
}
node = node.parentNode;
}
}
function getNodeForCharacterOffset(root, offset) {
var node = getLeafNode(root);
var nodeStart = 0;
var nodeEnd = 0;
while (node) {
if (node.nodeType === TEXT_NODE) {
nodeEnd = nodeStart + node.textContent.length;
if (nodeStart <= offset && nodeEnd >= offset) {
return {
node: node,
offset: offset - nodeStart
};
}
nodeStart = nodeEnd;
}
node = getLeafNode(getSiblingNode(node));
}
}
function getOffsets(outerNode) {
var ownerDocument = outerNode.ownerDocument;
var win = ownerDocument && ownerDocument.defaultView || window;
var selection = win.getSelection && win.getSelection();
if (!selection || selection.rangeCount === 0) {
return null;
}
var anchorNode = selection.anchorNode,
anchorOffset = selection.anchorOffset,
focusNode = selection.focusNode,
focusOffset = selection.focusOffset;
try {
anchorNode.nodeType;
focusNode.nodeType;
} catch (e) {
return null;
}
return getModernOffsetsFromPoints(outerNode, anchorNode, anchorOffset, focusNode, focusOffset);
}
function getModernOffsetsFromPoints(outerNode, anchorNode, anchorOffset, focusNode, focusOffset) {
var length = 0;
var start = -1;
var end = -1;
var indexWithinAnchor = 0;
var indexWithinFocus = 0;
var node = outerNode;
var parentNode = null;
outer: while (true) {
var next = null;
while (true) {
if (node === anchorNode && (anchorOffset === 0 || node.nodeType === TEXT_NODE)) {
start = length + anchorOffset;
}
if (node === focusNode && (focusOffset === 0 || node.nodeType === TEXT_NODE)) {
end = length + focusOffset;
}
if (node.nodeType === TEXT_NODE) {
length += node.nodeValue.length;
}
if ((next = node.firstChild) === null) {
break;
}
parentNode = node;
node = next;
}
while (true) {
if (node === outerNode) {
break outer;
}
if (parentNode === anchorNode && ++indexWithinAnchor === anchorOffset) {
start = length;
}
if (parentNode === focusNode && ++indexWithinFocus === focusOffset) {
end = length;
}
if ((next = node.nextSibling) !== null) {
break;
}
node = parentNode;
parentNode = node.parentNode;
}
node = next;
}
if (start === -1 || end === -1) {
return null;
}
return {
start: start,
end: end
};
}
function setOffsets(node, offsets) {
var doc = node.ownerDocument || document;
var win = doc && doc.defaultView || window;
if (!win.getSelection) {
return;
}
var selection = win.getSelection();
var length = node.textContent.length;
var start = Math.min(offsets.start, length);
var end = offsets.end === undefined ? start : Math.min(offsets.end, length);
if (!selection.extend && start > end) {
var temp = end;
end = start;
start = temp;
}
var startMarker = getNodeForCharacterOffset(node, start);
var endMarker = getNodeForCharacterOffset(node, end);
if (startMarker && endMarker) {
if (selection.rangeCount === 1 && selection.anchorNode === startMarker.node && selection.anchorOffset === startMarker.offset && selection.focusNode === endMarker.node && selection.focusOffset === endMarker.offset) {
return;
}
var range = doc.createRange();
range.setStart(startMarker.node, startMarker.offset);
selection.removeAllRanges();
if (start > end) {
selection.addRange(range);
selection.extend(endMarker.node, endMarker.offset);
} else {
range.setEnd(endMarker.node, endMarker.offset);
selection.addRange(range);
}
}
}
function isTextNode(node) {
return node && node.nodeType === TEXT_NODE;
}
function containsNode(outerNode, innerNode) {
if (!outerNode || !innerNode) {
return false;
} else if (outerNode === innerNode) {
return true;
} else if (isTextNode(outerNode)) {
return false;
} else if (isTextNode(innerNode)) {
return containsNode(outerNode, innerNode.parentNode);
} else if ('contains' in outerNode) {
return outerNode.contains(innerNode);
} else if (outerNode.compareDocumentPosition) {
return !!(outerNode.compareDocumentPosition(innerNode) & 16);
} else {
return false;
}
}
function isInDocument(node) {
return node && node.ownerDocument && containsNode(node.ownerDocument.documentElement, node);
}
function isSameOriginFrame(iframe) {
try {
return typeof iframe.contentWindow.location.href === 'string';
} catch (err) {
return false;
}
}
function getActiveElementDeep() {
var win = window;
var element = getActiveElement();
while (element instanceof win.HTMLIFrameElement) {
if (isSameOriginFrame(element)) {
win = element.contentWindow;
} else {
return element;
}
element = getActiveElement(win.document);
}
return element;
}
function hasSelectionCapabilities(elem) {
var nodeName = elem && elem.nodeName && elem.nodeName.toLowerCase();
return nodeName && (nodeName === 'input' && (elem.type === 'text' || elem.type === 'search' || elem.type === 'tel' || elem.type === 'url' || elem.type === 'password') || nodeName === 'textarea' || elem.contentEditable === 'true');
}
function getSelectionInformation() {
var focusedElem = getActiveElementDeep();
return {
focusedElem: focusedElem,
selectionRange: hasSelectionCapabilities(focusedElem) ? getSelection(focusedElem) : null
};
}
function restoreSelection(priorSelectionInformation) {
var curFocusedElem = getActiveElementDeep();
var priorFocusedElem = priorSelectionInformation.focusedElem;
var priorSelectionRange = priorSelectionInformation.selectionRange;
if (curFocusedElem !== priorFocusedElem && isInDocument(priorFocusedElem)) {
if (priorSelectionRange !== null && hasSelectionCapabilities(priorFocusedElem)) {
setSelection(priorFocusedElem, priorSelectionRange);
}
var ancestors = [];
var ancestor = priorFocusedElem;
while (ancestor = ancestor.parentNode) {
if (ancestor.nodeType === ELEMENT_NODE) {
ancestors.push({
element: ancestor,
left: ancestor.scrollLeft,
top: ancestor.scrollTop
});
}
}
if (typeof priorFocusedElem.focus === 'function') {
priorFocusedElem.focus();
}
for (var i = 0; i < ancestors.length; i++) {
var info = ancestors[i];
info.element.scrollLeft = info.left;
info.element.scrollTop = info.top;
}
}
}
function getSelection(input) {
var selection;
if ('selectionStart' in input) {
selection = {
start: input.selectionStart,
end: input.selectionEnd
};
} else {
selection = getOffsets(input);
}
return selection || {
start: 0,
end: 0
};
}
function setSelection(input, offsets) {
var start = offsets.start;
var end = offsets.end;
if (end === undefined) {
end = start;
}
if ('selectionStart' in input) {
input.selectionStart = start;
input.selectionEnd = Math.min(end, input.value.length);
} else {
setOffsets(input, offsets);
}
}
var skipSelectionChangeEvent = canUseDOM && 'documentMode' in document && document.documentMode <= 11;
function registerEvents$3() {
registerTwoPhaseEvent('onSelect', ['focusout', 'contextmenu', 'dragend', 'focusin', 'keydown', 'keyup', 'mousedown', 'mouseup', 'selectionchange']);
}
var activeElement$1 = null;
var activeElementInst$1 = null;
var lastSelection = null;
var mouseDown = false;
function getSelection$1(node) {
if ('selectionStart' in node && hasSelectionCapabilities(node)) {
return {
start: node.selectionStart,
end: node.selectionEnd
};
} else {
var win = node.ownerDocument && node.ownerDocument.defaultView || window;
var selection = win.getSelection();
return {
anchorNode: selection.anchorNode,
anchorOffset: selection.anchorOffset,
focusNode: selection.focusNode,
focusOffset: selection.focusOffset
};
}
}
function getEventTargetDocument(eventTarget) {
return eventTarget.window === eventTarget ? eventTarget.document : eventTarget.nodeType === DOCUMENT_NODE ? eventTarget : eventTarget.ownerDocument;
}
function constructSelectEvent(dispatchQueue, nativeEvent, nativeEventTarget) {
var doc = getEventTargetDocument(nativeEventTarget);
if (mouseDown || activeElement$1 == null || activeElement$1 !== getActiveElement(doc)) {
return;
}
var currentSelection = getSelection$1(activeElement$1);
if (!lastSelection || !shallowEqual(lastSelection, currentSelection)) {
lastSelection = currentSelection;
var listeners = accumulateTwoPhaseListeners(activeElementInst$1, 'onSelect');
if (listeners.length > 0) {
var event = new SyntheticEvent('onSelect', 'select', null, nativeEvent, nativeEventTarget);
dispatchQueue.push({
event: event,
listeners: listeners
});
event.target = activeElement$1;
}
}
}
function extractEvents$3(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
var targetNode = targetInst ? getNodeFromInstance(targetInst) : window;
switch (domEventName) {
case 'focusin':
if (isTextInputElement(targetNode) || targetNode.contentEditable === 'true') {
activeElement$1 = targetNode;
activeElementInst$1 = targetInst;
lastSelection = null;
}
break;
case 'focusout':
activeElement$1 = null;
activeElementInst$1 = null;
lastSelection = null;
break;
case 'mousedown':
mouseDown = true;
break;
case 'contextmenu':
case 'mouseup':
case 'dragend':
mouseDown = false;
constructSelectEvent(dispatchQueue, nativeEvent, nativeEventTarget);
break;
case 'selectionchange':
if (skipSelectionChangeEvent) {
break;
}
case 'keydown':
case 'keyup':
constructSelectEvent(dispatchQueue, nativeEvent, nativeEventTarget);
}
}
function extractEvents$4(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
var reactName = topLevelEventsToReactNames.get(domEventName);
if (reactName === undefined) {
return;
}
var SyntheticEventCtor = SyntheticEvent;
var reactEventType = domEventName;
switch (domEventName) {
case 'keypress':
if (getEventCharCode(nativeEvent) === 0) {
return;
}
case 'keydown':
case 'keyup':
SyntheticEventCtor = SyntheticKeyboardEvent;
break;
case 'focusin':
reactEventType = 'focus';
SyntheticEventCtor = SyntheticFocusEvent;
break;
case 'focusout':
reactEventType = 'blur';
SyntheticEventCtor = SyntheticFocusEvent;
break;
case 'beforeblur':
case 'afterblur':
SyntheticEventCtor = SyntheticFocusEvent;
break;
case 'click':
if (nativeEvent.button === 2) {
return;
}
case 'auxclick':
case 'dblclick':
case 'mousedown':
case 'mousemove':
case 'mouseup':
case 'mouseout':
case 'mouseover':
case 'contextmenu':
SyntheticEventCtor = SyntheticMouseEvent;
break;
case 'drag':
case 'dragend':
case 'dragenter':
case 'dragexit':
case 'dragleave':
case 'dragover':
case 'dragstart':
case 'drop':
SyntheticEventCtor = SyntheticDragEvent;
break;
case 'touchcancel':
case 'touchend':
case 'touchmove':
case 'touchstart':
SyntheticEventCtor = SyntheticTouchEvent;
break;
case ANIMATION_END:
case ANIMATION_ITERATION:
case ANIMATION_START:
SyntheticEventCtor = SyntheticAnimationEvent;
break;
case TRANSITION_END:
SyntheticEventCtor = SyntheticTransitionEvent;
break;
case 'scroll':
SyntheticEventCtor = SyntheticUIEvent;
break;
case 'wheel':
SyntheticEventCtor = SyntheticWheelEvent;
break;
case 'copy':
case 'cut':
case 'paste':
SyntheticEventCtor = SyntheticClipboardEvent;
break;
case 'gotpointercapture':
case 'lostpointercapture':
case 'pointercancel':
case 'pointerdown':
case 'pointermove':
case 'pointerout':
case 'pointerover':
case 'pointerup':
SyntheticEventCtor = SyntheticPointerEvent;
break;
}
var inCapturePhase = (eventSystemFlags & IS_CAPTURE_PHASE) !== 0;
{
var accumulateTargetOnly = !inCapturePhase &&
domEventName === 'scroll';
var _listeners = accumulateSinglePhaseListeners(targetInst, reactName, nativeEvent.type, inCapturePhase, accumulateTargetOnly);
if (_listeners.length > 0) {
var _event = new SyntheticEventCtor(reactName, reactEventType, null, nativeEvent, nativeEventTarget);
dispatchQueue.push({
event: _event,
listeners: _listeners
});
}
}
}
registerSimpleEvents();
registerEvents$2();
registerEvents$1();
registerEvents$3();
registerEvents();
function extractEvents$5(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
extractEvents$4(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags);
var shouldProcessPolyfillPlugins = (eventSystemFlags & SHOULD_NOT_PROCESS_POLYFILL_EVENT_PLUGINS) === 0;
if (shouldProcessPolyfillPlugins) {
extractEvents$2(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags);
extractEvents$1(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
extractEvents$3(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
extractEvents(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
}
}
var mediaEventTypes = ['abort', 'canplay', 'canplaythrough', 'durationchange', 'emptied', 'encrypted', 'ended', 'error', 'loadeddata', 'loadedmetadata', 'loadstart', 'pause', 'play', 'playing', 'progress', 'ratechange', 'seeked', 'seeking', 'stalled', 'suspend', 'timeupdate', 'volumechange', 'waiting'];
var nonDelegatedEvents = new Set(['cancel', 'close', 'invalid', 'load', 'scroll', 'toggle'].concat(mediaEventTypes));
function executeDispatch(event, listener, currentTarget) {
var type = event.type || 'unknown-event';
event.currentTarget = currentTarget;
invokeGuardedCallbackAndCatchFirstError(type, listener, undefined, event);
event.currentTarget = null;
}
function processDispatchQueueItemsInOrder(event, dispatchListeners, inCapturePhase) {
var previousInstance;
if (inCapturePhase) {
for (var i = dispatchListeners.length - 1; i >= 0; i--) {
var _dispatchListeners$i = dispatchListeners[i],
instance = _dispatchListeners$i.instance,
currentTarget = _dispatchListeners$i.currentTarget,
listener = _dispatchListeners$i.listener;
if (instance !== previousInstance && event.isPropagationStopped()) {
return;
}
executeDispatch(event, listener, currentTarget);
previousInstance = instance;
}
} else {
for (var _i = 0; _i < dispatchListeners.length; _i++) {
var _dispatchListeners$_i = dispatchListeners[_i],
_instance = _dispatchListeners$_i.instance,
_currentTarget = _dispatchListeners$_i.currentTarget,
_listener = _dispatchListeners$_i.listener;
if (_instance !== previousInstance && event.isPropagationStopped()) {
return;
}
executeDispatch(event, _listener, _currentTarget);
previousInstance = _instance;
}
}
}
function processDispatchQueue(dispatchQueue, eventSystemFlags) {
var inCapturePhase = (eventSystemFlags & IS_CAPTURE_PHASE) !== 0;
for (var i = 0; i < dispatchQueue.length; i++) {
var _dispatchQueue$i = dispatchQueue[i],
event = _dispatchQueue$i.event,
listeners = _dispatchQueue$i.listeners;
processDispatchQueueItemsInOrder(event, listeners, inCapturePhase);
}
rethrowCaughtError();
}
function dispatchEventsForPlugins(domEventName, eventSystemFlags, nativeEvent, targetInst, targetContainer) {
var nativeEventTarget = getEventTarget(nativeEvent);
var dispatchQueue = [];
extractEvents$5(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags);
processDispatchQueue(dispatchQueue, eventSystemFlags);
}
function listenToNonDelegatedEvent(domEventName, targetElement) {
var isCapturePhaseListener = false;
var listenerSet = getEventListenerSet(targetElement);
var listenerSetKey = getListenerSetKey(domEventName, isCapturePhaseListener);
if (!listenerSet.has(listenerSetKey)) {
addTrappedEventListener(targetElement, domEventName, IS_NON_DELEGATED, isCapturePhaseListener);
listenerSet.add(listenerSetKey);
}
}
var listeningMarker = '_reactListening' + Math.random().toString(36).slice(2);
function listenToAllSupportedEvents(rootContainerElement) {
{
if (rootContainerElement[listeningMarker]) {
return;
}
rootContainerElement[listeningMarker] = true;
allNativeEvents.forEach(function (domEventName) {
if (!nonDelegatedEvents.has(domEventName)) {
listenToNativeEvent(domEventName, false, rootContainerElement, null);
}
listenToNativeEvent(domEventName, true, rootContainerElement, null);
});
}
}
function listenToNativeEvent(domEventName, isCapturePhaseListener, rootContainerElement, targetElement) {
var eventSystemFlags = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : 0;
var target = rootContainerElement;
if (domEventName === 'selectionchange' && rootContainerElement.nodeType !== DOCUMENT_NODE) {
target = rootContainerElement.ownerDocument;
}
if (targetElement !== null && !isCapturePhaseListener && nonDelegatedEvents.has(domEventName)) {
if (domEventName !== 'scroll') {
return;
}
eventSystemFlags |= IS_NON_DELEGATED;
target = targetElement;
}
var listenerSet = getEventListenerSet(target);
var listenerSetKey = getListenerSetKey(domEventName, isCapturePhaseListener);
if (!listenerSet.has(listenerSetKey)) {
if (isCapturePhaseListener) {
eventSystemFlags |= IS_CAPTURE_PHASE;
}
addTrappedEventListener(target, domEventName, eventSystemFlags, isCapturePhaseListener);
listenerSet.add(listenerSetKey);
}
}
function addTrappedEventListener(targetContainer, domEventName, eventSystemFlags, isCapturePhaseListener, isDeferredListenerForLegacyFBSupport) {
var listener = createEventListenerWrapperWithPriority(targetContainer, domEventName, eventSystemFlags);
var isPassiveListener = undefined;
if (passiveBrowserEventsSupported) {
if (domEventName === 'touchstart' || domEventName === 'touchmove' || domEventName === 'wheel') {
isPassiveListener = true;
}
}
targetContainer = targetContainer;
if (isCapturePhaseListener) {
if (isPassiveListener !== undefined) {
addEventCaptureListenerWithPassiveFlag(targetContainer, domEventName, listener, isPassiveListener);
} else {
addEventCaptureListener(targetContainer, domEventName, listener);
}
} else {
if (isPassiveListener !== undefined) {
addEventBubbleListenerWithPassiveFlag(targetContainer, domEventName, listener, isPassiveListener);
} else {
addEventBubbleListener(targetContainer, domEventName, listener);
}
}
}
function isMatchingRootContainer(grandContainer, targetContainer) {
return grandContainer === targetContainer || grandContainer.nodeType === COMMENT_NODE && grandContainer.parentNode === targetContainer;
}
function dispatchEventForPluginEventSystem(domEventName, eventSystemFlags, nativeEvent, targetInst, targetContainer) {
var ancestorInst = targetInst;
if ((eventSystemFlags & IS_EVENT_HANDLE_NON_MANAGED_NODE) === 0 && (eventSystemFlags & IS_NON_DELEGATED) === 0) {
var targetContainerNode = targetContainer;
if (targetInst !== null) {
var node = targetInst;
mainLoop: while (true) {
if (node === null) {
return;
}
var nodeTag = node.tag;
if (nodeTag === HostRoot || nodeTag === HostPortal) {
var container = node.stateNode.containerInfo;
if (isMatchingRootContainer(container, targetContainerNode)) {
break;
}
if (nodeTag === HostPortal) {
var grandNode = node.return;
while (grandNode !== null) {
var grandTag = grandNode.tag;
if (grandTag === HostRoot || grandTag === HostPortal) {
var grandContainer = grandNode.stateNode.containerInfo;
if (isMatchingRootContainer(grandContainer, targetContainerNode)) {
return;
}
}
grandNode = grandNode.return;
}
}
while (container !== null) {
var parentNode = getClosestInstanceFromNode(container);
if (parentNode === null) {
return;
}
var parentTag = parentNode.tag;
if (parentTag === HostComponent || parentTag === HostText) {
node = ancestorInst = parentNode;
continue mainLoop;
}
container = container.parentNode;
}
}
node = node.return;
}
}
}
batchedEventUpdates(function () {
return dispatchEventsForPlugins(domEventName, eventSystemFlags, nativeEvent, ancestorInst);
});
}
function createDispatchListener(instance, listener, currentTarget) {
return {
instance: instance,
listener: listener,
currentTarget: currentTarget
};
}
function accumulateSinglePhaseListeners(targetFiber, reactName, nativeEventType, inCapturePhase, accumulateTargetOnly) {
var captureName = reactName !== null ? reactName + 'Capture' : null;
var reactEventName = inCapturePhase ? captureName : reactName;
var listeners = [];
var instance = targetFiber;
var lastHostComponent = null;
while (instance !== null) {
var _instance2 = instance,
stateNode = _instance2.stateNode,
tag = _instance2.tag;
if (tag === HostComponent && stateNode !== null) {
lastHostComponent = stateNode;
if (reactEventName !== null) {
var listener = getListener(instance, reactEventName);
if (listener != null) {
listeners.push(createDispatchListener(instance, listener, lastHostComponent));
}
}
}
if (accumulateTargetOnly) {
break;
}
instance = instance.return;
}
return listeners;
}
function accumulateTwoPhaseListeners(targetFiber, reactName) {
var captureName = reactName + 'Capture';
var listeners = [];
var instance = targetFiber;
while (instance !== null) {
var _instance3 = instance,
stateNode = _instance3.stateNode,
tag = _instance3.tag;
if (tag === HostComponent && stateNode !== null) {
var currentTarget = stateNode;
var captureListener = getListener(instance, captureName);
if (captureListener != null) {
listeners.unshift(createDispatchListener(instance, captureListener, currentTarget));
}
var bubbleListener = getListener(instance, reactName);
if (bubbleListener != null) {
listeners.push(createDispatchListener(instance, bubbleListener, currentTarget));
}
}
instance = instance.return;
}
return listeners;
}
function getParent(inst) {
if (inst === null) {
return null;
}
do {
inst = inst.return;
} while (inst && inst.tag !== HostComponent);
if (inst) {
return inst;
}
return null;
}
function getLowestCommonAncestor(instA, instB) {
var nodeA = instA;
var nodeB = instB;
var depthA = 0;
for (var tempA = nodeA; tempA; tempA = getParent(tempA)) {
depthA++;
}
var depthB = 0;
for (var tempB = nodeB; tempB; tempB = getParent(tempB)) {
depthB++;
}
while (depthA - depthB > 0) {
nodeA = getParent(nodeA);
depthA--;
}
while (depthB - depthA > 0) {
nodeB = getParent(nodeB);
depthB--;
}
var depth = depthA;
while (depth--) {
if (nodeA === nodeB || nodeB !== null && nodeA === nodeB.alternate) {
return nodeA;
}
nodeA = getParent(nodeA);
nodeB = getParent(nodeB);
}
return null;
}
function accumulateEnterLeaveListenersForEvent(dispatchQueue, event, target, common, inCapturePhase) {
var registrationName = event._reactName;
var listeners = [];
var instance = target;
while (instance !== null) {
if (instance === common) {
break;
}
var _instance4 = instance,
alternate = _instance4.alternate,
stateNode = _instance4.stateNode,
tag = _instance4.tag;
if (alternate !== null && alternate === common) {
break;
}
if (tag === HostComponent && stateNode !== null) {
var currentTarget = stateNode;
if (inCapturePhase) {
var captureListener = getListener(instance, registrationName);
if (captureListener != null) {
listeners.unshift(createDispatchListener(instance, captureListener, currentTarget));
}
} else if (!inCapturePhase) {
var bubbleListener = getListener(instance, registrationName);
if (bubbleListener != null) {
listeners.push(createDispatchListener(instance, bubbleListener, currentTarget));
}
}
}
instance = instance.return;
}
if (listeners.length !== 0) {
dispatchQueue.push({
event: event,
listeners: listeners
});
}
}
function accumulateEnterLeaveTwoPhaseListeners(dispatchQueue, leaveEvent, enterEvent, from, to) {
var common = from && to ? getLowestCommonAncestor(from, to) : null;
if (from !== null) {
accumulateEnterLeaveListenersForEvent(dispatchQueue, leaveEvent, from, common, false);
}
if (to !== null && enterEvent !== null) {
accumulateEnterLeaveListenersForEvent(dispatchQueue, enterEvent, to, common, true);
}
}
function getListenerSetKey(domEventName, capture) {
return domEventName + "__" + (capture ? 'capture' : 'bubble');
}
var didWarnInvalidHydration = false;
var DANGEROUSLY_SET_INNER_HTML = 'dangerouslySetInnerHTML';
var SUPPRESS_CONTENT_EDITABLE_WARNING = 'suppressContentEditableWarning';
var SUPPRESS_HYDRATION_WARNING = 'suppressHydrationWarning';
var AUTOFOCUS = 'autoFocus';
var CHILDREN = 'children';
var STYLE = 'style';
var HTML$1 = '__html';
var HTML_NAMESPACE$1 = Namespaces.html;
var warnedUnknownTags;
var suppressHydrationWarning;
var validatePropertiesInDevelopment;
var warnForTextDifference;
var warnForPropDifference;
var warnForExtraAttributes;
var warnForInvalidEventListener;
var canDiffStyleForHydrationWarning;
var normalizeMarkupForTextOrAttribute;
var normalizeHTML;
{
warnedUnknownTags = {
dialog: true,
webview: true
};
validatePropertiesInDevelopment = function (type, props) {
validateProperties(type, props);
validateProperties$1(type, props);
validateProperties$2(type, props, {
registrationNameDependencies: registrationNameDependencies,
possibleRegistrationNames: possibleRegistrationNames
});
};
canDiffStyleForHydrationWarning = canUseDOM && !document.documentMode;
var NORMALIZE_NEWLINES_REGEX = /\r\n?/g;
var NORMALIZE_NULL_AND_REPLACEMENT_REGEX = /\u0000|\uFFFD/g;
normalizeMarkupForTextOrAttribute = function (markup) {
var markupString = typeof markup === 'string' ? markup : '' + markup;
return markupString.replace(NORMALIZE_NEWLINES_REGEX, '\n').replace(NORMALIZE_NULL_AND_REPLACEMENT_REGEX, '');
};
warnForTextDifference = function (serverText, clientText) {
if (didWarnInvalidHydration) {
return;
}
var normalizedClientText = normalizeMarkupForTextOrAttribute(clientText);
var normalizedServerText = normalizeMarkupForTextOrAttribute(serverText);
if (normalizedServerText === normalizedClientText) {
return;
}
didWarnInvalidHydration = true;
error('Text content did not match. Server: "%s" Client: "%s"', normalizedServerText, normalizedClientText);
};
warnForPropDifference = function (propName, serverValue, clientValue) {
if (didWarnInvalidHydration) {
return;
}
var normalizedClientValue = normalizeMarkupForTextOrAttribute(clientValue);
var normalizedServerValue = normalizeMarkupForTextOrAttribute(serverValue);
if (normalizedServerValue === normalizedClientValue) {
return;
}
didWarnInvalidHydration = true;
error('Prop `%s` did not match. Server: %s Client: %s', propName, JSON.stringify(normalizedServerValue), JSON.stringify(normalizedClientValue));
};
warnForExtraAttributes = function (attributeNames) {
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
var names = [];
attributeNames.forEach(function (name) {
names.push(name);
});
error('Extra attributes from the server: %s', names);
};
warnForInvalidEventListener = function (registrationName, listener) {
if (listener === false) {
error('Expected `%s` listener to be a function, instead got `false`.\n\n' + 'If you used to conditionally omit it with %s={condition && value}, ' + 'pass %s={condition ? value : undefined} instead.', registrationName, registrationName, registrationName);
} else {
error('Expected `%s` listener to be a function, instead got a value of `%s` type.', registrationName, typeof listener);
}
};
normalizeHTML = function (parent, html) {
var testElement = parent.namespaceURI === HTML_NAMESPACE$1 ? parent.ownerDocument.createElement(parent.tagName) : parent.ownerDocument.createElementNS(parent.namespaceURI, parent.tagName);
testElement.innerHTML = html;
return testElement.innerHTML;
};
}
function getOwnerDocumentFromRootContainer(rootContainerElement) {
return rootContainerElement.nodeType === DOCUMENT_NODE ? rootContainerElement : rootContainerElement.ownerDocument;
}
function noop() {}
function trapClickOnNonInteractiveElement(node) {
node.onclick = noop;
}
function setInitialDOMProperties(tag, domElement, rootContainerElement, nextProps, isCustomComponentTag) {
for (var propKey in nextProps) {
if (!nextProps.hasOwnProperty(propKey)) {
continue;
}
var nextProp = nextProps[propKey];
if (propKey === STYLE) {
{
if (nextProp) {
Object.freeze(nextProp);
}
}
setValueForStyles(domElement, nextProp);
} else if (propKey === DANGEROUSLY_SET_INNER_HTML) {
var nextHtml = nextProp ? nextProp[HTML$1] : undefined;
if (nextHtml != null) {
setInnerHTML(domElement, nextHtml);
}
} else if (propKey === CHILDREN) {
if (typeof nextProp === 'string') {
var canSetTextContent = tag !== 'textarea' || nextProp !== '';
if (canSetTextContent) {
setTextContent(domElement, nextProp);
}
} else if (typeof nextProp === 'number') {
setTextContent(domElement, '' + nextProp);
}
} else if (propKey === SUPPRESS_CONTENT_EDITABLE_WARNING || propKey === SUPPRESS_HYDRATION_WARNING) ; else if (propKey === AUTOFOCUS) ; else if (registrationNameDependencies.hasOwnProperty(propKey)) {
if (nextProp != null) {
if ( typeof nextProp !== 'function') {
warnForInvalidEventListener(propKey, nextProp);
}
if (propKey === 'onScroll') {
listenToNonDelegatedEvent('scroll', domElement);
}
}
} else if (nextProp != null) {
setValueForProperty(domElement, propKey, nextProp, isCustomComponentTag);
}
}
}
function updateDOMProperties(domElement, updatePayload, wasCustomComponentTag, isCustomComponentTag) {
for (var i = 0; i < updatePayload.length; i += 2) {
var propKey = updatePayload[i];
var propValue = updatePayload[i + 1];
if (propKey === STYLE) {
setValueForStyles(domElement, propValue);
} else if (propKey === DANGEROUSLY_SET_INNER_HTML) {
setInnerHTML(domElement, propValue);
} else if (propKey === CHILDREN) {
setTextContent(domElement, propValue);
} else {
setValueForProperty(domElement, propKey, propValue, isCustomComponentTag);
}
}
}
function createElement(type, props, rootContainerElement, parentNamespace) {
var isCustomComponentTag;
var ownerDocument = getOwnerDocumentFromRootContainer(rootContainerElement);
var domElement;
var namespaceURI = parentNamespace;
if (namespaceURI === HTML_NAMESPACE$1) {
namespaceURI = getIntrinsicNamespace(type);
}
if (namespaceURI === HTML_NAMESPACE$1) {
{
isCustomComponentTag = isCustomComponent(type, props);
if (!isCustomComponentTag && type !== type.toLowerCase()) {
error('<%s /> is using incorrect casing. ' + 'Use PascalCase for React components, ' + 'or lowercase for HTML elements.', type);
}
}
if (type === 'script') {
var div = ownerDocument.createElement('div');
div.innerHTML = '<script><' + '/script>';
var firstChild = div.firstChild;
domElement = div.removeChild(firstChild);
} else if (typeof props.is === 'string') {
domElement = ownerDocument.createElement(type, {
is: props.is
});
} else {
domElement = ownerDocument.createElement(type);
if (type === 'select') {
var node = domElement;
if (props.multiple) {
node.multiple = true;
} else if (props.size) {
node.size = props.size;
}
}
}
} else {
domElement = ownerDocument.createElementNS(namespaceURI, type);
}
{
if (namespaceURI === HTML_NAMESPACE$1) {
if (!isCustomComponentTag && Object.prototype.toString.call(domElement) === '[object HTMLUnknownElement]' && !Object.prototype.hasOwnProperty.call(warnedUnknownTags, type)) {
warnedUnknownTags[type] = true;
error('The tag <%s> is unrecognized in this browser. ' + 'If you meant to render a React component, start its name with ' + 'an uppercase letter.', type);
}
}
}
return domElement;
}
function createTextNode(text, rootContainerElement) {
return getOwnerDocumentFromRootContainer(rootContainerElement).createTextNode(text);
}
function setInitialProperties(domElement, tag, rawProps, rootContainerElement) {
var isCustomComponentTag = isCustomComponent(tag, rawProps);
{
validatePropertiesInDevelopment(tag, rawProps);
}
var props;
switch (tag) {
case 'dialog':
listenToNonDelegatedEvent('cancel', domElement);
listenToNonDelegatedEvent('close', domElement);
props = rawProps;
break;
case 'iframe':
case 'object':
case 'embed':
listenToNonDelegatedEvent('load', domElement);
props = rawProps;
break;
case 'video':
case 'audio':
for (var i = 0; i < mediaEventTypes.length; i++) {
listenToNonDelegatedEvent(mediaEventTypes[i], domElement);
}
props = rawProps;
break;
case 'source':
listenToNonDelegatedEvent('error', domElement);
props = rawProps;
break;
case 'img':
case 'image':
case 'link':
listenToNonDelegatedEvent('error', domElement);
listenToNonDelegatedEvent('load', domElement);
props = rawProps;
break;
case 'details':
listenToNonDelegatedEvent('toggle', domElement);
props = rawProps;
break;
case 'input':
initWrapperState(domElement, rawProps);
props = getHostProps(domElement, rawProps);
listenToNonDelegatedEvent('invalid', domElement);
break;
case 'option':
validateProps(domElement, rawProps);
props = getHostProps$1(domElement, rawProps);
break;
case 'select':
initWrapperState$1(domElement, rawProps);
props = getHostProps$2(domElement, rawProps);
listenToNonDelegatedEvent('invalid', domElement);
break;
case 'textarea':
initWrapperState$2(domElement, rawProps);
props = getHostProps$3(domElement, rawProps);
listenToNonDelegatedEvent('invalid', domElement);
break;
default:
props = rawProps;
}
assertValidProps(tag, props);
setInitialDOMProperties(tag, domElement, rootContainerElement, props, isCustomComponentTag);
switch (tag) {
case 'input':
track(domElement);
postMountWrapper(domElement, rawProps, false);
break;
case 'textarea':
track(domElement);
postMountWrapper$3(domElement);
break;
case 'option':
postMountWrapper$1(domElement, rawProps);
break;
case 'select':
postMountWrapper$2(domElement, rawProps);
break;
default:
if (typeof props.onClick === 'function') {
trapClickOnNonInteractiveElement(domElement);
}
break;
}
}
function diffProperties(domElement, tag, lastRawProps, nextRawProps, rootContainerElement) {
{
validatePropertiesInDevelopment(tag, nextRawProps);
}
var updatePayload = null;
var lastProps;
var nextProps;
switch (tag) {
case 'input':
lastProps = getHostProps(domElement, lastRawProps);
nextProps = getHostProps(domElement, nextRawProps);
updatePayload = [];
break;
case 'option':
lastProps = getHostProps$1(domElement, lastRawProps);
nextProps = getHostProps$1(domElement, nextRawProps);
updatePayload = [];
break;
case 'select':
lastProps = getHostProps$2(domElement, lastRawProps);
nextProps = getHostProps$2(domElement, nextRawProps);
updatePayload = [];
break;
case 'textarea':
lastProps = getHostProps$3(domElement, lastRawProps);
nextProps = getHostProps$3(domElement, nextRawProps);
updatePayload = [];
break;
default:
lastProps = lastRawProps;
nextProps = nextRawProps;
if (typeof lastProps.onClick !== 'function' && typeof nextProps.onClick === 'function') {
trapClickOnNonInteractiveElement(domElement);
}
break;
}
assertValidProps(tag, nextProps);
var propKey;
var styleName;
var styleUpdates = null;
for (propKey in lastProps) {
if (nextProps.hasOwnProperty(propKey) || !lastProps.hasOwnProperty(propKey) || lastProps[propKey] == null) {
continue;
}
if (propKey === STYLE) {
var lastStyle = lastProps[propKey];
for (styleName in lastStyle) {
if (lastStyle.hasOwnProperty(styleName)) {
if (!styleUpdates) {
styleUpdates = {};
}
styleUpdates[styleName] = '';
}
}
} else if (propKey === DANGEROUSLY_SET_INNER_HTML || propKey === CHILDREN) ; else if (propKey === SUPPRESS_CONTENT_EDITABLE_WARNING || propKey === SUPPRESS_HYDRATION_WARNING) ; else if (propKey === AUTOFOCUS) ; else if (registrationNameDependencies.hasOwnProperty(propKey)) {
if (!updatePayload) {
updatePayload = [];
}
} else {
(updatePayload = updatePayload || []).push(propKey, null);
}
}
for (propKey in nextProps) {
var nextProp = nextProps[propKey];
var lastProp = lastProps != null ? lastProps[propKey] : undefined;
if (!nextProps.hasOwnProperty(propKey) || nextProp === lastProp || nextProp == null && lastProp == null) {
continue;
}
if (propKey === STYLE) {
{
if (nextProp) {
Object.freeze(nextProp);
}
}
if (lastProp) {
for (styleName in lastProp) {
if (lastProp.hasOwnProperty(styleName) && (!nextProp || !nextProp.hasOwnProperty(styleName))) {
if (!styleUpdates) {
styleUpdates = {};
}
styleUpdates[styleName] = '';
}
}
for (styleName in nextProp) {
if (nextProp.hasOwnProperty(styleName) && lastProp[styleName] !== nextProp[styleName]) {
if (!styleUpdates) {
styleUpdates = {};
}
styleUpdates[styleName] = nextProp[styleName];
}
}
} else {
if (!styleUpdates) {
if (!updatePayload) {
updatePayload = [];
}
updatePayload.push(propKey, styleUpdates);
}
styleUpdates = nextProp;
}
} else if (propKey === DANGEROUSLY_SET_INNER_HTML) {
var nextHtml = nextProp ? nextProp[HTML$1] : undefined;
var lastHtml = lastProp ? lastProp[HTML$1] : undefined;
if (nextHtml != null) {
if (lastHtml !== nextHtml) {
(updatePayload = updatePayload || []).push(propKey, nextHtml);
}
}
} else if (propKey === CHILDREN) {
if (typeof nextProp === 'string' || typeof nextProp === 'number') {
(updatePayload = updatePayload || []).push(propKey, '' + nextProp);
}
} else if (propKey === SUPPRESS_CONTENT_EDITABLE_WARNING || propKey === SUPPRESS_HYDRATION_WARNING) ; else if (registrationNameDependencies.hasOwnProperty(propKey)) {
if (nextProp != null) {
if ( typeof nextProp !== 'function') {
warnForInvalidEventListener(propKey, nextProp);
}
if (propKey === 'onScroll') {
listenToNonDelegatedEvent('scroll', domElement);
}
}
if (!updatePayload && lastProp !== nextProp) {
updatePayload = [];
}
} else if (typeof nextProp === 'object' && nextProp !== null && nextProp.$$typeof === REACT_OPAQUE_ID_TYPE) {
nextProp.toString();
} else {
(updatePayload = updatePayload || []).push(propKey, nextProp);
}
}
if (styleUpdates) {
{
validateShorthandPropertyCollisionInDev(styleUpdates, nextProps[STYLE]);
}
(updatePayload = updatePayload || []).push(STYLE, styleUpdates);
}
return updatePayload;
}
function updateProperties(domElement, updatePayload, tag, lastRawProps, nextRawProps) {
if (tag === 'input' && nextRawProps.type === 'radio' && nextRawProps.name != null) {
updateChecked(domElement, nextRawProps);
}
var wasCustomComponentTag = isCustomComponent(tag, lastRawProps);
var isCustomComponentTag = isCustomComponent(tag, nextRawProps);
updateDOMProperties(domElement, updatePayload, wasCustomComponentTag, isCustomComponentTag);
switch (tag) {
case 'input':
updateWrapper(domElement, nextRawProps);
break;
case 'textarea':
updateWrapper$1(domElement, nextRawProps);
break;
case 'select':
postUpdateWrapper(domElement, nextRawProps);
break;
}
}
function getPossibleStandardName(propName) {
{
var lowerCasedName = propName.toLowerCase();
if (!possibleStandardNames.hasOwnProperty(lowerCasedName)) {
return null;
}
return possibleStandardNames[lowerCasedName] || null;
}
}
function diffHydratedProperties(domElement, tag, rawProps, parentNamespace, rootContainerElement) {
var isCustomComponentTag;
var extraAttributeNames;
{
suppressHydrationWarning = rawProps[SUPPRESS_HYDRATION_WARNING] === true;
isCustomComponentTag = isCustomComponent(tag, rawProps);
validatePropertiesInDevelopment(tag, rawProps);
}
switch (tag) {
case 'dialog':
listenToNonDelegatedEvent('cancel', domElement);
listenToNonDelegatedEvent('close', domElement);
break;
case 'iframe':
case 'object':
case 'embed':
listenToNonDelegatedEvent('load', domElement);
break;
case 'video':
case 'audio':
for (var i = 0; i < mediaEventTypes.length; i++) {
listenToNonDelegatedEvent(mediaEventTypes[i], domElement);
}
break;
case 'source':
listenToNonDelegatedEvent('error', domElement);
break;
case 'img':
case 'image':
case 'link':
listenToNonDelegatedEvent('error', domElement);
listenToNonDelegatedEvent('load', domElement);
break;
case 'details':
listenToNonDelegatedEvent('toggle', domElement);
break;
case 'input':
initWrapperState(domElement, rawProps);
listenToNonDelegatedEvent('invalid', domElement);
break;
case 'option':
validateProps(domElement, rawProps);
break;
case 'select':
initWrapperState$1(domElement, rawProps);
listenToNonDelegatedEvent('invalid', domElement);
break;
case 'textarea':
initWrapperState$2(domElement, rawProps);
listenToNonDelegatedEvent('invalid', domElement);
break;
}
assertValidProps(tag, rawProps);
{
extraAttributeNames = new Set();
var attributes = domElement.attributes;
for (var _i = 0; _i < attributes.length; _i++) {
var name = attributes[_i].name.toLowerCase();
switch (name) {
case 'data-reactroot':
break;
case 'value':
break;
case 'checked':
break;
case 'selected':
break;
default:
extraAttributeNames.add(attributes[_i].name);
}
}
}
var updatePayload = null;
for (var propKey in rawProps) {
if (!rawProps.hasOwnProperty(propKey)) {
continue;
}
var nextProp = rawProps[propKey];
if (propKey === CHILDREN) {
if (typeof nextProp === 'string') {
if (domElement.textContent !== nextProp) {
if ( !suppressHydrationWarning) {
warnForTextDifference(domElement.textContent, nextProp);
}
updatePayload = [CHILDREN, nextProp];
}
} else if (typeof nextProp === 'number') {
if (domElement.textContent !== '' + nextProp) {
if ( !suppressHydrationWarning) {
warnForTextDifference(domElement.textContent, nextProp);
}
updatePayload = [CHILDREN, '' + nextProp];
}
}
} else if (registrationNameDependencies.hasOwnProperty(propKey)) {
if (nextProp != null) {
if ( typeof nextProp !== 'function') {
warnForInvalidEventListener(propKey, nextProp);
}
if (propKey === 'onScroll') {
listenToNonDelegatedEvent('scroll', domElement);
}
}
} else if (
typeof isCustomComponentTag === 'boolean') {
var serverValue = void 0;
var propertyInfo = getPropertyInfo(propKey);
if (suppressHydrationWarning) ; else if (propKey === SUPPRESS_CONTENT_EDITABLE_WARNING || propKey === SUPPRESS_HYDRATION_WARNING ||
propKey === 'value' || propKey === 'checked' || propKey === 'selected') ; else if (propKey === DANGEROUSLY_SET_INNER_HTML) {
var serverHTML = domElement.innerHTML;
var nextHtml = nextProp ? nextProp[HTML$1] : undefined;
if (nextHtml != null) {
var expectedHTML = normalizeHTML(domElement, nextHtml);
if (expectedHTML !== serverHTML) {
warnForPropDifference(propKey, serverHTML, expectedHTML);
}
}
} else if (propKey === STYLE) {
extraAttributeNames.delete(propKey);
if (canDiffStyleForHydrationWarning) {
var expectedStyle = createDangerousStringForStyles(nextProp);
serverValue = domElement.getAttribute('style');
if (expectedStyle !== serverValue) {
warnForPropDifference(propKey, serverValue, expectedStyle);
}
}
} else if (isCustomComponentTag) {
extraAttributeNames.delete(propKey.toLowerCase());
serverValue = getValueForAttribute(domElement, propKey, nextProp);
if (nextProp !== serverValue) {
warnForPropDifference(propKey, serverValue, nextProp);
}
} else if (!shouldIgnoreAttribute(propKey, propertyInfo, isCustomComponentTag) && !shouldRemoveAttribute(propKey, nextProp, propertyInfo, isCustomComponentTag)) {
var isMismatchDueToBadCasing = false;
if (propertyInfo !== null) {
extraAttributeNames.delete(propertyInfo.attributeName);
serverValue = getValueForProperty(domElement, propKey, nextProp, propertyInfo);
} else {
var ownNamespace = parentNamespace;
if (ownNamespace === HTML_NAMESPACE$1) {
ownNamespace = getIntrinsicNamespace(tag);
}
if (ownNamespace === HTML_NAMESPACE$1) {
extraAttributeNames.delete(propKey.toLowerCase());
} else {
var standardName = getPossibleStandardName(propKey);
if (standardName !== null && standardName !== propKey) {
isMismatchDueToBadCasing = true;
extraAttributeNames.delete(standardName);
}
extraAttributeNames.delete(propKey);
}
serverValue = getValueForAttribute(domElement, propKey, nextProp);
}
if (nextProp !== serverValue && !isMismatchDueToBadCasing) {
warnForPropDifference(propKey, serverValue, nextProp);
}
}
}
}
{
if (extraAttributeNames.size > 0 && !suppressHydrationWarning) {
warnForExtraAttributes(extraAttributeNames);
}
}
switch (tag) {
case 'input':
track(domElement);
postMountWrapper(domElement, rawProps, true);
break;
case 'textarea':
track(domElement);
postMountWrapper$3(domElement);
break;
case 'select':
case 'option':
break;
default:
if (typeof rawProps.onClick === 'function') {
trapClickOnNonInteractiveElement(domElement);
}
break;
}
return updatePayload;
}
function diffHydratedText(textNode, text) {
var isDifferent = textNode.nodeValue !== text;
return isDifferent;
}
function warnForUnmatchedText(textNode, text) {
{
warnForTextDifference(textNode.nodeValue, text);
}
}
function warnForDeletedHydratableElement(parentNode, child) {
{
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
error('Did not expect server HTML to contain a <%s> in <%s>.', child.nodeName.toLowerCase(), parentNode.nodeName.toLowerCase());
}
}
function warnForDeletedHydratableText(parentNode, child) {
{
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
error('Did not expect server HTML to contain the text node "%s" in <%s>.', child.nodeValue, parentNode.nodeName.toLowerCase());
}
}
function warnForInsertedHydratedElement(parentNode, tag, props) {
{
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
error('Expected server HTML to contain a matching <%s> in <%s>.', tag, parentNode.nodeName.toLowerCase());
}
}
function warnForInsertedHydratedText(parentNode, text) {
{
if (text === '') {
return;
}
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
error('Expected server HTML to contain a matching text node for "%s" in <%s>.', text, parentNode.nodeName.toLowerCase());
}
}
function restoreControlledState$3(domElement, tag, props) {
switch (tag) {
case 'input':
restoreControlledState(domElement, props);
return;
case 'textarea':
restoreControlledState$2(domElement, props);
return;
case 'select':
restoreControlledState$1(domElement, props);
return;
}
}
var validateDOMNesting = function () {};
var updatedAncestorInfo = function () {};
{
var specialTags = ['address', 'applet', 'area', 'article', 'aside', 'base', 'basefont', 'bgsound', 'blockquote', 'body', 'br', 'button', 'caption', 'center', 'col', 'colgroup', 'dd', 'details', 'dir', 'div', 'dl', 'dt', 'embed', 'fieldset', 'figcaption', 'figure', 'footer', 'form', 'frame', 'frameset', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'head', 'header', 'hgroup', 'hr', 'html', 'iframe', 'img', 'input', 'isindex', 'li', 'link', 'listing', 'main', 'marquee', 'menu', 'menuitem', 'meta', 'nav', 'noembed', 'noframes', 'noscript', 'object', 'ol', 'p', 'param', 'plaintext', 'pre', 'script', 'section', 'select', 'source', 'style', 'summary', 'table', 'tbody', 'td', 'template', 'textarea', 'tfoot', 'th', 'thead', 'title', 'tr', 'track', 'ul', 'wbr', 'xmp'];
var inScopeTags = ['applet', 'caption', 'html', 'table', 'td', 'th', 'marquee', 'object', 'template',
'foreignObject', 'desc', 'title'];
var buttonScopeTags = inScopeTags.concat(['button']);
var impliedEndTags = ['dd', 'dt', 'li', 'option', 'optgroup', 'p', 'rp', 'rt'];
var emptyAncestorInfo = {
current: null,
formTag: null,
aTagInScope: null,
buttonTagInScope: null,
nobrTagInScope: null,
pTagInButtonScope: null,
listItemTagAutoclosing: null,
dlItemTagAutoclosing: null
};
updatedAncestorInfo = function (oldInfo, tag) {
var ancestorInfo = _assign({}, oldInfo || emptyAncestorInfo);
var info = {
tag: tag
};
if (inScopeTags.indexOf(tag) !== -1) {
ancestorInfo.aTagInScope = null;
ancestorInfo.buttonTagInScope = null;
ancestorInfo.nobrTagInScope = null;
}
if (buttonScopeTags.indexOf(tag) !== -1) {
ancestorInfo.pTagInButtonScope = null;
}
if (specialTags.indexOf(tag) !== -1 && tag !== 'address' && tag !== 'div' && tag !== 'p') {
ancestorInfo.listItemTagAutoclosing = null;
ancestorInfo.dlItemTagAutoclosing = null;
}
ancestorInfo.current = info;
if (tag === 'form') {
ancestorInfo.formTag = info;
}
if (tag === 'a') {
ancestorInfo.aTagInScope = info;
}
if (tag === 'button') {
ancestorInfo.buttonTagInScope = info;
}
if (tag === 'nobr') {
ancestorInfo.nobrTagInScope = info;
}
if (tag === 'p') {
ancestorInfo.pTagInButtonScope = info;
}
if (tag === 'li') {
ancestorInfo.listItemTagAutoclosing = info;
}
if (tag === 'dd' || tag === 'dt') {
ancestorInfo.dlItemTagAutoclosing = info;
}
return ancestorInfo;
};
var isTagValidWithParent = function (tag, parentTag) {
switch (parentTag) {
case 'select':
return tag === 'option' || tag === 'optgroup' || tag === '#text';
case 'optgroup':
return tag === 'option' || tag === '#text';
case 'option':
return tag === '#text';
case 'tr':
return tag === 'th' || tag === 'td' || tag === 'style' || tag === 'script' || tag === 'template';
case 'tbody':
case 'thead':
case 'tfoot':
return tag === 'tr' || tag === 'style' || tag === 'script' || tag === 'template';
case 'colgroup':
return tag === 'col' || tag === 'template';
case 'table':
return tag === 'caption' || tag === 'colgroup' || tag === 'tbody' || tag === 'tfoot' || tag === 'thead' || tag === 'style' || tag === 'script' || tag === 'template';
case 'head':
return tag === 'base' || tag === 'basefont' || tag === 'bgsound' || tag === 'link' || tag === 'meta' || tag === 'title' || tag === 'noscript' || tag === 'noframes' || tag === 'style' || tag === 'script' || tag === 'template';
case 'html':
return tag === 'head' || tag === 'body' || tag === 'frameset';
case 'frameset':
return tag === 'frame';
case '#document':
return tag === 'html';
}
switch (tag) {
case 'h1':
case 'h2':
case 'h3':
case 'h4':
case 'h5':
case 'h6':
return parentTag !== 'h1' && parentTag !== 'h2' && parentTag !== 'h3' && parentTag !== 'h4' && parentTag !== 'h5' && parentTag !== 'h6';
case 'rp':
case 'rt':
return impliedEndTags.indexOf(parentTag) === -1;
case 'body':
case 'caption':
case 'col':
case 'colgroup':
case 'frameset':
case 'frame':
case 'head':
case 'html':
case 'tbody':
case 'td':
case 'tfoot':
case 'th':
case 'thead':
case 'tr':
return parentTag == null;
}
return true;
};
var findInvalidAncestorForTag = function (tag, ancestorInfo) {
switch (tag) {
case 'address':
case 'article':
case 'aside':
case 'blockquote':
case 'center':
case 'details':
case 'dialog':
case 'dir':
case 'div':
case 'dl':
case 'fieldset':
case 'figcaption':
case 'figure':
case 'footer':
case 'header':
case 'hgroup':
case 'main':
case 'menu':
case 'nav':
case 'ol':
case 'p':
case 'section':
case 'summary':
case 'ul':
case 'pre':
case 'listing':
case 'table':
case 'hr':
case 'xmp':
case 'h1':
case 'h2':
case 'h3':
case 'h4':
case 'h5':
case 'h6':
return ancestorInfo.pTagInButtonScope;
case 'form':
return ancestorInfo.formTag || ancestorInfo.pTagInButtonScope;
case 'li':
return ancestorInfo.listItemTagAutoclosing;
case 'dd':
case 'dt':
return ancestorInfo.dlItemTagAutoclosing;
case 'button':
return ancestorInfo.buttonTagInScope;
case 'a':
return ancestorInfo.aTagInScope;
case 'nobr':
return ancestorInfo.nobrTagInScope;
}
return null;
};
var didWarn$1 = {};
validateDOMNesting = function (childTag, childText, ancestorInfo) {
ancestorInfo = ancestorInfo || emptyAncestorInfo;
var parentInfo = ancestorInfo.current;
var parentTag = parentInfo && parentInfo.tag;
if (childText != null) {
if (childTag != null) {
error('validateDOMNesting: when childText is passed, childTag should be null');
}
childTag = '#text';
}
var invalidParent = isTagValidWithParent(childTag, parentTag) ? null : parentInfo;
var invalidAncestor = invalidParent ? null : findInvalidAncestorForTag(childTag, ancestorInfo);
var invalidParentOrAncestor = invalidParent || invalidAncestor;
if (!invalidParentOrAncestor) {
return;
}
var ancestorTag = invalidParentOrAncestor.tag;
var warnKey = !!invalidParent + '|' + childTag + '|' + ancestorTag;
if (didWarn$1[warnKey]) {
return;
}
didWarn$1[warnKey] = true;
var tagDisplayName = childTag;
var whitespaceInfo = '';
if (childTag === '#text') {
if (/\S/.test(childText)) {
tagDisplayName = 'Text nodes';
} else {
tagDisplayName = 'Whitespace text nodes';
whitespaceInfo = " Make sure you don't have any extra whitespace between tags on " + 'each line of your source code.';
}
} else {
tagDisplayName = '<' + childTag + '>';
}
if (invalidParent) {
var info = '';
if (ancestorTag === 'table' && childTag === 'tr') {
info += ' Add a <tbody>, <thead> or <tfoot> to your code to match the DOM tree generated by ' + 'the browser.';
}
error('validateDOMNesting(...): %s cannot appear as a child of <%s>.%s%s', tagDisplayName, ancestorTag, whitespaceInfo, info);
} else {
error('validateDOMNesting(...): %s cannot appear as a descendant of ' + '<%s>.', tagDisplayName, ancestorTag);
}
};
}
var SUPPRESS_HYDRATION_WARNING$1;
{
SUPPRESS_HYDRATION_WARNING$1 = 'suppressHydrationWarning';
}
var SUSPENSE_START_DATA = '$';
var SUSPENSE_END_DATA = '/$';
var SUSPENSE_PENDING_START_DATA = '$?';
var SUSPENSE_FALLBACK_START_DATA = '$!';
var STYLE$1 = 'style';
var eventsEnabled = null;
var selectionInformation = null;
function shouldAutoFocusHostComponent(type, props) {
switch (type) {
case 'button':
case 'input':
case 'select':
case 'textarea':
return !!props.autoFocus;
}
return false;
}
function getRootHostContext(rootContainerInstance) {
var type;
var namespace;
var nodeType = rootContainerInstance.nodeType;
switch (nodeType) {
case DOCUMENT_NODE:
case DOCUMENT_FRAGMENT_NODE:
{
type = nodeType === DOCUMENT_NODE ? '#document' : '#fragment';
var root = rootContainerInstance.documentElement;
namespace = root ? root.namespaceURI : getChildNamespace(null, '');
break;
}
default:
{
var container = nodeType === COMMENT_NODE ? rootContainerInstance.parentNode : rootContainerInstance;
var ownNamespace = container.namespaceURI || null;
type = container.tagName;
namespace = getChildNamespace(ownNamespace, type);
break;
}
}
{
var validatedTag = type.toLowerCase();
var ancestorInfo = updatedAncestorInfo(null, validatedTag);
return {
namespace: namespace,
ancestorInfo: ancestorInfo
};
}
}
function getChildHostContext(parentHostContext, type, rootContainerInstance) {
{
var parentHostContextDev = parentHostContext;
var namespace = getChildNamespace(parentHostContextDev.namespace, type);
var ancestorInfo = updatedAncestorInfo(parentHostContextDev.ancestorInfo, type);
return {
namespace: namespace,
ancestorInfo: ancestorInfo
};
}
}
function getPublicInstance(instance) {
return instance;
}
function prepareForCommit(containerInfo) {
eventsEnabled = isEnabled();
selectionInformation = getSelectionInformation();
var activeInstance = null;
setEnabled(false);
return activeInstance;
}
function resetAfterCommit(containerInfo) {
restoreSelection(selectionInformation);
setEnabled(eventsEnabled);
eventsEnabled = null;
selectionInformation = null;
}
function createInstance(type, props, rootContainerInstance, hostContext, internalInstanceHandle) {
var parentNamespace;
{
var hostContextDev = hostContext;
validateDOMNesting(type, null, hostContextDev.ancestorInfo);
if (typeof props.children === 'string' || typeof props.children === 'number') {
var string = '' + props.children;
var ownAncestorInfo = updatedAncestorInfo(hostContextDev.ancestorInfo, type);
validateDOMNesting(null, string, ownAncestorInfo);
}
parentNamespace = hostContextDev.namespace;
}
var domElement = createElement(type, props, rootContainerInstance, parentNamespace);
precacheFiberNode(internalInstanceHandle, domElement);
updateFiberProps(domElement, props);
return domElement;
}
function appendInitialChild(parentInstance, child) {
parentInstance.appendChild(child);
}
function finalizeInitialChildren(domElement, type, props, rootContainerInstance, hostContext) {
setInitialProperties(domElement, type, props, rootContainerInstance);
return shouldAutoFocusHostComponent(type, props);
}
function prepareUpdate(domElement, type, oldProps, newProps, rootContainerInstance, hostContext) {
{
var hostContextDev = hostContext;
if (typeof newProps.children !== typeof oldProps.children && (typeof newProps.children === 'string' || typeof newProps.children === 'number')) {
var string = '' + newProps.children;
var ownAncestorInfo = updatedAncestorInfo(hostContextDev.ancestorInfo, type);
validateDOMNesting(null, string, ownAncestorInfo);
}
}
return diffProperties(domElement, type, oldProps, newProps);
}
function shouldSetTextContent(type, props) {
return type === 'textarea' || type === 'option' || type === 'noscript' || typeof props.children === 'string' || typeof props.children === 'number' || typeof props.dangerouslySetInnerHTML === 'object' && props.dangerouslySetInnerHTML !== null && props.dangerouslySetInnerHTML.__html != null;
}
function createTextInstance(text, rootContainerInstance, hostContext, internalInstanceHandle) {
{
var hostContextDev = hostContext;
validateDOMNesting(null, text, hostContextDev.ancestorInfo);
}
var textNode = createTextNode(text, rootContainerInstance);
precacheFiberNode(internalInstanceHandle, textNode);
return textNode;
}
var scheduleTimeout = typeof setTimeout === 'function' ? setTimeout : undefined;
var cancelTimeout = typeof clearTimeout === 'function' ? clearTimeout : undefined;
var noTimeout = -1;
function commitMount(domElement, type, newProps, internalInstanceHandle) {
if (shouldAutoFocusHostComponent(type, newProps)) {
domElement.focus();
}
}
function commitUpdate(domElement, updatePayload, type, oldProps, newProps, internalInstanceHandle) {
updateFiberProps(domElement, newProps);
updateProperties(domElement, updatePayload, type, oldProps, newProps);
}
function resetTextContent(domElement) {
setTextContent(domElement, '');
}
function commitTextUpdate(textInstance, oldText, newText) {
textInstance.nodeValue = newText;
}
function appendChild(parentInstance, child) {
parentInstance.appendChild(child);
}
function appendChildToContainer(container, child) {
var parentNode;
if (container.nodeType === COMMENT_NODE) {
parentNode = container.parentNode;
parentNode.insertBefore(child, container);
} else {
parentNode = container;
parentNode.appendChild(child);
}
var reactRootContainer = container._reactRootContainer;
if ((reactRootContainer === null || reactRootContainer === undefined) && parentNode.onclick === null) {
trapClickOnNonInteractiveElement(parentNode);
}
}
function insertBefore(parentInstance, child, beforeChild) {
parentInstance.insertBefore(child, beforeChild);
}
function insertInContainerBefore(container, child, beforeChild) {
if (container.nodeType === COMMENT_NODE) {
container.parentNode.insertBefore(child, beforeChild);
} else {
container.insertBefore(child, beforeChild);
}
}
function removeChild(parentInstance, child) {
parentInstance.removeChild(child);
}
function removeChildFromContainer(container, child) {
if (container.nodeType === COMMENT_NODE) {
container.parentNode.removeChild(child);
} else {
container.removeChild(child);
}
}
function hideInstance(instance) {
instance = instance;
var style = instance.style;
if (typeof style.setProperty === 'function') {
style.setProperty('display', 'none', 'important');
} else {
style.display = 'none';
}
}
function hideTextInstance(textInstance) {
textInstance.nodeValue = '';
}
function unhideInstance(instance, props) {
instance = instance;
var styleProp = props[STYLE$1];
var display = styleProp !== undefined && styleProp !== null && styleProp.hasOwnProperty('display') ? styleProp.display : null;
instance.style.display = dangerousStyleValue('display', display);
}
function unhideTextInstance(textInstance, text) {
textInstance.nodeValue = text;
}
function clearContainer(container) {
if (container.nodeType === ELEMENT_NODE) {
container.textContent = '';
} else if (container.nodeType === DOCUMENT_NODE) {
var body = container.body;
if (body != null) {
body.textContent = '';
}
}
}
function canHydrateInstance(instance, type, props) {
if (instance.nodeType !== ELEMENT_NODE || type.toLowerCase() !== instance.nodeName.toLowerCase()) {
return null;
}
return instance;
}
function canHydrateTextInstance(instance, text) {
if (text === '' || instance.nodeType !== TEXT_NODE) {
return null;
}
return instance;
}
function isSuspenseInstancePending(instance) {
return instance.data === SUSPENSE_PENDING_START_DATA;
}
function isSuspenseInstanceFallback(instance) {
return instance.data === SUSPENSE_FALLBACK_START_DATA;
}
function getNextHydratable(node) {
for (; node != null; node = node.nextSibling) {
var nodeType = node.nodeType;
if (nodeType === ELEMENT_NODE || nodeType === TEXT_NODE) {
break;
}
}
return node;
}
function getNextHydratableSibling(instance) {
return getNextHydratable(instance.nextSibling);
}
function getFirstHydratableChild(parentInstance) {
return getNextHydratable(parentInstance.firstChild);
}
function hydrateInstance(instance, type, props, rootContainerInstance, hostContext, internalInstanceHandle) {
precacheFiberNode(internalInstanceHandle, instance);
updateFiberProps(instance, props);
var parentNamespace;
{
var hostContextDev = hostContext;
parentNamespace = hostContextDev.namespace;
}
return diffHydratedProperties(instance, type, props, parentNamespace);
}
function hydrateTextInstance(textInstance, text, internalInstanceHandle) {
precacheFiberNode(internalInstanceHandle, textInstance);
return diffHydratedText(textInstance, text);
}
function getNextHydratableInstanceAfterSuspenseInstance(suspenseInstance) {
var node = suspenseInstance.nextSibling;
var depth = 0;
while (node) {
if (node.nodeType === COMMENT_NODE) {
var data = node.data;
if (data === SUSPENSE_END_DATA) {
if (depth === 0) {
return getNextHydratableSibling(node);
} else {
depth--;
}
} else if (data === SUSPENSE_START_DATA || data === SUSPENSE_FALLBACK_START_DATA || data === SUSPENSE_PENDING_START_DATA) {
depth++;
}
}
node = node.nextSibling;
}
return null;
}
function getParentSuspenseInstance(targetInstance) {
var node = targetInstance.previousSibling;
var depth = 0;
while (node) {
if (node.nodeType === COMMENT_NODE) {
var data = node.data;
if (data === SUSPENSE_START_DATA || data === SUSPENSE_FALLBACK_START_DATA || data === SUSPENSE_PENDING_START_DATA) {
if (depth === 0) {
return node;
} else {
depth--;
}
} else if (data === SUSPENSE_END_DATA) {
depth++;
}
}
node = node.previousSibling;
}
return null;
}
function commitHydratedContainer(container) {
retryIfBlockedOn(container);
}
function commitHydratedSuspenseInstance(suspenseInstance) {
retryIfBlockedOn(suspenseInstance);
}
function didNotMatchHydratedContainerTextInstance(parentContainer, textInstance, text) {
{
warnForUnmatchedText(textInstance, text);
}
}
function didNotMatchHydratedTextInstance(parentType, parentProps, parentInstance, textInstance, text) {
if ( parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) {
warnForUnmatchedText(textInstance, text);
}
}
function didNotHydrateContainerInstance(parentContainer, instance) {
{
if (instance.nodeType === ELEMENT_NODE) {
warnForDeletedHydratableElement(parentContainer, instance);
} else if (instance.nodeType === COMMENT_NODE) ; else {
warnForDeletedHydratableText(parentContainer, instance);
}
}
}
function didNotHydrateInstance(parentType, parentProps, parentInstance, instance) {
if ( parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) {
if (instance.nodeType === ELEMENT_NODE) {
warnForDeletedHydratableElement(parentInstance, instance);
} else if (instance.nodeType === COMMENT_NODE) ; else {
warnForDeletedHydratableText(parentInstance, instance);
}
}
}
function didNotFindHydratableContainerInstance(parentContainer, type, props) {
{
warnForInsertedHydratedElement(parentContainer, type);
}
}
function didNotFindHydratableContainerTextInstance(parentContainer, text) {
{
warnForInsertedHydratedText(parentContainer, text);
}
}
function didNotFindHydratableInstance(parentType, parentProps, parentInstance, type, props) {
if ( parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) {
warnForInsertedHydratedElement(parentInstance, type);
}
}
function didNotFindHydratableTextInstance(parentType, parentProps, parentInstance, text) {
if ( parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) {
warnForInsertedHydratedText(parentInstance, text);
}
}
function didNotFindHydratableSuspenseInstance(parentType, parentProps, parentInstance) {
if ( parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) ;
}
var clientId = 0;
function makeClientIdInDEV(warnOnAccessInDEV) {
var id = 'r:' + (clientId++).toString(36);
return {
toString: function () {
warnOnAccessInDEV();
return id;
},
valueOf: function () {
warnOnAccessInDEV();
return id;
}
};
}
function isOpaqueHydratingObject(value) {
return value !== null && typeof value === 'object' && value.$$typeof === REACT_OPAQUE_ID_TYPE;
}
function makeOpaqueHydratingObject(attemptToReadValue) {
return {
$$typeof: REACT_OPAQUE_ID_TYPE,
toString: attemptToReadValue,
valueOf: attemptToReadValue
};
}
function preparePortalMount(portalInstance) {
{
listenToAllSupportedEvents(portalInstance);
}
}
var randomKey = Math.random().toString(36).slice(2);
var internalInstanceKey = '__reactFiber$' + randomKey;
var internalPropsKey = '__reactProps$' + randomKey;
var internalContainerInstanceKey = '__reactContainer$' + randomKey;
var internalEventHandlersKey = '__reactEvents$' + randomKey;
function precacheFiberNode(hostInst, node) {
node[internalInstanceKey] = hostInst;
}
function markContainerAsRoot(hostRoot, node) {
node[internalContainerInstanceKey] = hostRoot;
}
function unmarkContainerAsRoot(node) {
node[internalContainerInstanceKey] = null;
}
function isContainerMarkedAsRoot(node) {
return !!node[internalContainerInstanceKey];
}
function getClosestInstanceFromNode(targetNode) {
var targetInst = targetNode[internalInstanceKey];
if (targetInst) {
return targetInst;
}
var parentNode = targetNode.parentNode;
while (parentNode) {
targetInst = parentNode[internalContainerInstanceKey] || parentNode[internalInstanceKey];
if (targetInst) {
var alternate = targetInst.alternate;
if (targetInst.child !== null || alternate !== null && alternate.child !== null) {
var suspenseInstance = getParentSuspenseInstance(targetNode);
while (suspenseInstance !== null) {
var targetSuspenseInst = suspenseInstance[internalInstanceKey];
if (targetSuspenseInst) {
return targetSuspenseInst;
}
suspenseInstance = getParentSuspenseInstance(suspenseInstance);
}
}
return targetInst;
}
targetNode = parentNode;
parentNode = targetNode.parentNode;
}
return null;
}
function getInstanceFromNode(node) {
var inst = node[internalInstanceKey] || node[internalContainerInstanceKey];
if (inst) {
if (inst.tag === HostComponent || inst.tag === HostText || inst.tag === SuspenseComponent || inst.tag === HostRoot) {
return inst;
} else {
return null;
}
}
return null;
}
function getNodeFromInstance(inst) {
if (inst.tag === HostComponent || inst.tag === HostText) {
return inst.stateNode;
}
{
{
throw Error( "getNodeFromInstance: Invalid argument." );
}
}
}
function getFiberCurrentPropsFromNode(node) {
return node[internalPropsKey] || null;
}
function updateFiberProps(node, props) {
node[internalPropsKey] = props;
}
function getEventListenerSet(node) {
var elementListenerSet = node[internalEventHandlersKey];
if (elementListenerSet === undefined) {
elementListenerSet = node[internalEventHandlersKey] = new Set();
}
return elementListenerSet;
}
var loggedTypeFailures = {};
var ReactDebugCurrentFrame$1 = ReactSharedInternals.ReactDebugCurrentFrame;
function setCurrentlyValidatingElement(element) {
{
if (element) {
var owner = element._owner;
var stack = describeUnknownElementTypeFrameInDEV(element.type, element._source, owner ? owner.type : null);
ReactDebugCurrentFrame$1.setExtraStackFrame(stack);
} else {
ReactDebugCurrentFrame$1.setExtraStackFrame(null);
}
}
}
function checkPropTypes(typeSpecs, values, location, componentName, element) {
{
var has = Function.call.bind(Object.prototype.hasOwnProperty);
for (var typeSpecName in typeSpecs) {
if (has(typeSpecs, typeSpecName)) {
var error$1 = void 0;
try {
if (typeof typeSpecs[typeSpecName] !== 'function') {
var err = Error((componentName || 'React class') + ': ' + location + ' type `' + typeSpecName + '` is invalid; ' + 'it must be a function, usually from the `prop-types` package, but received `' + typeof typeSpecs[typeSpecName] + '`.' + 'This often happens because of typos such as `PropTypes.function` instead of `PropTypes.func`.');
err.name = 'Invariant Violation';
throw err;
}
error$1 = typeSpecs[typeSpecName](values, typeSpecName, componentName, location, null, 'SECRET_DO_NOT_PASS_THIS_OR_YOU_WILL_BE_FIRED');
} catch (ex) {
error$1 = ex;
}
if (error$1 && !(error$1 instanceof Error)) {
setCurrentlyValidatingElement(element);
error('%s: type specification of %s' + ' `%s` is invalid; the type checker ' + 'function must return `null` or an `Error` but returned a %s. ' + 'You may have forgotten to pass an argument to the type checker ' + 'creator (arrayOf, instanceOf, objectOf, oneOf, oneOfType, and ' + 'shape all require an argument).', componentName || 'React class', location, typeSpecName, typeof error$1);
setCurrentlyValidatingElement(null);
}
if (error$1 instanceof Error && !(error$1.message in loggedTypeFailures)) {
loggedTypeFailures[error$1.message] = true;
setCurrentlyValidatingElement(element);
error('Failed %s type: %s', location, error$1.message);
setCurrentlyValidatingElement(null);
}
}
}
}
}
var valueStack = [];
var fiberStack;
{
fiberStack = [];
}
var index = -1;
function createCursor(defaultValue) {
return {
current: defaultValue
};
}
function pop(cursor, fiber) {
if (index < 0) {
{
error('Unexpected pop.');
}
return;
}
{
if (fiber !== fiberStack[index]) {
error('Unexpected Fiber popped.');
}
}
cursor.current = valueStack[index];
valueStack[index] = null;
{
fiberStack[index] = null;
}
index--;
}
function push(cursor, value, fiber) {
index++;
valueStack[index] = cursor.current;
{
fiberStack[index] = fiber;
}
cursor.current = value;
}
var warnedAboutMissingGetChildContext;
{
warnedAboutMissingGetChildContext = {};
}
var emptyContextObject = {};
{
Object.freeze(emptyContextObject);
}
var contextStackCursor = createCursor(emptyContextObject);
var didPerformWorkStackCursor = createCursor(false);
var previousContext = emptyContextObject;
function getUnmaskedContext(workInProgress, Component, didPushOwnContextIfProvider) {
{
if (didPushOwnContextIfProvider && isContextProvider(Component)) {
return previousContext;
}
return contextStackCursor.current;
}
}
function cacheContext(workInProgress, unmaskedContext, maskedContext) {
{
var instance = workInProgress.stateNode;
instance.__reactInternalMemoizedUnmaskedChildContext = unmaskedContext;
instance.__reactInternalMemoizedMaskedChildContext = maskedContext;
}
}
function getMaskedContext(workInProgress, unmaskedContext) {
{
var type = workInProgress.type;
var contextTypes = type.contextTypes;
if (!contextTypes) {
return emptyContextObject;
}
var instance = workInProgress.stateNode;
if (instance && instance.__reactInternalMemoizedUnmaskedChildContext === unmaskedContext) {
return instance.__reactInternalMemoizedMaskedChildContext;
}
var context = {};
for (var key in contextTypes) {
context[key] = unmaskedContext[key];
}
{
var name = getComponentName(type) || 'Unknown';
checkPropTypes(contextTypes, context, 'context', name);
}
if (instance) {
cacheContext(workInProgress, unmaskedContext, context);
}
return context;
}
}
function hasContextChanged() {
{
return didPerformWorkStackCursor.current;
}
}
function isContextProvider(type) {
{
var childContextTypes = type.childContextTypes;
return childContextTypes !== null && childContextTypes !== undefined;
}
}
function popContext(fiber) {
{
pop(didPerformWorkStackCursor, fiber);
pop(contextStackCursor, fiber);
}
}
function popTopLevelContextObject(fiber) {
{
pop(didPerformWorkStackCursor, fiber);
pop(contextStackCursor, fiber);
}
}
function pushTopLevelContextObject(fiber, context, didChange) {
{
if (!(contextStackCursor.current === emptyContextObject)) {
{
throw Error( "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, type, parentContext) {
{
var instance = fiber.stateNode;
var childContextTypes = type.childContextTypes;
if (typeof instance.getChildContext !== 'function') {
{
var componentName = getComponentName(type) || 'Unknown';
if (!warnedAboutMissingGetChildContext[componentName]) {
warnedAboutMissingGetChildContext[componentName] = true;
error('%s.childContextTypes is specified but there is no getChildContext() method ' + 'on the instance. You can either define getChildContext() on %s or remove ' + 'childContextTypes from it.', componentName, componentName);
}
}
return parentContext;
}
var childContext = instance.getChildContext();
for (var contextKey in childContext) {
if (!(contextKey in childContextTypes)) {
{
throw Error( (getComponentName(type) || 'Unknown') + ".getChildContext(): key \"" + contextKey + "\" is not defined in childContextTypes." );
}
}
}
{
var name = getComponentName(type) || 'Unknown';
checkPropTypes(childContextTypes, childContext, 'child context', name);
}
return _assign({}, parentContext, childContext);
}
}
function pushContextProvider(workInProgress) {
{
var instance = workInProgress.stateNode;
var memoizedMergedChildContext = instance && instance.__reactInternalMemoizedMergedChildContext || emptyContextObject;
previousContext = contextStackCursor.current;
push(contextStackCursor, memoizedMergedChildContext, workInProgress);
push(didPerformWorkStackCursor, didPerformWorkStackCursor.current, workInProgress);
return true;
}
}
function invalidateContextProvider(workInProgress, type, didChange) {
{
var instance = workInProgress.stateNode;
if (!instance) {
{
throw Error( "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, type, previousContext);
instance.__reactInternalMemoizedMergedChildContext = mergedContext;
pop(didPerformWorkStackCursor, workInProgress);
pop(contextStackCursor, workInProgress);
push(contextStackCursor, mergedContext, workInProgress);
push(didPerformWorkStackCursor, didChange, workInProgress);
} else {
pop(didPerformWorkStackCursor, workInProgress);
push(didPerformWorkStackCursor, didChange, workInProgress);
}
}
}
function findCurrentUnmaskedContext(fiber) {
{
if (!(isFiberMounted(fiber) && fiber.tag === ClassComponent)) {
{
throw Error( "Expected subtree parent to be a mounted class component. This error is likely caused by a bug in React. Please file an issue." );
}
}
var node = fiber;
do {
switch (node.tag) {
case HostRoot:
return node.stateNode.context;
case ClassComponent:
{
var Component = node.type;
if (isContextProvider(Component)) {
return node.stateNode.__reactInternalMemoizedMergedChildContext;
}
break;
}
}
node = node.return;
} while (node !== null);
{
{
throw Error( "Found unexpected detached subtree parent. This error is likely caused by a bug in React. Please file an issue." );
}
}
}
}
var LegacyRoot = 0;
var BlockingRoot = 1;
var ConcurrentRoot = 2;
var rendererID = null;
var injectedHook = null;
var hasLoggedError = false;
var isDevToolsPresent = typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ !== 'undefined';
function injectInternals(internals) {
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ === 'undefined') {
return false;
}
var hook = __REACT_DEVTOOLS_GLOBAL_HOOK__;
if (hook.isDisabled) {
return true;
}
if (!hook.supportsFiber) {
{
error('The installed version of React DevTools is too old and will not work ' + 'with the current version of React. Please update React DevTools. ' + 'https://reactjs.org/link/react-devtools');
}
return true;
}
try {
rendererID = hook.inject(internals);
injectedHook = hook;
} catch (err) {
{
error('React instrumentation encountered an error: %s.', err);
}
}
return true;
}
function onScheduleRoot(root, children) {
{
if (injectedHook && typeof injectedHook.onScheduleFiberRoot === 'function') {
try {
injectedHook.onScheduleFiberRoot(rendererID, root, children);
} catch (err) {
if ( !hasLoggedError) {
hasLoggedError = true;
error('React instrumentation encountered an error: %s', err);
}
}
}
}
}
function onCommitRoot(root, priorityLevel) {
if (injectedHook && typeof injectedHook.onCommitFiberRoot === 'function') {
try {
var didError = (root.current.flags & DidCapture) === DidCapture;
if (enableProfilerTimer) {
injectedHook.onCommitFiberRoot(rendererID, root, priorityLevel, didError);
}
} catch (err) {
{
if (!hasLoggedError) {
hasLoggedError = true;
error('React instrumentation encountered an error: %s', err);
}
}
}
}
}
function onCommitUnmount(fiber) {
if (injectedHook && typeof injectedHook.onCommitFiberUnmount === 'function') {
try {
injectedHook.onCommitFiberUnmount(rendererID, fiber);
} catch (err) {
{
if (!hasLoggedError) {
hasLoggedError = true;
error('React instrumentation encountered an error: %s', err);
}
}
}
}
}
var Scheduler_runWithPriority = Scheduler.unstable_runWithPriority,
Scheduler_scheduleCallback = Scheduler.unstable_scheduleCallback,
Scheduler_cancelCallback = Scheduler.unstable_cancelCallback,
Scheduler_shouldYield = Scheduler.unstable_shouldYield,
Scheduler_requestPaint = Scheduler.unstable_requestPaint,
Scheduler_now$1 = Scheduler.unstable_now,
Scheduler_getCurrentPriorityLevel = Scheduler.unstable_getCurrentPriorityLevel,
Scheduler_ImmediatePriority = Scheduler.unstable_ImmediatePriority,
Scheduler_UserBlockingPriority = Scheduler.unstable_UserBlockingPriority,
Scheduler_NormalPriority = Scheduler.unstable_NormalPriority,
Scheduler_LowPriority = Scheduler.unstable_LowPriority,
Scheduler_IdlePriority = Scheduler.unstable_IdlePriority;
{
if (!(tracing$1.__interactionsRef != null && tracing$1.__interactionsRef.current != null)) {
{
throw Error( "It is not supported to run the profiling version of a renderer (for example, `react-dom/profiling`) without also replacing the `scheduler/tracing` module with `scheduler/tracing-profiling`. Your bundler might have a setting for aliasing both modules. Learn more at https://reactjs.org/link/profiling" );
}
}
}
var fakeCallbackNode = {};
var ImmediatePriority$1 = 99;
var UserBlockingPriority$2 = 98;
var NormalPriority$1 = 97;
var LowPriority$1 = 96;
var IdlePriority$1 = 95;
var NoPriority$1 = 90;
var shouldYield = Scheduler_shouldYield;
var requestPaint =
Scheduler_requestPaint !== undefined ? Scheduler_requestPaint : function () {};
var syncQueue = null;
var immediateQueueCallbackNode = null;
var isFlushingSyncQueue = false;
var initialTimeMs$1 = Scheduler_now$1();
var now = initialTimeMs$1 < 10000 ? Scheduler_now$1 : function () {
return Scheduler_now$1() - initialTimeMs$1;
};
function getCurrentPriorityLevel() {
switch (Scheduler_getCurrentPriorityLevel()) {
case Scheduler_ImmediatePriority:
return ImmediatePriority$1;
case Scheduler_UserBlockingPriority:
return UserBlockingPriority$2;
case Scheduler_NormalPriority:
return NormalPriority$1;
case Scheduler_LowPriority:
return LowPriority$1;
case Scheduler_IdlePriority:
return IdlePriority$1;
default:
{
{
throw Error( "Unknown priority level." );
}
}
}
}
function reactPriorityToSchedulerPriority(reactPriorityLevel) {
switch (reactPriorityLevel) {
case ImmediatePriority$1:
return Scheduler_ImmediatePriority;
case UserBlockingPriority$2:
return Scheduler_UserBlockingPriority;
case NormalPriority$1:
return Scheduler_NormalPriority;
case LowPriority$1:
return Scheduler_LowPriority;
case IdlePriority$1:
return Scheduler_IdlePriority;
default:
{
{
throw Error( "Unknown priority level." );
}
}
}
}
function runWithPriority$1(reactPriorityLevel, fn) {
var priorityLevel = reactPriorityToSchedulerPriority(reactPriorityLevel);
return Scheduler_runWithPriority(priorityLevel, fn);
}
function scheduleCallback(reactPriorityLevel, callback, options) {
var priorityLevel = reactPriorityToSchedulerPriority(reactPriorityLevel);
return Scheduler_scheduleCallback(priorityLevel, callback, options);
}
function scheduleSyncCallback(callback) {
if (syncQueue === null) {
syncQueue = [callback];
immediateQueueCallbackNode = Scheduler_scheduleCallback(Scheduler_ImmediatePriority, flushSyncCallbackQueueImpl);
} else {
syncQueue.push(callback);
}
return fakeCallbackNode;
}
function cancelCallback(callbackNode) {
if (callbackNode !== fakeCallbackNode) {
Scheduler_cancelCallback(callbackNode);
}
}
function flushSyncCallbackQueue() {
if (immediateQueueCallbackNode !== null) {
var node = immediateQueueCallbackNode;
immediateQueueCallbackNode = null;
Scheduler_cancelCallback(node);
}
flushSyncCallbackQueueImpl();
}
function flushSyncCallbackQueueImpl() {
if (!isFlushingSyncQueue && syncQueue !== null) {
isFlushingSyncQueue = true;
var i = 0;
{
try {
var _isSync2 = true;
var _queue = syncQueue;
runWithPriority$1(ImmediatePriority$1, function () {
for (; i < _queue.length; i++) {
var callback = _queue[i];
do {
callback = callback(_isSync2);
} while (callback !== null);
}
});
syncQueue = null;
} catch (error) {
if (syncQueue !== null) {
syncQueue = syncQueue.slice(i + 1);
}
Scheduler_scheduleCallback(Scheduler_ImmediatePriority, flushSyncCallbackQueue);
throw error;
} finally {
isFlushingSyncQueue = false;
}
}
}
}
var ReactVersion = '17.0.2';
var NoMode = 0;
var StrictMode = 1;
var BlockingMode = 2;
var ConcurrentMode = 4;
var ProfileMode = 8;
var DebugTracingMode = 16;
var ReactCurrentBatchConfig = ReactSharedInternals.ReactCurrentBatchConfig;
var NoTransition = 0;
function requestCurrentTransition() {
return ReactCurrentBatchConfig.transition;
}
var ReactStrictModeWarnings = {
recordUnsafeLifecycleWarnings: function (fiber, instance) {},
flushPendingUnsafeLifecycleWarnings: function () {},
recordLegacyContextWarning: function (fiber, instance) {},
flushLegacyContextWarning: function () {},
discardPendingWarnings: function () {}
};
{
var findStrictRoot = function (fiber) {
var maybeStrictRoot = null;
var node = fiber;
while (node !== null) {
if (node.mode & StrictMode) {
maybeStrictRoot = node;
}
node = node.return;
}
return maybeStrictRoot;
};
var setToSortedString = function (set) {
var array = [];
set.forEach(function (value) {
array.push(value);
});
return array.sort().join(', ');
};
var pendingComponentWillMountWarnings = [];
var pendingUNSAFE_ComponentWillMountWarnings = [];
var pendingComponentWillReceivePropsWarnings = [];
var pendingUNSAFE_ComponentWillReceivePropsWarnings = [];
var pendingComponentWillUpdateWarnings = [];
var pendingUNSAFE_ComponentWillUpdateWarnings = [];
var didWarnAboutUnsafeLifecycles = new Set();
ReactStrictModeWarnings.recordUnsafeLifecycleWarnings = function (fiber, instance) {
if (didWarnAboutUnsafeLifecycles.has(fiber.type)) {
return;
}
if (typeof instance.componentWillMount === 'function' &&
instance.componentWillMount.__suppressDeprecationWarning !== true) {
pendingComponentWillMountWarnings.push(fiber);
}
if (fiber.mode & StrictMode && typeof instance.UNSAFE_componentWillMount === 'function') {
pendingUNSAFE_ComponentWillMountWarnings.push(fiber);
}
if (typeof instance.componentWillReceiveProps === 'function' && instance.componentWillReceiveProps.__suppressDeprecationWarning !== true) {
pendingComponentWillReceivePropsWarnings.push(fiber);
}
if (fiber.mode & StrictMode && typeof instance.UNSAFE_componentWillReceiveProps === 'function') {
pendingUNSAFE_ComponentWillReceivePropsWarnings.push(fiber);
}
if (typeof instance.componentWillUpdate === 'function' && instance.componentWillUpdate.__suppressDeprecationWarning !== true) {
pendingComponentWillUpdateWarnings.push(fiber);
}
if (fiber.mode & StrictMode && typeof instance.UNSAFE_componentWillUpdate === 'function') {
pendingUNSAFE_ComponentWillUpdateWarnings.push(fiber);
}
};
ReactStrictModeWarnings.flushPendingUnsafeLifecycleWarnings = function () {
var componentWillMountUniqueNames = new Set();
if (pendingComponentWillMountWarnings.length > 0) {
pendingComponentWillMountWarnings.forEach(function (fiber) {
componentWillMountUniqueNames.add(getComponentName(fiber.type) || 'Component');
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingComponentWillMountWarnings = [];
}
var UNSAFE_componentWillMountUniqueNames = new Set();
if (pendingUNSAFE_ComponentWillMountWarnings.length > 0) {
pendingUNSAFE_ComponentWillMountWarnings.forEach(function (fiber) {
UNSAFE_componentWillMountUniqueNames.add(getComponentName(fiber.type) || 'Component');
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingUNSAFE_ComponentWillMountWarnings = [];
}
var componentWillReceivePropsUniqueNames = new Set();
if (pendingComponentWillReceivePropsWarnings.length > 0) {
pendingComponentWillReceivePropsWarnings.forEach(function (fiber) {
componentWillReceivePropsUniqueNames.add(getComponentName(fiber.type) || 'Component');
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingComponentWillReceivePropsWarnings = [];
}
var UNSAFE_componentWillReceivePropsUniqueNames = new Set();
if (pendingUNSAFE_ComponentWillReceivePropsWarnings.length > 0) {
pendingUNSAFE_ComponentWillReceivePropsWarnings.forEach(function (fiber) {
UNSAFE_componentWillReceivePropsUniqueNames.add(getComponentName(fiber.type) || 'Component');
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingUNSAFE_ComponentWillReceivePropsWarnings = [];
}
var componentWillUpdateUniqueNames = new Set();
if (pendingComponentWillUpdateWarnings.length > 0) {
pendingComponentWillUpdateWarnings.forEach(function (fiber) {
componentWillUpdateUniqueNames.add(getComponentName(fiber.type) || 'Component');
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingComponentWillUpdateWarnings = [];
}
var UNSAFE_componentWillUpdateUniqueNames = new Set();
if (pendingUNSAFE_ComponentWillUpdateWarnings.length > 0) {
pendingUNSAFE_ComponentWillUpdateWarnings.forEach(function (fiber) {
UNSAFE_componentWillUpdateUniqueNames.add(getComponentName(fiber.type) || 'Component');
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingUNSAFE_ComponentWillUpdateWarnings = [];
}
if (UNSAFE_componentWillMountUniqueNames.size > 0) {
var sortedNames = setToSortedString(UNSAFE_componentWillMountUniqueNames);
error('Using UNSAFE_componentWillMount in strict mode is not recommended and may indicate bugs in your code. ' + 'See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n' + '* Move code with side effects to componentDidMount, and set initial state in the constructor.\n' + '\nPlease update the following components: %s', sortedNames);
}
if (UNSAFE_componentWillReceivePropsUniqueNames.size > 0) {
var _sortedNames = setToSortedString(UNSAFE_componentWillReceivePropsUniqueNames);
error('Using UNSAFE_componentWillReceiveProps in strict mode is not recommended ' + 'and may indicate bugs in your code. ' + 'See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n' + '* Move data fetching code or side effects to componentDidUpdate.\n' + "* If you're updating state whenever props change, " + 'refactor your code to use memoization techniques or move it to ' + 'static getDerivedStateFromProps. Learn more at: https://reactjs.org/link/derived-state\n' + '\nPlease update the following components: %s', _sortedNames);
}
if (UNSAFE_componentWillUpdateUniqueNames.size > 0) {
var _sortedNames2 = setToSortedString(UNSAFE_componentWillUpdateUniqueNames);
error('Using UNSAFE_componentWillUpdate in strict mode is not recommended ' + 'and may indicate bugs in your code. ' + 'See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n' + '* Move data fetching code or side effects to componentDidUpdate.\n' + '\nPlease update the following components: %s', _sortedNames2);
}
if (componentWillMountUniqueNames.size > 0) {
var _sortedNames3 = setToSortedString(componentWillMountUniqueNames);
warn('componentWillMount has been renamed, and is not recommended for use. ' + 'See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n' + '* Move code with side effects to componentDidMount, and set initial state in the constructor.\n' + '* Rename componentWillMount to UNSAFE_componentWillMount to suppress ' + 'this warning in non-strict mode. In React 18.x, only the UNSAFE_ name will work. ' + 'To rename all deprecated lifecycles to their new names, you can run ' + '`npx react-codemod rename-unsafe-lifecycles` in your project source folder.\n' + '\nPlease update the following components: %s', _sortedNames3);
}
if (componentWillReceivePropsUniqueNames.size > 0) {
var _sortedNames4 = setToSortedString(componentWillReceivePropsUniqueNames);
warn('componentWillReceiveProps has been renamed, and is not recommended for use. ' + 'See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n' + '* Move data fetching code or side effects to componentDidUpdate.\n' + "* If you're updating state whenever props change, refactor your " + 'code to use memoization techniques or move it to ' + 'static getDerivedStateFromProps. Learn more at: https://reactjs.org/link/derived-state\n' + '* Rename componentWillReceiveProps to UNSAFE_componentWillReceiveProps to suppress ' + 'this warning in non-strict mode. In React 18.x, only the UNSAFE_ name will work. ' + 'To rename all deprecated lifecycles to their new names, you can run ' + '`npx react-codemod rename-unsafe-lifecycles` in your project source folder.\n' + '\nPlease update the following components: %s', _sortedNames4);
}
if (componentWillUpdateUniqueNames.size > 0) {
var _sortedNames5 = setToSortedString(componentWillUpdateUniqueNames);
warn('componentWillUpdate has been renamed, and is not recommended for use. ' + 'See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n' + '* Move data fetching code or side effects to componentDidUpdate.\n' + '* Rename componentWillUpdate to UNSAFE_componentWillUpdate to suppress ' + 'this warning in non-strict mode. In React 18.x, only the UNSAFE_ name will work. ' + 'To rename all deprecated lifecycles to their new names, you can run ' + '`npx react-codemod rename-unsafe-lifecycles` in your project source folder.\n' + '\nPlease update the following components: %s', _sortedNames5);
}
};
var pendingLegacyContextWarning = new Map();
var didWarnAboutLegacyContext = new Set();
ReactStrictModeWarnings.recordLegacyContextWarning = function (fiber, instance) {
var strictRoot = findStrictRoot(fiber);
if (strictRoot === null) {
error('Expected to find a StrictMode component in a strict mode tree. ' + 'This error is likely caused by a bug in React. Please file an issue.');
return;
}
if (didWarnAboutLegacyContext.has(fiber.type)) {
return;
}
var warningsForRoot = pendingLegacyContextWarning.get(strictRoot);
if (fiber.type.contextTypes != null || fiber.type.childContextTypes != null || instance !== null && typeof instance.getChildContext === 'function') {
if (warningsForRoot === undefined) {
warningsForRoot = [];
pendingLegacyContextWarning.set(strictRoot, warningsForRoot);
}
warningsForRoot.push(fiber);
}
};
ReactStrictModeWarnings.flushLegacyContextWarning = function () {
pendingLegacyContextWarning.forEach(function (fiberArray, strictRoot) {
if (fiberArray.length === 0) {
return;
}
var firstFiber = fiberArray[0];
var uniqueNames = new Set();
fiberArray.forEach(function (fiber) {
uniqueNames.add(getComponentName(fiber.type) || 'Component');
didWarnAboutLegacyContext.add(fiber.type);
});
var sortedNames = setToSortedString(uniqueNames);
try {
setCurrentFiber(firstFiber);
error('Legacy context API has been detected within a strict-mode tree.' + '\n\nThe old API will be supported in all 16.x releases, but applications ' + 'using it should migrate to the new version.' + '\n\nPlease update the following components: %s' + '\n\nLearn more about this warning here: https://reactjs.org/link/legacy-context', sortedNames);
} finally {
resetCurrentFiber();
}
});
};
ReactStrictModeWarnings.discardPendingWarnings = function () {
pendingComponentWillMountWarnings = [];
pendingUNSAFE_ComponentWillMountWarnings = [];
pendingComponentWillReceivePropsWarnings = [];
pendingUNSAFE_ComponentWillReceivePropsWarnings = [];
pendingComponentWillUpdateWarnings = [];
pendingUNSAFE_ComponentWillUpdateWarnings = [];
pendingLegacyContextWarning = new Map();
};
}
function resolveDefaultProps(Component, baseProps) {
if (Component && Component.defaultProps) {
var props = _assign({}, baseProps);
var defaultProps = Component.defaultProps;
for (var propName in defaultProps) {
if (props[propName] === undefined) {
props[propName] = defaultProps[propName];
}
}
return props;
}
return baseProps;
}
var MAX_SIGNED_31_BIT_INT = 1073741823;
var valueCursor = createCursor(null);
var rendererSigil;
{
rendererSigil = {};
}
var currentlyRenderingFiber = null;
var lastContextDependency = null;
var lastContextWithAllBitsObserved = null;
var isDisallowedContextReadInDEV = false;
function resetContextDependencies() {
currentlyRenderingFiber = null;
lastContextDependency = null;
lastContextWithAllBitsObserved = null;
{
isDisallowedContextReadInDEV = false;
}
}
function enterDisallowedContextReadInDEV() {
{
isDisallowedContextReadInDEV = true;
}
}
function exitDisallowedContextReadInDEV() {
{
isDisallowedContextReadInDEV = false;
}
}
function pushProvider(providerFiber, nextValue) {
var context = providerFiber.type._context;
{
push(valueCursor, context._currentValue, providerFiber);
context._currentValue = nextValue;
{
if (context._currentRenderer !== undefined && context._currentRenderer !== null && context._currentRenderer !== rendererSigil) {
error('Detected multiple renderers concurrently rendering the ' + 'same context provider. This is currently unsupported.');
}
context._currentRenderer = rendererSigil;
}
}
}
function popProvider(providerFiber) {
var currentValue = valueCursor.current;
pop(valueCursor, providerFiber);
var context = providerFiber.type._context;
{
context._currentValue = currentValue;
}
}
function calculateChangedBits(context, newValue, oldValue) {
if (objectIs(oldValue, newValue)) {
return 0;
} else {
var changedBits = typeof context._calculateChangedBits === 'function' ? context._calculateChangedBits(oldValue, newValue) : MAX_SIGNED_31_BIT_INT;
{
if ((changedBits & MAX_SIGNED_31_BIT_INT) !== changedBits) {
error('calculateChangedBits: Expected the return value to be a ' + '31-bit integer. Instead received: %s', changedBits);
}
}
return changedBits | 0;
}
}
function scheduleWorkOnParentPath(parent, renderLanes) {
var node = parent;
while (node !== null) {
var alternate = node.alternate;
if (!isSubsetOfLanes(node.childLanes, renderLanes)) {
node.childLanes = mergeLanes(node.childLanes, renderLanes);
if (alternate !== null) {
alternate.childLanes = mergeLanes(alternate.childLanes, renderLanes);
}
} else if (alternate !== null && !isSubsetOfLanes(alternate.childLanes, renderLanes)) {
alternate.childLanes = mergeLanes(alternate.childLanes, renderLanes);
} else {
break;
}
node = node.return;
}
}
function propagateContextChange(workInProgress, context, changedBits, renderLanes) {
var fiber = workInProgress.child;
if (fiber !== null) {
fiber.return = workInProgress;
}
while (fiber !== null) {
var nextFiber = void 0;
var list = fiber.dependencies;
if (list !== null) {
nextFiber = fiber.child;
var dependency = list.firstContext;
while (dependency !== null) {
if (dependency.context === context && (dependency.observedBits & changedBits) !== 0) {
if (fiber.tag === ClassComponent) {
var update = createUpdate(NoTimestamp, pickArbitraryLane(renderLanes));
update.tag = ForceUpdate;
enqueueUpdate(fiber, update);
}
fiber.lanes = mergeLanes(fiber.lanes, renderLanes);
var alternate = fiber.alternate;
if (alternate !== null) {
alternate.lanes = mergeLanes(alternate.lanes, renderLanes);
}
scheduleWorkOnParentPath(fiber.return, renderLanes);
list.lanes = mergeLanes(list.lanes, renderLanes);
break;
}
dependency = dependency.next;
}
} else if (fiber.tag === ContextProvider) {
nextFiber = fiber.type === workInProgress.type ? null : fiber.child;
} else {
nextFiber = fiber.child;
}
if (nextFiber !== null) {
nextFiber.return = fiber;
} else {
nextFiber = fiber;
while (nextFiber !== null) {
if (nextFiber === workInProgress) {
nextFiber = null;
break;
}
var sibling = nextFiber.sibling;
if (sibling !== null) {
sibling.return = nextFiber.return;
nextFiber = sibling;
break;
}
nextFiber = nextFiber.return;
}
}
fiber = nextFiber;
}
}
function prepareToReadContext(workInProgress, renderLanes) {
currentlyRenderingFiber = workInProgress;
lastContextDependency = null;
lastContextWithAllBitsObserved = null;
var dependencies = workInProgress.dependencies;
if (dependencies !== null) {
var firstContext = dependencies.firstContext;
if (firstContext !== null) {
if (includesSomeLane(dependencies.lanes, renderLanes)) {
markWorkInProgressReceivedUpdate();
}
dependencies.firstContext = null;
}
}
}
function readContext(context, observedBits) {
{
if (isDisallowedContextReadInDEV) {
error('Context can only be read while React is rendering. ' + 'In classes, you can read it in the render method or getDerivedStateFromProps. ' + 'In function components, you can read it directly in the function body, but not ' + 'inside Hooks like useReducer() or useMemo().');
}
}
if (lastContextWithAllBitsObserved === context) ; else if (observedBits === false || observedBits === 0) ; else {
var resolvedObservedBits;
if (typeof observedBits !== 'number' || observedBits === MAX_SIGNED_31_BIT_INT) {
lastContextWithAllBitsObserved = context;
resolvedObservedBits = MAX_SIGNED_31_BIT_INT;
} else {
resolvedObservedBits = observedBits;
}
var contextItem = {
context: context,
observedBits: resolvedObservedBits,
next: null
};
if (lastContextDependency === null) {
if (!(currentlyRenderingFiber !== null)) {
{
throw Error( "Context can only be read while React is rendering. In classes, you can read it in the render method or getDerivedStateFromProps. In function components, you can read it directly in the function body, but not inside Hooks like useReducer() or useMemo()." );
}
}
lastContextDependency = contextItem;
currentlyRenderingFiber.dependencies = {
lanes: NoLanes,
firstContext: contextItem,
responders: null
};
} else {
lastContextDependency = lastContextDependency.next = contextItem;
}
}
return context._currentValue ;
}
var UpdateState = 0;
var ReplaceState = 1;
var ForceUpdate = 2;
var CaptureUpdate = 3;
var hasForceUpdate = false;
var didWarnUpdateInsideUpdate;
var currentlyProcessingQueue;
{
didWarnUpdateInsideUpdate = false;
currentlyProcessingQueue = null;
}
function initializeUpdateQueue(fiber) {
var queue = {
baseState: fiber.memoizedState,
firstBaseUpdate: null,
lastBaseUpdate: null,
shared: {
pending: null
},
effects: null
};
fiber.updateQueue = queue;
}
function cloneUpdateQueue(current, workInProgress) {
var queue = workInProgress.updateQueue;
var currentQueue = current.updateQueue;
if (queue === currentQueue) {
var clone = {
baseState: currentQueue.baseState,
firstBaseUpdate: currentQueue.firstBaseUpdate,
lastBaseUpdate: currentQueue.lastBaseUpdate,
shared: currentQueue.shared,
effects: currentQueue.effects
};
workInProgress.updateQueue = clone;
}
}
function createUpdate(eventTime, lane) {
var update = {
eventTime: eventTime,
lane: lane,
tag: UpdateState,
payload: null,
callback: null,
next: null
};
return update;
}
function enqueueUpdate(fiber, update) {
var updateQueue = fiber.updateQueue;
if (updateQueue === null) {
return;
}
var sharedQueue = updateQueue.shared;
var pending = sharedQueue.pending;
if (pending === null) {
update.next = update;
} else {
update.next = pending.next;
pending.next = update;
}
sharedQueue.pending = update;
{
if (currentlyProcessingQueue === sharedQueue && !didWarnUpdateInsideUpdate) {
error('An update (setState, replaceState, or forceUpdate) was scheduled ' + 'from inside an update function. Update functions should be pure, ' + 'with zero side-effects. Consider using componentDidUpdate or a ' + 'callback.');
didWarnUpdateInsideUpdate = true;
}
}
}
function enqueueCapturedUpdate(workInProgress, capturedUpdate) {
var queue = workInProgress.updateQueue;
var current = workInProgress.alternate;
if (current !== null) {
var currentQueue = current.updateQueue;
if (queue === currentQueue) {
var newFirst = null;
var newLast = null;
var firstBaseUpdate = queue.firstBaseUpdate;
if (firstBaseUpdate !== null) {
var update = firstBaseUpdate;
do {
var clone = {
eventTime: update.eventTime,
lane: update.lane,
tag: update.tag,
payload: update.payload,
callback: update.callback,
next: null
};
if (newLast === null) {
newFirst = newLast = clone;
} else {
newLast.next = clone;
newLast = clone;
}
update = update.next;
} while (update !== null);
if (newLast === null) {
newFirst = newLast = capturedUpdate;
} else {
newLast.next = capturedUpdate;
newLast = capturedUpdate;
}
} else {
newFirst = newLast = capturedUpdate;
}
queue = {
baseState: currentQueue.baseState,
firstBaseUpdate: newFirst,
lastBaseUpdate: newLast,
shared: currentQueue.shared,
effects: currentQueue.effects
};
workInProgress.updateQueue = queue;
return;
}
}
var lastBaseUpdate = queue.lastBaseUpdate;
if (lastBaseUpdate === null) {
queue.firstBaseUpdate = capturedUpdate;
} else {
lastBaseUpdate.next = capturedUpdate;
}
queue.lastBaseUpdate = capturedUpdate;
}
function getStateFromUpdate(workInProgress, queue, update, prevState, nextProps, instance) {
switch (update.tag) {
case ReplaceState:
{
var payload = update.payload;
if (typeof payload === 'function') {
{
enterDisallowedContextReadInDEV();
}
var nextState = payload.call(instance, prevState, nextProps);
{
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
payload.call(instance, prevState, nextProps);
} finally {
reenableLogs();
}
}
exitDisallowedContextReadInDEV();
}
return nextState;
}
return payload;
}
case CaptureUpdate:
{
workInProgress.flags = workInProgress.flags & ~ShouldCapture | DidCapture;
}
case UpdateState:
{
var _payload = update.payload;
var partialState;
if (typeof _payload === 'function') {
{
enterDisallowedContextReadInDEV();
}
partialState = _payload.call(instance, prevState, nextProps);
{
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
_payload.call(instance, prevState, nextProps);
} finally {
reenableLogs();
}
}
exitDisallowedContextReadInDEV();
}
} else {
partialState = _payload;
}
if (partialState === null || partialState === undefined) {
return prevState;
}
return _assign({}, prevState, partialState);
}
case ForceUpdate:
{
hasForceUpdate = true;
return prevState;
}
}
return prevState;
}
function processUpdateQueue(workInProgress, props, instance, renderLanes) {
var queue = workInProgress.updateQueue;
hasForceUpdate = false;
{
currentlyProcessingQueue = queue.shared;
}
var firstBaseUpdate = queue.firstBaseUpdate;
var lastBaseUpdate = queue.lastBaseUpdate;
var pendingQueue = queue.shared.pending;
if (pendingQueue !== null) {
queue.shared.pending = null;
var lastPendingUpdate = pendingQueue;
var firstPendingUpdate = lastPendingUpdate.next;
lastPendingUpdate.next = null;
if (lastBaseUpdate === null) {
firstBaseUpdate = firstPendingUpdate;
} else {
lastBaseUpdate.next = firstPendingUpdate;
}
lastBaseUpdate = lastPendingUpdate;
var current = workInProgress.alternate;
if (current !== null) {
var currentQueue = current.updateQueue;
var currentLastBaseUpdate = currentQueue.lastBaseUpdate;
if (currentLastBaseUpdate !== lastBaseUpdate) {
if (currentLastBaseUpdate === null) {
currentQueue.firstBaseUpdate = firstPendingUpdate;
} else {
currentLastBaseUpdate.next = firstPendingUpdate;
}
currentQueue.lastBaseUpdate = lastPendingUpdate;
}
}
}
if (firstBaseUpdate !== null) {
var newState = queue.baseState;
var newLanes = NoLanes;
var newBaseState = null;
var newFirstBaseUpdate = null;
var newLastBaseUpdate = null;
var update = firstBaseUpdate;
do {
var updateLane = update.lane;
var updateEventTime = update.eventTime;
if (!isSubsetOfLanes(renderLanes, updateLane)) {
var clone = {
eventTime: updateEventTime,
lane: updateLane,
tag: update.tag,
payload: update.payload,
callback: update.callback,
next: null
};
if (newLastBaseUpdate === null) {
newFirstBaseUpdate = newLastBaseUpdate = clone;
newBaseState = newState;
} else {
newLastBaseUpdate = newLastBaseUpdate.next = clone;
}
newLanes = mergeLanes(newLanes, updateLane);
} else {
if (newLastBaseUpdate !== null) {
var _clone = {
eventTime: updateEventTime,
lane: NoLane,
tag: update.tag,
payload: update.payload,
callback: update.callback,
next: null
};
newLastBaseUpdate = newLastBaseUpdate.next = _clone;
}
newState = getStateFromUpdate(workInProgress, queue, update, newState, props, instance);
var callback = update.callback;
if (callback !== null) {
workInProgress.flags |= Callback;
var effects = queue.effects;
if (effects === null) {
queue.effects = [update];
} else {
effects.push(update);
}
}
}
update = update.next;
if (update === null) {
pendingQueue = queue.shared.pending;
if (pendingQueue === null) {
break;
} else {
var _lastPendingUpdate = pendingQueue;
var _firstPendingUpdate = _lastPendingUpdate.next;
_lastPendingUpdate.next = null;
update = _firstPendingUpdate;
queue.lastBaseUpdate = _lastPendingUpdate;
queue.shared.pending = null;
}
}
} while (true);
if (newLastBaseUpdate === null) {
newBaseState = newState;
}
queue.baseState = newBaseState;
queue.firstBaseUpdate = newFirstBaseUpdate;
queue.lastBaseUpdate = newLastBaseUpdate;
markSkippedUpdateLanes(newLanes);
workInProgress.lanes = newLanes;
workInProgress.memoizedState = newState;
}
{
currentlyProcessingQueue = null;
}
}
function callCallback(callback, context) {
if (!(typeof callback === 'function')) {
{
throw Error( "Invalid argument passed as callback. Expected a function. Instead received: " + callback );
}
}
callback.call(context);
}
function resetHasForceUpdateBeforeProcessing() {
hasForceUpdate = false;
}
function checkHasForceUpdateAfterProcessing() {
return hasForceUpdate;
}
function commitUpdateQueue(finishedWork, finishedQueue, instance) {
var effects = finishedQueue.effects;
finishedQueue.effects = null;
if (effects !== null) {
for (var i = 0; i < effects.length; i++) {
var effect = effects[i];
var callback = effect.callback;
if (callback !== null) {
effect.callback = null;
callCallback(callback, instance);
}
}
}
}
var fakeInternalInstance = {};
var isArray = Array.isArray;
var emptyRefsObject = new React.Component().refs;
var didWarnAboutStateAssignmentForComponent;
var didWarnAboutUninitializedState;
var didWarnAboutGetSnapshotBeforeUpdateWithoutDidUpdate;
var didWarnAboutLegacyLifecyclesAndDerivedState;
var didWarnAboutUndefinedDerivedState;
var warnOnUndefinedDerivedState;
var warnOnInvalidCallback;
var didWarnAboutDirectlyAssigningPropsToState;
var didWarnAboutContextTypeAndContextTypes;
var didWarnAboutInvalidateContextType;
{
didWarnAboutStateAssignmentForComponent = new Set();
didWarnAboutUninitializedState = new Set();
didWarnAboutGetSnapshotBeforeUpdateWithoutDidUpdate = new Set();
didWarnAboutLegacyLifecyclesAndDerivedState = new Set();
didWarnAboutDirectlyAssigningPropsToState = new Set();
didWarnAboutUndefinedDerivedState = new Set();
didWarnAboutContextTypeAndContextTypes = new Set();
didWarnAboutInvalidateContextType = new Set();
var didWarnOnInvalidCallback = new Set();
warnOnInvalidCallback = function (callback, callerName) {
if (callback === null || typeof callback === 'function') {
return;
}
var key = callerName + '_' + callback;
if (!didWarnOnInvalidCallback.has(key)) {
didWarnOnInvalidCallback.add(key);
error('%s(...): Expected the last optional `callback` argument to be a ' + 'function. Instead received: %s.', callerName, callback);
}
};
warnOnUndefinedDerivedState = function (type, partialState) {
if (partialState === undefined) {
var componentName = getComponentName(type) || 'Component';
if (!didWarnAboutUndefinedDerivedState.has(componentName)) {
didWarnAboutUndefinedDerivedState.add(componentName);
error('%s.getDerivedStateFromProps(): A valid state object (or null) must be returned. ' + 'You have returned undefined.', componentName);
}
}
};
Object.defineProperty(fakeInternalInstance, '_processChildContext', {
enumerable: false,
value: function () {
{
{
throw Error( "_processChildContext is not available in React 16+. This likely means you have multiple copies of React and are attempting to nest a React 15 tree inside a React 16 tree using unstable_renderSubtreeIntoContainer, which isn't supported. Try to make sure you have only one copy of React (and ideally, switch to ReactDOM.createPortal)." );
}
}
}
});
Object.freeze(fakeInternalInstance);
}
function applyDerivedStateFromProps(workInProgress, ctor, getDerivedStateFromProps, nextProps) {
var prevState = workInProgress.memoizedState;
{
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
getDerivedStateFromProps(nextProps, prevState);
} finally {
reenableLogs();
}
}
}
var partialState = getDerivedStateFromProps(nextProps, prevState);
{
warnOnUndefinedDerivedState(ctor, partialState);
}
var memoizedState = partialState === null || partialState === undefined ? prevState : _assign({}, prevState, partialState);
workInProgress.memoizedState = memoizedState;
if (workInProgress.lanes === NoLanes) {
var updateQueue = workInProgress.updateQueue;
updateQueue.baseState = memoizedState;
}
}
var classComponentUpdater = {
isMounted: isMounted,
enqueueSetState: function (inst, payload, callback) {
var fiber = get(inst);
var eventTime = requestEventTime();
var lane = requestUpdateLane(fiber);
var update = createUpdate(eventTime, lane);
update.payload = payload;
if (callback !== undefined && callback !== null) {
{
warnOnInvalidCallback(callback, 'setState');
}
update.callback = callback;
}
enqueueUpdate(fiber, update);
scheduleUpdateOnFiber(fiber, lane, eventTime);
},
enqueueReplaceState: function (inst, payload, callback) {
var fiber = get(inst);
var eventTime = requestEventTime();
var lane = requestUpdateLane(fiber);
var update = createUpdate(eventTime, lane);
update.tag = ReplaceState;
update.payload = payload;
if (callback !== undefined && callback !== null) {
{
warnOnInvalidCallback(callback, 'replaceState');
}
update.callback = callback;
}
enqueueUpdate(fiber, update);
scheduleUpdateOnFiber(fiber, lane, eventTime);
},
enqueueForceUpdate: function (inst, callback) {
var fiber = get(inst);
var eventTime = requestEventTime();
var lane = requestUpdateLane(fiber);
var update = createUpdate(eventTime, lane);
update.tag = ForceUpdate;
if (callback !== undefined && callback !== null) {
{
warnOnInvalidCallback(callback, 'forceUpdate');
}
update.callback = callback;
}
enqueueUpdate(fiber, update);
scheduleUpdateOnFiber(fiber, lane, eventTime);
}
};
function checkShouldComponentUpdate(workInProgress, ctor, oldProps, newProps, oldState, newState, nextContext) {
var instance = workInProgress.stateNode;
if (typeof instance.shouldComponentUpdate === 'function') {
{
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
instance.shouldComponentUpdate(newProps, newState, nextContext);
} finally {
reenableLogs();
}
}
}
var shouldUpdate = instance.shouldComponentUpdate(newProps, newState, nextContext);
{
if (shouldUpdate === undefined) {
error('%s.shouldComponentUpdate(): Returned undefined instead of a ' + 'boolean value. Make sure to return true or false.', getComponentName(ctor) || 'Component');
}
}
return shouldUpdate;
}
if (ctor.prototype && ctor.prototype.isPureReactComponent) {
return !shallowEqual(oldProps, newProps) || !shallowEqual(oldState, newState);
}
return true;
}
function checkClassInstance(workInProgress, ctor, newProps) {
var instance = workInProgress.stateNode;
{
var name = getComponentName(ctor) || 'Component';
var renderPresent = instance.render;
if (!renderPresent) {
if (ctor.prototype && typeof ctor.prototype.render === 'function') {
error('%s(...): No `render` method found on the returned component ' + 'instance: did you accidentally return an object from the constructor?', name);
} else {
error('%s(...): No `render` method found on the returned component ' + 'instance: you may have forgotten to define `render`.', name);
}
}
if (instance.getInitialState && !instance.getInitialState.isReactClassApproved && !instance.state) {
error('getInitialState was defined on %s, a plain JavaScript class. ' + 'This is only supported for classes created using React.createClass. ' + 'Did you mean to define a state property instead?', name);
}
if (instance.getDefaultProps && !instance.getDefaultProps.isReactClassApproved) {
error('getDefaultProps was defined on %s, a plain JavaScript class. ' + 'This is only supported for classes created using React.createClass. ' + 'Use a static property to define defaultProps instead.', name);
}
if (instance.propTypes) {
error('propTypes was defined as an instance property on %s. Use a static ' + 'property to define propTypes instead.', name);
}
if (instance.contextType) {
error('contextType was defined as an instance property on %s. Use a static ' + 'property to define contextType instead.', name);
}
{
if (instance.contextTypes) {
error('contextTypes was defined as an instance property on %s. Use a static ' + 'property to define contextTypes instead.', name);
}
if (ctor.contextType && ctor.contextTypes && !didWarnAboutContextTypeAndContextTypes.has(ctor)) {
didWarnAboutContextTypeAndContextTypes.add(ctor);
error('%s declares both contextTypes and contextType static properties. ' + 'The legacy contextTypes property will be ignored.', name);
}
}
if (typeof instance.componentShouldUpdate === 'function') {
error('%s has a method called ' + 'componentShouldUpdate(). Did you mean shouldComponentUpdate()? ' + 'The name is phrased as a question because the function is ' + 'expected to return a value.', name);
}
if (ctor.prototype && ctor.prototype.isPureReactComponent && typeof instance.shouldComponentUpdate !== 'undefined') {
error('%s has a method called shouldComponentUpdate(). ' + 'shouldComponentUpdate should not be used when extending React.PureComponent. ' + 'Please extend React.Component if shouldComponentUpdate is used.', getComponentName(ctor) || 'A pure component');
}
if (typeof instance.componentDidUnmount === 'function') {
error('%s has a method called ' + 'componentDidUnmount(). But there is no such lifecycle method. ' + 'Did you mean componentWillUnmount()?', name);
}
if (typeof instance.componentDidReceiveProps === 'function') {
error('%s has a method called ' + 'componentDidReceiveProps(). But there is no such lifecycle method. ' + 'If you meant to update the state in response to changing props, ' + 'use componentWillReceiveProps(). If you meant to fetch data or ' + 'run side-effects or mutations after React has updated the UI, use componentDidUpdate().', name);
}
if (typeof instance.componentWillRecieveProps === 'function') {
error('%s has a method called ' + 'componentWillRecieveProps(). Did you mean componentWillReceiveProps()?', name);
}
if (typeof instance.UNSAFE_componentWillRecieveProps === 'function') {
error('%s has a method called ' + 'UNSAFE_componentWillRecieveProps(). Did you mean UNSAFE_componentWillReceiveProps()?', name);
}
var hasMutatedProps = instance.props !== newProps;
if (instance.props !== undefined && hasMutatedProps) {
error('%s(...): When calling super() in `%s`, make sure to pass ' + "up the same props that your component's constructor was passed.", name, name);
}
if (instance.defaultProps) {
error('Setting defaultProps as an instance property on %s is not supported and will be ignored.' + ' Instead, define defaultProps as a static property on %s.', name, name);
}
if (typeof instance.getSnapshotBeforeUpdate === 'function' && typeof instance.componentDidUpdate !== 'function' && !didWarnAboutGetSnapshotBeforeUpdateWithoutDidUpdate.has(ctor)) {
didWarnAboutGetSnapshotBeforeUpdateWithoutDidUpdate.add(ctor);
error('%s: getSnapshotBeforeUpdate() should be used with componentDidUpdate(). ' + 'This component defines getSnapshotBeforeUpdate() only.', getComponentName(ctor));
}
if (typeof instance.getDerivedStateFromProps === 'function') {
error('%s: getDerivedStateFromProps() is defined as an instance method ' + 'and will be ignored. Instead, declare it as a static method.', name);
}
if (typeof instance.getDerivedStateFromError === 'function') {
error('%s: getDerivedStateFromError() is defined as an instance method ' + 'and will be ignored. Instead, declare it as a static method.', name);
}
if (typeof ctor.getSnapshotBeforeUpdate === 'function') {
error('%s: getSnapshotBeforeUpdate() is defined as a static method ' + 'and will be ignored. Instead, declare it as an instance method.', name);
}
var _state = instance.state;
if (_state && (typeof _state !== 'object' || isArray(_state))) {
error('%s.state: must be set to an object or null', name);
}
if (typeof instance.getChildContext === 'function' && typeof ctor.childContextTypes !== 'object') {
error('%s.getChildContext(): childContextTypes must be defined in order to ' + 'use getChildContext().', name);
}
}
}
function adoptClassInstance(workInProgress, instance) {
instance.updater = classComponentUpdater;
workInProgress.stateNode = instance;
set(instance, workInProgress);
{
instance._reactInternalInstance = fakeInternalInstance;
}
}
function constructClassInstance(workInProgress, ctor, props) {
var isLegacyContextConsumer = false;
var unmaskedContext = emptyContextObject;
var context = emptyContextObject;
var contextType = ctor.contextType;
{
if ('contextType' in ctor) {
var isValid =
contextType === null || contextType !== undefined && contextType.$$typeof === REACT_CONTEXT_TYPE && contextType._context === undefined;
if (!isValid && !didWarnAboutInvalidateContextType.has(ctor)) {
didWarnAboutInvalidateContextType.add(ctor);
var addendum = '';
if (contextType === undefined) {
addendum = ' However, it is set to undefined. ' + 'This can be caused by a typo or by mixing up named and default imports. ' + 'This can also happen due to a circular dependency, so ' + 'try moving the createContext() call to a separate file.';
} else if (typeof contextType !== 'object') {
addendum = ' However, it is set to a ' + typeof contextType + '.';
} else if (contextType.$$typeof === REACT_PROVIDER_TYPE) {
addendum = ' Did you accidentally pass the Context.Provider instead?';
} else if (contextType._context !== undefined) {
addendum = ' Did you accidentally pass the Context.Consumer instead?';
} else {
addendum = ' However, it is set to an object with keys {' + Object.keys(contextType).join(', ') + '}.';
}
error('%s defines an invalid contextType. ' + 'contextType should point to the Context object returned by React.createContext().%s', getComponentName(ctor) || 'Component', addendum);
}
}
}
if (typeof contextType === 'object' && contextType !== null) {
context = readContext(contextType);
} else {
unmaskedContext = getUnmaskedContext(workInProgress, ctor, true);
var contextTypes = ctor.contextTypes;
isLegacyContextConsumer = contextTypes !== null && contextTypes !== undefined;
context = isLegacyContextConsumer ? getMaskedContext(workInProgress, unmaskedContext) : emptyContextObject;
}
{
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
new ctor(props, context);
} finally {
reenableLogs();
}
}
}
var instance = new ctor(props, context);
var state = workInProgress.memoizedState = instance.state !== null && instance.state !== undefined ? instance.state : null;
adoptClassInstance(workInProgress, instance);
{
if (typeof ctor.getDerivedStateFromProps === 'function' && state === null) {
var componentName = getComponentName(ctor) || 'Component';
if (!didWarnAboutUninitializedState.has(componentName)) {
didWarnAboutUninitializedState.add(componentName);
error('`%s` uses `getDerivedStateFromProps` but its initial state is ' + '%s. This is not recommended. Instead, define the initial state by ' + 'assigning an object to `this.state` in the constructor of `%s`. ' + 'This ensures that `getDerivedStateFromProps` arguments have a consistent shape.', componentName, instance.state === null ? 'null' : 'undefined', componentName);
}
}
if (typeof ctor.getDerivedStateFromProps === 'function' || typeof instance.getSnapshotBeforeUpdate === 'function') {
var foundWillMountName = null;
var foundWillReceivePropsName = null;
var foundWillUpdateName = null;
if (typeof instance.componentWillMount === 'function' && instance.componentWillMount.__suppressDeprecationWarning !== true) {
foundWillMountName = 'componentWillMount';
} else if (typeof instance.UNSAFE_componentWillMount === 'function') {
foundWillMountName = 'UNSAFE_componentWillMount';
}
if (typeof instance.componentWillReceiveProps === 'function' && instance.componentWillReceiveProps.__suppressDeprecationWarning !== true) {
foundWillReceivePropsName = 'componentWillReceiveProps';
} else if (typeof instance.UNSAFE_componentWillReceiveProps === 'function') {
foundWillReceivePropsName = 'UNSAFE_componentWillReceiveProps';
}
if (typeof instance.componentWillUpdate === 'function' && instance.componentWillUpdate.__suppressDeprecationWarning !== true) {
foundWillUpdateName = 'componentWillUpdate';
} else if (typeof instance.UNSAFE_componentWillUpdate === 'function') {
foundWillUpdateName = 'UNSAFE_componentWillUpdate';
}
if (foundWillMountName !== null || foundWillReceivePropsName !== null || foundWillUpdateName !== null) {
var _componentName = getComponentName(ctor) || 'Component';
var newApiName = typeof ctor.getDerivedStateFromProps === 'function' ? 'getDerivedStateFromProps()' : 'getSnapshotBeforeUpdate()';
if (!didWarnAboutLegacyLifecyclesAndDerivedState.has(_componentName)) {
didWarnAboutLegacyLifecyclesAndDerivedState.add(_componentName);
error('Unsafe legacy lifecycles will not be called for components using new component APIs.\n\n' + '%s uses %s but also contains the following legacy lifecycles:%s%s%s\n\n' + 'The above lifecycles should be removed. Learn more about this warning here:\n' + 'https://reactjs.org/link/unsafe-component-lifecycles', _componentName, newApiName, foundWillMountName !== null ? "\n " + foundWillMountName : '', foundWillReceivePropsName !== null ? "\n " + foundWillReceivePropsName : '', foundWillUpdateName !== null ? "\n " + foundWillUpdateName : '');
}
}
}
}
if (isLegacyContextConsumer) {
cacheContext(workInProgress, unmaskedContext, context);
}
return instance;
}
function callComponentWillMount(workInProgress, instance) {
var oldState = instance.state;
if (typeof instance.componentWillMount === 'function') {
instance.componentWillMount();
}
if (typeof instance.UNSAFE_componentWillMount === 'function') {
instance.UNSAFE_componentWillMount();
}
if (oldState !== instance.state) {
{
error('%s.componentWillMount(): Assigning directly to this.state is ' + "deprecated (except inside a component's " + 'constructor). Use setState instead.', getComponentName(workInProgress.type) || 'Component');
}
classComponentUpdater.enqueueReplaceState(instance, instance.state, null);
}
}
function callComponentWillReceiveProps(workInProgress, instance, newProps, nextContext) {
var oldState = instance.state;
if (typeof instance.componentWillReceiveProps === 'function') {
instance.componentWillReceiveProps(newProps, nextContext);
}
if (typeof instance.UNSAFE_componentWillReceiveProps === 'function') {
instance.UNSAFE_componentWillReceiveProps(newProps, nextContext);
}
if (instance.state !== oldState) {
{
var componentName = getComponentName(workInProgress.type) || 'Component';
if (!didWarnAboutStateAssignmentForComponent.has(componentName)) {
didWarnAboutStateAssignmentForComponent.add(componentName);
error('%s.componentWillReceiveProps(): Assigning directly to ' + "this.state is deprecated (except inside a component's " + 'constructor). Use setState instead.', componentName);
}
}
classComponentUpdater.enqueueReplaceState(instance, instance.state, null);
}
}
function mountClassInstance(workInProgress, ctor, newProps, renderLanes) {
{
checkClassInstance(workInProgress, ctor, newProps);
}
var instance = workInProgress.stateNode;
instance.props = newProps;
instance.state = workInProgress.memoizedState;
instance.refs = emptyRefsObject;
initializeUpdateQueue(workInProgress);
var contextType = ctor.contextType;
if (typeof contextType === 'object' && contextType !== null) {
instance.context = readContext(contextType);
} else {
var unmaskedContext = getUnmaskedContext(workInProgress, ctor, true);
instance.context = getMaskedContext(workInProgress, unmaskedContext);
}
{
if (instance.state === newProps) {
var componentName = getComponentName(ctor) || 'Component';
if (!didWarnAboutDirectlyAssigningPropsToState.has(componentName)) {
didWarnAboutDirectlyAssigningPropsToState.add(componentName);
error('%s: It is not recommended to assign props directly to state ' + "because updates to props won't be reflected in state. " + 'In most cases, it is better to use props directly.', componentName);
}
}
if (workInProgress.mode & StrictMode) {
ReactStrictModeWarnings.recordLegacyContextWarning(workInProgress, instance);
}
{
ReactStrictModeWarnings.recordUnsafeLifecycleWarnings(workInProgress, instance);
}
}
processUpdateQueue(workInProgress, newProps, instance, renderLanes);
instance.state = workInProgress.memoizedState;
var getDerivedStateFromProps = ctor.getDerivedStateFromProps;
if (typeof getDerivedStateFromProps === 'function') {
applyDerivedStateFromProps(workInProgress, ctor, getDerivedStateFromProps, newProps);
instance.state = workInProgress.memoizedState;
}
if (typeof ctor.getDerivedStateFromProps !== 'function' && typeof instance.getSnapshotBeforeUpdate !== 'function' && (typeof instance.UNSAFE_componentWillMount === 'function' || typeof instance.componentWillMount === 'function')) {
callComponentWillMount(workInProgress, instance);
processUpdateQueue(workInProgress, newProps, instance, renderLanes);
instance.state = workInProgress.memoizedState;
}
if (typeof instance.componentDidMount === 'function') {
workInProgress.flags |= Update;
}
}
function resumeMountClassInstance(workInProgress, ctor, newProps, renderLanes) {
var instance = workInProgress.stateNode;
var oldProps = workInProgress.memoizedProps;
instance.props = oldProps;
var oldContext = instance.context;
var contextType = ctor.contextType;
var nextContext = emptyContextObject;
if (typeof contextType === 'object' && contextType !== null) {
nextContext = readContext(contextType);
} else {
var nextLegacyUnmaskedContext = getUnmaskedContext(workInProgress, ctor, true);
nextContext = getMaskedContext(workInProgress, nextLegacyUnmaskedContext);
}
var getDerivedStateFromProps = ctor.getDerivedStateFromProps;
var hasNewLifecycles = typeof getDerivedStateFromProps === 'function' || typeof instance.getSnapshotBeforeUpdate === 'function';
if (!hasNewLifecycles && (typeof instance.UNSAFE_componentWillReceiveProps === 'function' || typeof instance.componentWillReceiveProps === 'function')) {
if (oldProps !== newProps || oldContext !== nextContext) {
callComponentWillReceiveProps(workInProgress, instance, newProps, nextContext);
}
}
resetHasForceUpdateBeforeProcessing();
var oldState = workInProgress.memoizedState;
var newState = instance.state = oldState;
processUpdateQueue(workInProgress, newProps, instance, renderLanes);
newState = workInProgress.memoizedState;
if (oldProps === newProps && oldState === newState && !hasContextChanged() && !checkHasForceUpdateAfterProcessing()) {
if (typeof instance.componentDidMount === 'function') {
workInProgress.flags |= Update;
}
return false;
}
if (typeof getDerivedStateFromProps === 'function') {
applyDerivedStateFromProps(workInProgress, ctor, getDerivedStateFromProps, newProps);
newState = workInProgress.memoizedState;
}
var shouldUpdate = checkHasForceUpdateAfterProcessing() || checkShouldComponentUpdate(workInProgress, ctor, oldProps, newProps, oldState, newState, nextContext);
if (shouldUpdate) {
if (!hasNewLifecycles && (typeof instance.UNSAFE_componentWillMount === 'function' || typeof instance.componentWillMount === 'function')) {
if (typeof instance.componentWillMount === 'function') {
instance.componentWillMount();
}
if (typeof instance.UNSAFE_componentWillMount === 'function') {
instance.UNSAFE_componentWillMount();
}
}
if (typeof instance.componentDidMount === 'function') {
workInProgress.flags |= Update;
}
} else {
if (typeof instance.componentDidMount === 'function') {
workInProgress.flags |= Update;
}
workInProgress.memoizedProps = newProps;
workInProgress.memoizedState = newState;
}
instance.props = newProps;
instance.state = newState;
instance.context = nextContext;
return shouldUpdate;
}
function updateClassInstance(current, workInProgress, ctor, newProps, renderLanes) {
var instance = workInProgress.stateNode;
cloneUpdateQueue(current, workInProgress);
var unresolvedOldProps = workInProgress.memoizedProps;
var oldProps = workInProgress.type === workInProgress.elementType ? unresolvedOldProps : resolveDefaultProps(workInProgress.type, unresolvedOldProps);
instance.props = oldProps;
var unresolvedNewProps = workInProgress.pendingProps;
var oldContext = instance.context;
var contextType = ctor.contextType;
var nextContext = emptyContextObject;
if (typeof contextType === 'object' && contextType !== null) {
nextContext = readContext(contextType);
} else {
var nextUnmaskedContext = getUnmaskedContext(workInProgress, ctor, true);
nextContext = getMaskedContext(workInProgress, nextUnmaskedContext);
}
var getDerivedStateFromProps = ctor.getDerivedStateFromProps;
var hasNewLifecycles = typeof getDerivedStateFromProps === 'function' || typeof instance.getSnapshotBeforeUpdate === 'function';
if (!hasNewLifecycles && (typeof instance.UNSAFE_componentWillReceiveProps === 'function' || typeof instance.componentWillReceiveProps === 'function')) {
if (unresolvedOldProps !== unresolvedNewProps || oldContext !== nextContext) {
callComponentWillReceiveProps(workInProgress, instance, newProps, nextContext);
}
}
resetHasForceUpdateBeforeProcessing();
var oldState = workInProgress.memoizedState;
var newState = instance.state = oldState;
processUpdateQueue(workInProgress, newProps, instance, renderLanes);
newState = workInProgress.memoizedState;
if (unresolvedOldProps === unresolvedNewProps && oldState === newState && !hasContextChanged() && !checkHasForceUpdateAfterProcessing()) {
if (typeof instance.componentDidUpdate === 'function') {
if (unresolvedOldProps !== current.memoizedProps || oldState !== current.memoizedState) {
workInProgress.flags |= Update;
}
}
if (typeof instance.getSnapshotBeforeUpdate === 'function') {
if (unresolvedOldProps !== current.memoizedProps || oldState !== current.memoizedState) {
workInProgress.flags |= Snapshot;
}
}
return false;
}
if (typeof getDerivedStateFromProps === 'function') {
applyDerivedStateFromProps(workInProgress, ctor, getDerivedStateFromProps, newProps);
newState = workInProgress.memoizedState;
}
var shouldUpdate = checkHasForceUpdateAfterProcessing() || checkShouldComponentUpdate(workInProgress, ctor, oldProps, newProps, oldState, newState, nextContext);
if (shouldUpdate) {
if (!hasNewLifecycles && (typeof instance.UNSAFE_componentWillUpdate === 'function' || typeof instance.componentWillUpdate === 'function')) {
if (typeof instance.componentWillUpdate === 'function') {
instance.componentWillUpdate(newProps, newState, nextContext);
}
if (typeof instance.UNSAFE_componentWillUpdate === 'function') {
instance.UNSAFE_componentWillUpdate(newProps, newState, nextContext);
}
}
if (typeof instance.componentDidUpdate === 'function') {
workInProgress.flags |= Update;
}
if (typeof instance.getSnapshotBeforeUpdate === 'function') {
workInProgress.flags |= Snapshot;
}
} else {
if (typeof instance.componentDidUpdate === 'function') {
if (unresolvedOldProps !== current.memoizedProps || oldState !== current.memoizedState) {
workInProgress.flags |= Update;
}
}
if (typeof instance.getSnapshotBeforeUpdate === 'function') {
if (unresolvedOldProps !== current.memoizedProps || oldState !== current.memoizedState) {
workInProgress.flags |= Snapshot;
}
}
workInProgress.memoizedProps = newProps;
workInProgress.memoizedState = newState;
}
instance.props = newProps;
instance.state = newState;
instance.context = nextContext;
return shouldUpdate;
}
var didWarnAboutMaps;
var didWarnAboutGenerators;
var didWarnAboutStringRefs;
var ownerHasKeyUseWarning;
var ownerHasFunctionTypeWarning;
var warnForMissingKey = function (child, returnFiber) {};
{
didWarnAboutMaps = false;
didWarnAboutGenerators = false;
didWarnAboutStringRefs = {};
ownerHasKeyUseWarning = {};
ownerHasFunctionTypeWarning = {};
warnForMissingKey = function (child, returnFiber) {
if (child === null || typeof child !== 'object') {
return;
}
if (!child._store || child._store.validated || child.key != null) {
return;
}
if (!(typeof child._store === 'object')) {
{
throw Error( "React Component in warnForMissingKey should have a _store. This error is likely caused by a bug in React. Please file an issue." );
}
}
child._store.validated = true;
var componentName = getComponentName(returnFiber.type) || 'Component';
if (ownerHasKeyUseWarning[componentName]) {
return;
}
ownerHasKeyUseWarning[componentName] = true;
error('Each child in a list should have a unique ' + '"key" prop. See https://reactjs.org/link/warning-keys for ' + 'more information.');
};
}
var isArray$1 = Array.isArray;
function coerceRef(returnFiber, current, element) {
var mixedRef = element.ref;
if (mixedRef !== null && typeof mixedRef !== 'function' && typeof mixedRef !== 'object') {
{
if ((returnFiber.mode & StrictMode || warnAboutStringRefs) &&
!(element._owner && element._self && element._owner.stateNode !== element._self)) {
var componentName = getComponentName(returnFiber.type) || 'Component';
if (!didWarnAboutStringRefs[componentName]) {
{
error('A string ref, "%s", has been found within a strict mode tree. ' + 'String refs are a source of potential bugs and should be avoided. ' + 'We recommend using useRef() or createRef() instead. ' + 'Learn more about using refs safely here: ' + 'https://reactjs.org/link/strict-mode-string-ref', mixedRef);
}
didWarnAboutStringRefs[componentName] = true;
}
}
}
if (element._owner) {
var owner = element._owner;
var inst;
if (owner) {
var ownerFiber = owner;
if (!(ownerFiber.tag === ClassComponent)) {
{
throw Error( "Function components cannot have string refs. We recommend using useRef() instead. Learn more about using refs safely here: https://reactjs.org/link/strict-mode-string-ref" );
}
}
inst = ownerFiber.stateNode;
}
if (!inst) {
{
throw Error( "Missing owner for string ref " + mixedRef + ". This error is likely caused by a bug in React. Please file an issue." );
}
}
var stringRef = '' + mixedRef;
if (current !== null && current.ref !== null && typeof current.ref === 'function' && current.ref._stringRef === stringRef) {
return current.ref;
}
var ref = function (value) {
var refs = inst.refs;
if (refs === emptyRefsObject) {
refs = inst.refs = {};
}
if (value === null) {
delete refs[stringRef];
} else {
refs[stringRef] = value;
}
};
ref._stringRef = stringRef;
return ref;
} else {
if (!(typeof mixedRef === 'string')) {
{
throw Error( "Expected ref to be a function, a string, an object returned by React.createRef(), or null." );
}
}
if (!element._owner) {
{
throw Error( "Element ref was specified as a string (" + mixedRef + ") but no owner was set. This could happen for one of the following reasons:\n1. You may be adding a ref to a function 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://reactjs.org/link/refs-must-have-owner for more information." );
}
}
}
}
return mixedRef;
}
function throwOnInvalidObjectType(returnFiber, newChild) {
if (returnFiber.type !== 'textarea') {
{
{
throw Error( "Objects are not valid as a React child (found: " + (Object.prototype.toString.call(newChild) === '[object Object]' ? 'object with keys {' + Object.keys(newChild).join(', ') + '}' : newChild) + "). If you meant to render a collection of children, use an array instead." );
}
}
}
}
function warnOnFunctionType(returnFiber) {
{
var componentName = getComponentName(returnFiber.type) || 'Component';
if (ownerHasFunctionTypeWarning[componentName]) {
return;
}
ownerHasFunctionTypeWarning[componentName] = true;
error('Functions are not valid as a React child. This may happen if ' + 'you return a Component instead of <Component /> from render. ' + 'Or maybe you meant to call this function rather than return it.');
}
}
function ChildReconciler(shouldTrackSideEffects) {
function deleteChild(returnFiber, childToDelete) {
if (!shouldTrackSideEffects) {
return;
}
var last = returnFiber.lastEffect;
if (last !== null) {
last.nextEffect = childToDelete;
returnFiber.lastEffect = childToDelete;
} else {
returnFiber.firstEffect = returnFiber.lastEffect = childToDelete;
}
childToDelete.nextEffect = null;
childToDelete.flags = Deletion;
}
function deleteRemainingChildren(returnFiber, currentFirstChild) {
if (!shouldTrackSideEffects) {
return null;
}
var childToDelete = currentFirstChild;
while (childToDelete !== null) {
deleteChild(returnFiber, childToDelete);
childToDelete = childToDelete.sibling;
}
return null;
}
function mapRemainingChildren(returnFiber, currentFirstChild) {
var existingChildren = new Map();
var existingChild = currentFirstChild;
while (existingChild !== null) {
if (existingChild.key !== null) {
existingChildren.set(existingChild.key, existingChild);
} else {
existingChildren.set(existingChild.index, existingChild);
}
existingChild = existingChild.sibling;
}
return existingChildren;
}
function useFiber(fiber, pendingProps) {
var clone = createWorkInProgress(fiber, pendingProps);
clone.index = 0;
clone.sibling = null;
return clone;
}
function placeChild(newFiber, lastPlacedIndex, newIndex) {
newFiber.index = newIndex;
if (!shouldTrackSideEffects) {
return lastPlacedIndex;
}
var current = newFiber.alternate;
if (current !== null) {
var oldIndex = current.index;
if (oldIndex < lastPlacedIndex) {
newFiber.flags = Placement;
return lastPlacedIndex;
} else {
return oldIndex;
}
} else {
newFiber.flags = Placement;
return lastPlacedIndex;
}
}
function placeSingleChild(newFiber) {
if (shouldTrackSideEffects && newFiber.alternate === null) {
newFiber.flags = Placement;
}
return newFiber;
}
function updateTextNode(returnFiber, current, textContent, lanes) {
if (current === null || current.tag !== HostText) {
var created = createFiberFromText(textContent, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
} else {
var existing = useFiber(current, textContent);
existing.return = returnFiber;
return existing;
}
}
function updateElement(returnFiber, current, element, lanes) {
if (current !== null) {
if (current.elementType === element.type || (
isCompatibleFamilyForHotReloading(current, element) )) {
var existing = useFiber(current, element.props);
existing.ref = coerceRef(returnFiber, current, element);
existing.return = returnFiber;
{
existing._debugSource = element._source;
existing._debugOwner = element._owner;
}
return existing;
}
}
var created = createFiberFromElement(element, returnFiber.mode, lanes);
created.ref = coerceRef(returnFiber, current, element);
created.return = returnFiber;
return created;
}
function updatePortal(returnFiber, current, portal, lanes) {
if (current === null || current.tag !== HostPortal || current.stateNode.containerInfo !== portal.containerInfo || current.stateNode.implementation !== portal.implementation) {
var created = createFiberFromPortal(portal, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
} else {
var existing = useFiber(current, portal.children || []);
existing.return = returnFiber;
return existing;
}
}
function updateFragment(returnFiber, current, fragment, lanes, key) {
if (current === null || current.tag !== Fragment) {
var created = createFiberFromFragment(fragment, returnFiber.mode, lanes, key);
created.return = returnFiber;
return created;
} else {
var existing = useFiber(current, fragment);
existing.return = returnFiber;
return existing;
}
}
function createChild(returnFiber, newChild, lanes) {
if (typeof newChild === 'string' || typeof newChild === 'number') {
var created = createFiberFromText('' + newChild, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
}
if (typeof newChild === 'object' && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
{
var _created = createFiberFromElement(newChild, returnFiber.mode, lanes);
_created.ref = coerceRef(returnFiber, null, newChild);
_created.return = returnFiber;
return _created;
}
case REACT_PORTAL_TYPE:
{
var _created2 = createFiberFromPortal(newChild, returnFiber.mode, lanes);
_created2.return = returnFiber;
return _created2;
}
}
if (isArray$1(newChild) || getIteratorFn(newChild)) {
var _created3 = createFiberFromFragment(newChild, returnFiber.mode, lanes, null);
_created3.return = returnFiber;
return _created3;
}
throwOnInvalidObjectType(returnFiber, newChild);
}
{
if (typeof newChild === 'function') {
warnOnFunctionType(returnFiber);
}
}
return null;
}
function updateSlot(returnFiber, oldFiber, newChild, lanes) {
var key = oldFiber !== null ? oldFiber.key : null;
if (typeof newChild === 'string' || typeof newChild === 'number') {
if (key !== null) {
return null;
}
return updateTextNode(returnFiber, oldFiber, '' + newChild, lanes);
}
if (typeof newChild === 'object' && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
{
if (newChild.key === key) {
if (newChild.type === REACT_FRAGMENT_TYPE) {
return updateFragment(returnFiber, oldFiber, newChild.props.children, lanes, key);
}
return updateElement(returnFiber, oldFiber, newChild, lanes);
} else {
return null;
}
}
case REACT_PORTAL_TYPE:
{
if (newChild.key === key) {
return updatePortal(returnFiber, oldFiber, newChild, lanes);
} else {
return null;
}
}
}
if (isArray$1(newChild) || getIteratorFn(newChild)) {
if (key !== null) {
return null;
}
return updateFragment(returnFiber, oldFiber, newChild, lanes, null);
}
throwOnInvalidObjectType(returnFiber, newChild);
}
{
if (typeof newChild === 'function') {
warnOnFunctionType(returnFiber);
}
}
return null;
}
function updateFromMap(existingChildren, returnFiber, newIdx, newChild, lanes) {
if (typeof newChild === 'string' || typeof newChild === 'number') {
var matchedFiber = existingChildren.get(newIdx) || null;
return updateTextNode(returnFiber, matchedFiber, '' + newChild, lanes);
}
if (typeof newChild === 'object' && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
{
var _matchedFiber = existingChildren.get(newChild.key === null ? newIdx : newChild.key) || null;
if (newChild.type === REACT_FRAGMENT_TYPE) {
return updateFragment(returnFiber, _matchedFiber, newChild.props.children, lanes, newChild.key);
}
return updateElement(returnFiber, _matchedFiber, newChild, lanes);
}
case REACT_PORTAL_TYPE:
{
var _matchedFiber2 = existingChildren.get(newChild.key === null ? newIdx : newChild.key) || null;
return updatePortal(returnFiber, _matchedFiber2, newChild, lanes);
}
}
if (isArray$1(newChild) || getIteratorFn(newChild)) {
var _matchedFiber3 = existingChildren.get(newIdx) || null;
return updateFragment(returnFiber, _matchedFiber3, newChild, lanes, null);
}
throwOnInvalidObjectType(returnFiber, newChild);
}
{
if (typeof newChild === 'function') {
warnOnFunctionType(returnFiber);
}
}
return null;
}
function warnOnInvalidKey(child, knownKeys, returnFiber) {
{
if (typeof child !== 'object' || child === null) {
return knownKeys;
}
switch (child.$$typeof) {
case REACT_ELEMENT_TYPE:
case REACT_PORTAL_TYPE:
warnForMissingKey(child, returnFiber);
var key = child.key;
if (typeof key !== 'string') {
break;
}
if (knownKeys === null) {
knownKeys = new Set();
knownKeys.add(key);
break;
}
if (!knownKeys.has(key)) {
knownKeys.add(key);
break;
}
error('Encountered two children with the same key, `%s`. ' + 'Keys should be unique so that components maintain their identity ' + 'across updates. Non-unique keys may cause children to be ' + 'duplicated and/or omitted — the behavior is unsupported and ' + 'could change in a future version.', key);
break;
}
}
return knownKeys;
}
function reconcileChildrenArray(returnFiber, currentFirstChild, newChildren, lanes) {
{
var knownKeys = null;
for (var i = 0; i < newChildren.length; i++) {
var child = newChildren[i];
knownKeys = warnOnInvalidKey(child, knownKeys, returnFiber);
}
}
var resultingFirstChild = null;
var previousNewFiber = null;
var oldFiber = currentFirstChild;
var lastPlacedIndex = 0;
var newIdx = 0;
var nextOldFiber = null;
for (; oldFiber !== null && newIdx < newChildren.length; newIdx++) {
if (oldFiber.index > newIdx) {
nextOldFiber = oldFiber;
oldFiber = null;
} else {
nextOldFiber = oldFiber.sibling;
}
var newFiber = updateSlot(returnFiber, oldFiber, newChildren[newIdx], lanes);
if (newFiber === null) {
if (oldFiber === null) {
oldFiber = nextOldFiber;
}
break;
}
if (shouldTrackSideEffects) {
if (oldFiber && newFiber.alternate === null) {
deleteChild(returnFiber, oldFiber);
}
}
lastPlacedIndex = placeChild(newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = newFiber;
} else {
previousNewFiber.sibling = newFiber;
}
previousNewFiber = newFiber;
oldFiber = nextOldFiber;
}
if (newIdx === newChildren.length) {
deleteRemainingChildren(returnFiber, oldFiber);
return resultingFirstChild;
}
if (oldFiber === null) {
for (; newIdx < newChildren.length; newIdx++) {
var _newFiber = createChild(returnFiber, newChildren[newIdx], lanes);
if (_newFiber === null) {
continue;
}
lastPlacedIndex = placeChild(_newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = _newFiber;
} else {
previousNewFiber.sibling = _newFiber;
}
previousNewFiber = _newFiber;
}
return resultingFirstChild;
}
var existingChildren = mapRemainingChildren(returnFiber, oldFiber);
for (; newIdx < newChildren.length; newIdx++) {
var _newFiber2 = updateFromMap(existingChildren, returnFiber, newIdx, newChildren[newIdx], lanes);
if (_newFiber2 !== null) {
if (shouldTrackSideEffects) {
if (_newFiber2.alternate !== null) {
existingChildren.delete(_newFiber2.key === null ? newIdx : _newFiber2.key);
}
}
lastPlacedIndex = placeChild(_newFiber2, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = _newFiber2;
} else {
previousNewFiber.sibling = _newFiber2;
}
previousNewFiber = _newFiber2;
}
}
if (shouldTrackSideEffects) {
existingChildren.forEach(function (child) {
return deleteChild(returnFiber, child);
});
}
return resultingFirstChild;
}
function reconcileChildrenIterator(returnFiber, currentFirstChild, newChildrenIterable, lanes) {
var iteratorFn = getIteratorFn(newChildrenIterable);
if (!(typeof iteratorFn === 'function')) {
{
throw Error( "An object is not an iterable. This error is likely caused by a bug in React. Please file an issue." );
}
}
{
if (typeof Symbol === 'function' &&
newChildrenIterable[Symbol.toStringTag] === 'Generator') {
if (!didWarnAboutGenerators) {
error('Using Generators as children is unsupported and will likely yield ' + 'unexpected results because enumerating a generator mutates it. ' + 'You may convert it to an array with `Array.from()` or the ' + '`[...spread]` operator before rendering. Keep in mind ' + 'you might need to polyfill these features for older browsers.');
}
didWarnAboutGenerators = true;
}
if (newChildrenIterable.entries === iteratorFn) {
if (!didWarnAboutMaps) {
error('Using Maps as children is not supported. ' + 'Use an array of keyed ReactElements instead.');
}
didWarnAboutMaps = true;
}
var _newChildren = iteratorFn.call(newChildrenIterable);
if (_newChildren) {
var knownKeys = null;
var _step = _newChildren.next();
for (; !_step.done; _step = _newChildren.next()) {
var child = _step.value;
knownKeys = warnOnInvalidKey(child, knownKeys, returnFiber);
}
}
}
var newChildren = iteratorFn.call(newChildrenIterable);
if (!(newChildren != null)) {
{
throw Error( "An iterable object provided no iterator." );
}
}
var resultingFirstChild = null;
var previousNewFiber = null;
var oldFiber = currentFirstChild;
var lastPlacedIndex = 0;
var newIdx = 0;
var nextOldFiber = null;
var step = newChildren.next();
for (; oldFiber !== null && !step.done; newIdx++, step = newChildren.next()) {
if (oldFiber.index > newIdx) {
nextOldFiber = oldFiber;
oldFiber = null;
} else {
nextOldFiber = oldFiber.sibling;
}
var newFiber = updateSlot(returnFiber, oldFiber, step.value, lanes);
if (newFiber === null) {
if (oldFiber === null) {
oldFiber = nextOldFiber;
}
break;
}
if (shouldTrackSideEffects) {
if (oldFiber && newFiber.alternate === null) {
deleteChild(returnFiber, oldFiber);
}
}
lastPlacedIndex = placeChild(newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = newFiber;
} else {
previousNewFiber.sibling = newFiber;
}
previousNewFiber = newFiber;
oldFiber = nextOldFiber;
}
if (step.done) {
deleteRemainingChildren(returnFiber, oldFiber);
return resultingFirstChild;
}
if (oldFiber === null) {
for (; !step.done; newIdx++, step = newChildren.next()) {
var _newFiber3 = createChild(returnFiber, step.value, lanes);
if (_newFiber3 === null) {
continue;
}
lastPlacedIndex = placeChild(_newFiber3, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = _newFiber3;
} else {
previousNewFiber.sibling = _newFiber3;
}
previousNewFiber = _newFiber3;
}
return resultingFirstChild;
}
var existingChildren = mapRemainingChildren(returnFiber, oldFiber);
for (; !step.done; newIdx++, step = newChildren.next()) {
var _newFiber4 = updateFromMap(existingChildren, returnFiber, newIdx, step.value, lanes);
if (_newFiber4 !== null) {
if (shouldTrackSideEffects) {
if (_newFiber4.alternate !== null) {
existingChildren.delete(_newFiber4.key === null ? newIdx : _newFiber4.key);
}
}
lastPlacedIndex = placeChild(_newFiber4, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = _newFiber4;
} else {
previousNewFiber.sibling = _newFiber4;
}
previousNewFiber = _newFiber4;
}
}
if (shouldTrackSideEffects) {
existingChildren.forEach(function (child) {
return deleteChild(returnFiber, child);
});
}
return resultingFirstChild;
}
function reconcileSingleTextNode(returnFiber, currentFirstChild, textContent, lanes) {
if (currentFirstChild !== null && currentFirstChild.tag === HostText) {
deleteRemainingChildren(returnFiber, currentFirstChild.sibling);
var existing = useFiber(currentFirstChild, textContent);
existing.return = returnFiber;
return existing;
}
deleteRemainingChildren(returnFiber, currentFirstChild);
var created = createFiberFromText(textContent, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
}
function reconcileSingleElement(returnFiber, currentFirstChild, element, lanes) {
var key = element.key;
var child = currentFirstChild;
while (child !== null) {
if (child.key === key) {
switch (child.tag) {
case Fragment:
{
if (element.type === REACT_FRAGMENT_TYPE) {
deleteRemainingChildren(returnFiber, child.sibling);
var existing = useFiber(child, element.props.children);
existing.return = returnFiber;
{
existing._debugSource = element._source;
existing._debugOwner = element._owner;
}
return existing;
}
break;
}
case Block:
default:
{
if (child.elementType === element.type || (
isCompatibleFamilyForHotReloading(child, element) )) {
deleteRemainingChildren(returnFiber, child.sibling);
var _existing3 = useFiber(child, element.props);
_existing3.ref = coerceRef(returnFiber, child, element);
_existing3.return = returnFiber;
{
_existing3._debugSource = element._source;
_existing3._debugOwner = element._owner;
}
return _existing3;
}
break;
}
}
deleteRemainingChildren(returnFiber, child);
break;
} else {
deleteChild(returnFiber, child);
}
child = child.sibling;
}
if (element.type === REACT_FRAGMENT_TYPE) {
var created = createFiberFromFragment(element.props.children, returnFiber.mode, lanes, element.key);
created.return = returnFiber;
return created;
} else {
var _created4 = createFiberFromElement(element, returnFiber.mode, lanes);
_created4.ref = coerceRef(returnFiber, currentFirstChild, element);
_created4.return = returnFiber;
return _created4;
}
}
function reconcileSinglePortal(returnFiber, currentFirstChild, portal, lanes) {
var key = portal.key;
var child = currentFirstChild;
while (child !== null) {
if (child.key === key) {
if (child.tag === HostPortal && child.stateNode.containerInfo === portal.containerInfo && child.stateNode.implementation === portal.implementation) {
deleteRemainingChildren(returnFiber, child.sibling);
var existing = useFiber(child, portal.children || []);
existing.return = returnFiber;
return existing;
} else {
deleteRemainingChildren(returnFiber, child);
break;
}
} else {
deleteChild(returnFiber, child);
}
child = child.sibling;
}
var created = createFiberFromPortal(portal, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
}
function reconcileChildFibers(returnFiber, currentFirstChild, newChild, lanes) {
var isUnkeyedTopLevelFragment = typeof newChild === 'object' && newChild !== null && newChild.type === REACT_FRAGMENT_TYPE && newChild.key === null;
if (isUnkeyedTopLevelFragment) {
newChild = newChild.props.children;
}
var isObject = typeof newChild === 'object' && newChild !== null;
if (isObject) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
return placeSingleChild(reconcileSingleElement(returnFiber, currentFirstChild, newChild, lanes));
case REACT_PORTAL_TYPE:
return placeSingleChild(reconcileSinglePortal(returnFiber, currentFirstChild, newChild, lanes));
}
}
if (typeof newChild === 'string' || typeof newChild === 'number') {
return placeSingleChild(reconcileSingleTextNode(returnFiber, currentFirstChild, '' + newChild, lanes));
}
if (isArray$1(newChild)) {
return reconcileChildrenArray(returnFiber, currentFirstChild, newChild, lanes);
}
if (getIteratorFn(newChild)) {
return reconcileChildrenIterator(returnFiber, currentFirstChild, newChild, lanes);
}
if (isObject) {
throwOnInvalidObjectType(returnFiber, newChild);
}
{
if (typeof newChild === 'function') {
warnOnFunctionType(returnFiber);
}
}
if (typeof newChild === 'undefined' && !isUnkeyedTopLevelFragment) {
switch (returnFiber.tag) {
case ClassComponent:
{
{
var instance = returnFiber.stateNode;
if (instance.render._isMockFunction) {
break;
}
}
}
case Block:
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent:
{
{
{
throw Error( (getComponentName(returnFiber.type) || 'Component') + "(...): Nothing was returned from render. This usually means a return statement is missing. Or, to render nothing, return null." );
}
}
}
}
}
return deleteRemainingChildren(returnFiber, currentFirstChild);
}
return reconcileChildFibers;
}
var reconcileChildFibers = ChildReconciler(true);
var mountChildFibers = ChildReconciler(false);
function cloneChildFibers(current, workInProgress) {
if (!(current === null || workInProgress.child === current.child)) {
{
throw Error( "Resuming work not yet implemented." );
}
}
if (workInProgress.child === null) {
return;
}
var currentChild = workInProgress.child;
var newChild = createWorkInProgress(currentChild, currentChild.pendingProps);
workInProgress.child = newChild;
newChild.return = workInProgress;
while (currentChild.sibling !== null) {
currentChild = currentChild.sibling;
newChild = newChild.sibling = createWorkInProgress(currentChild, currentChild.pendingProps);
newChild.return = workInProgress;
}
newChild.sibling = null;
}
function resetChildFibers(workInProgress, lanes) {
var child = workInProgress.child;
while (child !== null) {
resetWorkInProgress(child, lanes);
child = child.sibling;
}
}
var NO_CONTEXT = {};
var contextStackCursor$1 = createCursor(NO_CONTEXT);
var contextFiberStackCursor = createCursor(NO_CONTEXT);
var rootInstanceStackCursor = createCursor(NO_CONTEXT);
function requiredContext(c) {
if (!(c !== NO_CONTEXT)) {
{
throw Error( "Expected host context to exist. This error is likely caused by a bug in React. Please file an issue." );
}
}
return c;
}
function getRootHostContainer() {
var rootInstance = requiredContext(rootInstanceStackCursor.current);
return rootInstance;
}
function pushHostContainer(fiber, nextRootInstance) {
push(rootInstanceStackCursor, nextRootInstance, fiber);
push(contextFiberStackCursor, fiber, fiber);
push(contextStackCursor$1, NO_CONTEXT, fiber);
var nextRootContext = getRootHostContext(nextRootInstance);
pop(contextStackCursor$1, fiber);
push(contextStackCursor$1, nextRootContext, fiber);
}
function popHostContainer(fiber) {
pop(contextStackCursor$1, fiber);
pop(contextFiberStackCursor, fiber);
pop(rootInstanceStackCursor, fiber);
}
function getHostContext() {
var context = requiredContext(contextStackCursor$1.current);
return context;
}
function pushHostContext(fiber) {
requiredContext(rootInstanceStackCursor.current);
var context = requiredContext(contextStackCursor$1.current);
var nextContext = getChildHostContext(context, fiber.type);
if (context === nextContext) {
return;
}
push(contextFiberStackCursor, fiber, fiber);
push(contextStackCursor$1, nextContext, fiber);
}
function popHostContext(fiber) {
if (contextFiberStackCursor.current !== fiber) {
return;
}
pop(contextStackCursor$1, fiber);
pop(contextFiberStackCursor, fiber);
}
var DefaultSuspenseContext = 0;
var SubtreeSuspenseContextMask = 1;
var InvisibleParentSuspenseContext = 1;
var ForceSuspenseFallback = 2;
var suspenseStackCursor = createCursor(DefaultSuspenseContext);
function hasSuspenseContext(parentContext, flag) {
return (parentContext & flag) !== 0;
}
function setDefaultShallowSuspenseContext(parentContext) {
return parentContext & SubtreeSuspenseContextMask;
}
function setShallowSuspenseContext(parentContext, shallowContext) {
return parentContext & SubtreeSuspenseContextMask | shallowContext;
}
function addSubtreeSuspenseContext(parentContext, subtreeContext) {
return parentContext | subtreeContext;
}
function pushSuspenseContext(fiber, newContext) {
push(suspenseStackCursor, newContext, fiber);
}
function popSuspenseContext(fiber) {
pop(suspenseStackCursor, fiber);
}
function shouldCaptureSuspense(workInProgress, hasInvisibleParent) {
var nextState = workInProgress.memoizedState;
if (nextState !== null) {
if (nextState.dehydrated !== null) {
return true;
}
return false;
}
var props = workInProgress.memoizedProps;
if (props.fallback === undefined) {
return false;
}
if (props.unstable_avoidThisFallback !== true) {
return true;
}
if (hasInvisibleParent) {
return false;
}
return true;
}
function findFirstSuspended(row) {
var node = row;
while (node !== null) {
if (node.tag === SuspenseComponent) {
var state = node.memoizedState;
if (state !== null) {
var dehydrated = state.dehydrated;
if (dehydrated === null || isSuspenseInstancePending(dehydrated) || isSuspenseInstanceFallback(dehydrated)) {
return node;
}
}
} else if (node.tag === SuspenseListComponent &&
node.memoizedProps.revealOrder !== undefined) {
var didSuspend = (node.flags & DidCapture) !== NoFlags;
if (didSuspend) {
return node;
}
} else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === row) {
return null;
}
while (node.sibling === null) {
if (node.return === null || node.return === row) {
return null;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
return null;
}
var NoFlags$1 =
0;
var HasEffect =
1;
var Layout =
2;
var Passive$1 =
4;
var hydrationParentFiber = null;
var nextHydratableInstance = null;
var isHydrating = false;
function enterHydrationState(fiber) {
var parentInstance = fiber.stateNode.containerInfo;
nextHydratableInstance = getFirstHydratableChild(parentInstance);
hydrationParentFiber = fiber;
isHydrating = true;
return true;
}
function deleteHydratableInstance(returnFiber, instance) {
{
switch (returnFiber.tag) {
case HostRoot:
didNotHydrateContainerInstance(returnFiber.stateNode.containerInfo, instance);
break;
case HostComponent:
didNotHydrateInstance(returnFiber.type, returnFiber.memoizedProps, returnFiber.stateNode, instance);
break;
}
}
var childToDelete = createFiberFromHostInstanceForDeletion();
childToDelete.stateNode = instance;
childToDelete.return = returnFiber;
childToDelete.flags = Deletion;
if (returnFiber.lastEffect !== null) {
returnFiber.lastEffect.nextEffect = childToDelete;
returnFiber.lastEffect = childToDelete;
} else {
returnFiber.firstEffect = returnFiber.lastEffect = childToDelete;
}
}
function insertNonHydratedInstance(returnFiber, fiber) {
fiber.flags = fiber.flags & ~Hydrating | Placement;
{
switch (returnFiber.tag) {
case HostRoot:
{
var parentContainer = returnFiber.stateNode.containerInfo;
switch (fiber.tag) {
case HostComponent:
var type = fiber.type;
fiber.pendingProps;
didNotFindHydratableContainerInstance(parentContainer, type);
break;
case HostText:
var text = fiber.pendingProps;
didNotFindHydratableContainerTextInstance(parentContainer, text);
break;
}
break;
}
case HostComponent:
{
var parentType = returnFiber.type;
var parentProps = returnFiber.memoizedProps;
var parentInstance = returnFiber.stateNode;
switch (fiber.tag) {
case HostComponent:
var _type = fiber.type;
fiber.pendingProps;
didNotFindHydratableInstance(parentType, parentProps, parentInstance, _type);
break;
case HostText:
var _text = fiber.pendingProps;
didNotFindHydratableTextInstance(parentType, parentProps, parentInstance, _text);
break;
case SuspenseComponent:
didNotFindHydratableSuspenseInstance(parentType, parentProps);
break;
}
break;
}
default:
return;
}
}
}
function tryHydrate(fiber, nextInstance) {
switch (fiber.tag) {
case HostComponent:
{
var type = fiber.type;
fiber.pendingProps;
var instance = canHydrateInstance(nextInstance, type);
if (instance !== null) {
fiber.stateNode = instance;
return true;
}
return false;
}
case HostText:
{
var text = fiber.pendingProps;
var textInstance = canHydrateTextInstance(nextInstance, text);
if (textInstance !== null) {
fiber.stateNode = textInstance;
return true;
}
return false;
}
case SuspenseComponent:
{
return false;
}
default:
return false;
}
}
function tryToClaimNextHydratableInstance(fiber) {
if (!isHydrating) {
return;
}
var nextInstance = nextHydratableInstance;
if (!nextInstance) {
insertNonHydratedInstance(hydrationParentFiber, fiber);
isHydrating = false;
hydrationParentFiber = fiber;
return;
}
var firstAttemptedInstance = nextInstance;
if (!tryHydrate(fiber, nextInstance)) {
nextInstance = getNextHydratableSibling(firstAttemptedInstance);
if (!nextInstance || !tryHydrate(fiber, nextInstance)) {
insertNonHydratedInstance(hydrationParentFiber, fiber);
isHydrating = false;
hydrationParentFiber = fiber;
return;
}
deleteHydratableInstance(hydrationParentFiber, firstAttemptedInstance);
}
hydrationParentFiber = fiber;
nextHydratableInstance = getFirstHydratableChild(nextInstance);
}
function prepareToHydrateHostInstance(fiber, rootContainerInstance, hostContext) {
var instance = fiber.stateNode;
var updatePayload = hydrateInstance(instance, fiber.type, fiber.memoizedProps, rootContainerInstance, hostContext, fiber);
fiber.updateQueue = updatePayload;
if (updatePayload !== null) {
return true;
}
return false;
}
function prepareToHydrateHostTextInstance(fiber) {
var textInstance = fiber.stateNode;
var textContent = fiber.memoizedProps;
var shouldUpdate = hydrateTextInstance(textInstance, textContent, fiber);
{
if (shouldUpdate) {
var returnFiber = hydrationParentFiber;
if (returnFiber !== null) {
switch (returnFiber.tag) {
case HostRoot:
{
var parentContainer = returnFiber.stateNode.containerInfo;
didNotMatchHydratedContainerTextInstance(parentContainer, textInstance, textContent);
break;
}
case HostComponent:
{
var parentType = returnFiber.type;
var parentProps = returnFiber.memoizedProps;
var parentInstance = returnFiber.stateNode;
didNotMatchHydratedTextInstance(parentType, parentProps, parentInstance, textInstance, textContent);
break;
}
}
}
}
}
return shouldUpdate;
}
function skipPastDehydratedSuspenseInstance(fiber) {
var suspenseState = fiber.memoizedState;
var suspenseInstance = suspenseState !== null ? suspenseState.dehydrated : null;
if (!suspenseInstance) {
{
throw Error( "Expected to have a hydrated suspense instance. This error is likely caused by a bug in React. Please file an issue." );
}
}
return getNextHydratableInstanceAfterSuspenseInstance(suspenseInstance);
}
function popToNextHostParent(fiber) {
var parent = fiber.return;
while (parent !== null && parent.tag !== HostComponent && parent.tag !== HostRoot && parent.tag !== SuspenseComponent) {
parent = parent.return;
}
hydrationParentFiber = parent;
}
function popHydrationState(fiber) {
if (fiber !== hydrationParentFiber) {
return false;
}
if (!isHydrating) {
popToNextHostParent(fiber);
isHydrating = true;
return false;
}
var type = fiber.type;
if (fiber.tag !== HostComponent || type !== 'head' && type !== 'body' && !shouldSetTextContent(type, fiber.memoizedProps)) {
var nextInstance = nextHydratableInstance;
while (nextInstance) {
deleteHydratableInstance(fiber, nextInstance);
nextInstance = getNextHydratableSibling(nextInstance);
}
}
popToNextHostParent(fiber);
if (fiber.tag === SuspenseComponent) {
nextHydratableInstance = skipPastDehydratedSuspenseInstance(fiber);
} else {
nextHydratableInstance = hydrationParentFiber ? getNextHydratableSibling(fiber.stateNode) : null;
}
return true;
}
function resetHydrationState() {
hydrationParentFiber = null;
nextHydratableInstance = null;
isHydrating = false;
}
function getIsHydrating() {
return isHydrating;
}
var workInProgressSources = [];
var rendererSigil$1;
{
rendererSigil$1 = {};
}
function markSourceAsDirty(mutableSource) {
workInProgressSources.push(mutableSource);
}
function resetWorkInProgressVersions() {
for (var i = 0; i < workInProgressSources.length; i++) {
var mutableSource = workInProgressSources[i];
{
mutableSource._workInProgressVersionPrimary = null;
}
}
workInProgressSources.length = 0;
}
function getWorkInProgressVersion(mutableSource) {
{
return mutableSource._workInProgressVersionPrimary;
}
}
function setWorkInProgressVersion(mutableSource, version) {
{
mutableSource._workInProgressVersionPrimary = version;
}
workInProgressSources.push(mutableSource);
}
function warnAboutMultipleRenderersDEV(mutableSource) {
{
{
if (mutableSource._currentPrimaryRenderer == null) {
mutableSource._currentPrimaryRenderer = rendererSigil$1;
} else if (mutableSource._currentPrimaryRenderer !== rendererSigil$1) {
error('Detected multiple renderers concurrently rendering the ' + 'same mutable source. This is currently unsupported.');
}
}
}
}
var ReactCurrentDispatcher$1 = ReactSharedInternals.ReactCurrentDispatcher,
ReactCurrentBatchConfig$1 = ReactSharedInternals.ReactCurrentBatchConfig;
var didWarnAboutMismatchedHooksForComponent;
var didWarnAboutUseOpaqueIdentifier;
{
didWarnAboutUseOpaqueIdentifier = {};
didWarnAboutMismatchedHooksForComponent = new Set();
}
var renderLanes = NoLanes;
var currentlyRenderingFiber$1 = null;
var currentHook = null;
var workInProgressHook = null;
var didScheduleRenderPhaseUpdate = false;
var didScheduleRenderPhaseUpdateDuringThisPass = false;
var RE_RENDER_LIMIT = 25;
var currentHookNameInDev = null;
var hookTypesDev = null;
var hookTypesUpdateIndexDev = -1;
var ignorePreviousDependencies = false;
function mountHookTypesDev() {
{
var hookName = currentHookNameInDev;
if (hookTypesDev === null) {
hookTypesDev = [hookName];
} else {
hookTypesDev.push(hookName);
}
}
}
function updateHookTypesDev() {
{
var hookName = currentHookNameInDev;
if (hookTypesDev !== null) {
hookTypesUpdateIndexDev++;
if (hookTypesDev[hookTypesUpdateIndexDev] !== hookName) {
warnOnHookMismatchInDev(hookName);
}
}
}
}
function checkDepsAreArrayDev(deps) {
{
if (deps !== undefined && deps !== null && !Array.isArray(deps)) {
error('%s received a final argument that is not an array (instead, received `%s`). When ' + 'specified, the final argument must be an array.', currentHookNameInDev, typeof deps);
}
}
}
function warnOnHookMismatchInDev(currentHookName) {
{
var componentName = getComponentName(currentlyRenderingFiber$1.type);
if (!didWarnAboutMismatchedHooksForComponent.has(componentName)) {
didWarnAboutMismatchedHooksForComponent.add(componentName);
if (hookTypesDev !== null) {
var table = '';
var secondColumnStart = 30;
for (var i = 0; i <= hookTypesUpdateIndexDev; i++) {
var oldHookName = hookTypesDev[i];
var newHookName = i === hookTypesUpdateIndexDev ? currentHookName : oldHookName;
var row = i + 1 + ". " + oldHookName;
while (row.length < secondColumnStart) {
row += ' ';
}
row += newHookName + '\n';
table += row;
}
error('React has detected a change in the order of Hooks called by %s. ' + 'This will lead to bugs and errors if not fixed. ' + 'For more information, read the Rules of Hooks: https://reactjs.org/link/rules-of-hooks\n\n' + ' Previous render Next render\n' + ' ------------------------------------------------------\n' + '%s' + ' ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n', componentName, table);
}
}
}
}
function throwInvalidHookError() {
{
{
throw Error( "Invalid hook call. Hooks can only be called inside of the body of a function component. This could happen for one of the following reasons:\n1. You might have mismatching versions of React and the renderer (such as React DOM)\n2. You might be breaking the Rules of Hooks\n3. You might have more than one copy of React in the same app\nSee https://reactjs.org/link/invalid-hook-call for tips about how to debug and fix this problem." );
}
}
}
function areHookInputsEqual(nextDeps, prevDeps) {
{
if (ignorePreviousDependencies) {
return false;
}
}
if (prevDeps === null) {
{
error('%s received a final argument during this render, but not during ' + 'the previous render. Even though the final argument is optional, ' + 'its type cannot change between renders.', currentHookNameInDev);
}
return false;
}
{
if (nextDeps.length !== prevDeps.length) {
error('The final argument passed to %s changed size between renders. The ' + 'order and size of this array must remain constant.\n\n' + 'Previous: %s\n' + 'Incoming: %s', currentHookNameInDev, "[" + prevDeps.join(', ') + "]", "[" + nextDeps.join(', ') + "]");
}
}
for (var i = 0; i < prevDeps.length && i < nextDeps.length; i++) {
if (objectIs(nextDeps[i], prevDeps[i])) {
continue;
}
return false;
}
return true;
}
function renderWithHooks(current, workInProgress, Component, props, secondArg, nextRenderLanes) {
renderLanes = nextRenderLanes;
currentlyRenderingFiber$1 = workInProgress;
{
hookTypesDev = current !== null ? current._debugHookTypes : null;
hookTypesUpdateIndexDev = -1;
ignorePreviousDependencies = current !== null && current.type !== workInProgress.type;
}
workInProgress.memoizedState = null;
workInProgress.updateQueue = null;
workInProgress.lanes = NoLanes;
{
if (current !== null && current.memoizedState !== null) {
ReactCurrentDispatcher$1.current = HooksDispatcherOnUpdateInDEV;
} else if (hookTypesDev !== null) {
ReactCurrentDispatcher$1.current = HooksDispatcherOnMountWithHookTypesInDEV;
} else {
ReactCurrentDispatcher$1.current = HooksDispatcherOnMountInDEV;
}
}
var children = Component(props, secondArg);
if (didScheduleRenderPhaseUpdateDuringThisPass) {
var numberOfReRenders = 0;
do {
didScheduleRenderPhaseUpdateDuringThisPass = false;
if (!(numberOfReRenders < RE_RENDER_LIMIT)) {
{
throw Error( "Too many re-renders. React limits the number of renders to prevent an infinite loop." );
}
}
numberOfReRenders += 1;
{
ignorePreviousDependencies = false;
}
currentHook = null;
workInProgressHook = null;
workInProgress.updateQueue = null;
{
hookTypesUpdateIndexDev = -1;
}
ReactCurrentDispatcher$1.current = HooksDispatcherOnRerenderInDEV ;
children = Component(props, secondArg);
} while (didScheduleRenderPhaseUpdateDuringThisPass);
}
ReactCurrentDispatcher$1.current = ContextOnlyDispatcher;
{
workInProgress._debugHookTypes = hookTypesDev;
}
var didRenderTooFewHooks = currentHook !== null && currentHook.next !== null;
renderLanes = NoLanes;
currentlyRenderingFiber$1 = null;
currentHook = null;
workInProgressHook = null;
{
currentHookNameInDev = null;
hookTypesDev = null;
hookTypesUpdateIndexDev = -1;
}
didScheduleRenderPhaseUpdate = false;
if (!!didRenderTooFewHooks) {
{
throw Error( "Rendered fewer hooks than expected. This may be caused by an accidental early return statement." );
}
}
return children;
}
function bailoutHooks(current, workInProgress, lanes) {
workInProgress.updateQueue = current.updateQueue;
workInProgress.flags &= ~(Passive | Update);
current.lanes = removeLanes(current.lanes, lanes);
}
function resetHooksAfterThrow() {
ReactCurrentDispatcher$1.current = ContextOnlyDispatcher;
if (didScheduleRenderPhaseUpdate) {
var hook = currentlyRenderingFiber$1.memoizedState;
while (hook !== null) {
var queue = hook.queue;
if (queue !== null) {
queue.pending = null;
}
hook = hook.next;
}
didScheduleRenderPhaseUpdate = false;
}
renderLanes = NoLanes;
currentlyRenderingFiber$1 = null;
currentHook = null;
workInProgressHook = null;
{
hookTypesDev = null;
hookTypesUpdateIndexDev = -1;
currentHookNameInDev = null;
isUpdatingOpaqueValueInRenderPhase = false;
}
didScheduleRenderPhaseUpdateDuringThisPass = false;
}
function mountWorkInProgressHook() {
var hook = {
memoizedState: null,
baseState: null,
baseQueue: null,
queue: null,
next: null
};
if (workInProgressHook === null) {
currentlyRenderingFiber$1.memoizedState = workInProgressHook = hook;
} else {
workInProgressHook = workInProgressHook.next = hook;
}
return workInProgressHook;
}
function updateWorkInProgressHook() {
var nextCurrentHook;
if (currentHook === null) {
var current = currentlyRenderingFiber$1.alternate;
if (current !== null) {
nextCurrentHook = current.memoizedState;
} else {
nextCurrentHook = null;
}
} else {
nextCurrentHook = currentHook.next;
}
var nextWorkInProgressHook;
if (workInProgressHook === null) {
nextWorkInProgressHook = currentlyRenderingFiber$1.memoizedState;
} else {
nextWorkInProgressHook = workInProgressHook.next;
}
if (nextWorkInProgressHook !== null) {
workInProgressHook = nextWorkInProgressHook;
nextWorkInProgressHook = workInProgressHook.next;
currentHook = nextCurrentHook;
} else {
if (!(nextCurrentHook !== null)) {
{
throw Error( "Rendered more hooks than during the previous render." );
}
}
currentHook = nextCurrentHook;
var newHook = {
memoizedState: currentHook.memoizedState,
baseState: currentHook.baseState,
baseQueue: currentHook.baseQueue,
queue: currentHook.queue,
next: null
};
if (workInProgressHook === null) {
currentlyRenderingFiber$1.memoizedState = workInProgressHook = newHook;
} else {
workInProgressHook = workInProgressHook.next = newHook;
}
}
return workInProgressHook;
}
function createFunctionComponentUpdateQueue() {
return {
lastEffect: null
};
}
function basicStateReducer(state, action) {
return typeof action === 'function' ? action(state) : action;
}
function mountReducer(reducer, initialArg, init) {
var hook = mountWorkInProgressHook();
var initialState;
if (init !== undefined) {
initialState = init(initialArg);
} else {
initialState = initialArg;
}
hook.memoizedState = hook.baseState = initialState;
var queue = hook.queue = {
pending: null,
dispatch: null,
lastRenderedReducer: reducer,
lastRenderedState: initialState
};
var dispatch = queue.dispatch = dispatchAction.bind(null, currentlyRenderingFiber$1, queue);
return [hook.memoizedState, dispatch];
}
function updateReducer(reducer, initialArg, init) {
var hook = updateWorkInProgressHook();
var queue = hook.queue;
if (!(queue !== null)) {
{
throw Error( "Should have a queue. This is likely a bug in React. Please file an issue." );
}
}
queue.lastRenderedReducer = reducer;
var current = currentHook;
var baseQueue = current.baseQueue;
var pendingQueue = queue.pending;
if (pendingQueue !== null) {
if (baseQueue !== null) {
var baseFirst = baseQueue.next;
var pendingFirst = pendingQueue.next;
baseQueue.next = pendingFirst;
pendingQueue.next = baseFirst;
}
{
if (current.baseQueue !== baseQueue) {
error('Internal error: Expected work-in-progress queue to be a clone. ' + 'This is a bug in React.');
}
}
current.baseQueue = baseQueue = pendingQueue;
queue.pending = null;
}
if (baseQueue !== null) {
var first = baseQueue.next;
var newState = current.baseState;
var newBaseState = null;
var newBaseQueueFirst = null;
var newBaseQueueLast = null;
var update = first;
do {
var updateLane = update.lane;
if (!isSubsetOfLanes(renderLanes, updateLane)) {
var clone = {
lane: updateLane,
action: update.action,
eagerReducer: update.eagerReducer,
eagerState: update.eagerState,
next: null
};
if (newBaseQueueLast === null) {
newBaseQueueFirst = newBaseQueueLast = clone;
newBaseState = newState;
} else {
newBaseQueueLast = newBaseQueueLast.next = clone;
}
currentlyRenderingFiber$1.lanes = mergeLanes(currentlyRenderingFiber$1.lanes, updateLane);
markSkippedUpdateLanes(updateLane);
} else {
if (newBaseQueueLast !== null) {
var _clone = {
lane: NoLane,
action: update.action,
eagerReducer: update.eagerReducer,
eagerState: update.eagerState,
next: null
};
newBaseQueueLast = newBaseQueueLast.next = _clone;
}
if (update.eagerReducer === reducer) {
newState = update.eagerState;
} else {
var action = update.action;
newState = reducer(newState, action);
}
}
update = update.next;
} while (update !== null && update !== first);
if (newBaseQueueLast === null) {
newBaseState = newState;
} else {
newBaseQueueLast.next = newBaseQueueFirst;
}
if (!objectIs(newState, hook.memoizedState)) {
markWorkInProgressReceivedUpdate();
}
hook.memoizedState = newState;
hook.baseState = newBaseState;
hook.baseQueue = newBaseQueueLast;
queue.lastRenderedState = newState;
}
var dispatch = queue.dispatch;
return [hook.memoizedState, dispatch];
}
function rerenderReducer(reducer, initialArg, init) {
var hook = updateWorkInProgressHook();
var queue = hook.queue;
if (!(queue !== null)) {
{
throw Error( "Should have a queue. This is likely a bug in React. Please file an issue." );
}
}
queue.lastRenderedReducer = reducer;
var dispatch = queue.dispatch;
var lastRenderPhaseUpdate = queue.pending;
var newState = hook.memoizedState;
if (lastRenderPhaseUpdate !== null) {
queue.pending = null;
var firstRenderPhaseUpdate = lastRenderPhaseUpdate.next;
var update = firstRenderPhaseUpdate;
do {
var action = update.action;
newState = reducer(newState, action);
update = update.next;
} while (update !== firstRenderPhaseUpdate);
if (!objectIs(newState, hook.memoizedState)) {
markWorkInProgressReceivedUpdate();
}
hook.memoizedState = newState;
if (hook.baseQueue === null) {
hook.baseState = newState;
}
queue.lastRenderedState = newState;
}
return [newState, dispatch];
}
function readFromUnsubcribedMutableSource(root, source, getSnapshot) {
{
warnAboutMultipleRenderersDEV(source);
}
var getVersion = source._getVersion;
var version = getVersion(source._source);
var isSafeToReadFromSource = false;
var currentRenderVersion = getWorkInProgressVersion(source);
if (currentRenderVersion !== null) {
isSafeToReadFromSource = currentRenderVersion === version;
} else {
isSafeToReadFromSource = isSubsetOfLanes(renderLanes, root.mutableReadLanes);
if (isSafeToReadFromSource) {
setWorkInProgressVersion(source, version);
}
}
if (isSafeToReadFromSource) {
var snapshot = getSnapshot(source._source);
{
if (typeof snapshot === 'function') {
error('Mutable source should not return a function as the snapshot value. ' + 'Functions may close over mutable values and cause tearing.');
}
}
return snapshot;
} else {
markSourceAsDirty(source);
{
{
throw Error( "Cannot read from mutable source during the current render without tearing. This is a bug in React. Please file an issue." );
}
}
}
}
function useMutableSource(hook, source, getSnapshot, subscribe) {
var root = getWorkInProgressRoot();
if (!(root !== null)) {
{
throw Error( "Expected a work-in-progress root. This is a bug in React. Please file an issue." );
}
}
var getVersion = source._getVersion;
var version = getVersion(source._source);
var dispatcher = ReactCurrentDispatcher$1.current;
var _dispatcher$useState = dispatcher.useState(function () {
return readFromUnsubcribedMutableSource(root, source, getSnapshot);
}),
currentSnapshot = _dispatcher$useState[0],
setSnapshot = _dispatcher$useState[1];
var snapshot = currentSnapshot;
var stateHook = workInProgressHook;
var memoizedState = hook.memoizedState;
var refs = memoizedState.refs;
var prevGetSnapshot = refs.getSnapshot;
var prevSource = memoizedState.source;
var prevSubscribe = memoizedState.subscribe;
var fiber = currentlyRenderingFiber$1;
hook.memoizedState = {
refs: refs,
source: source,
subscribe: subscribe
};
dispatcher.useEffect(function () {
refs.getSnapshot = getSnapshot;
refs.setSnapshot = setSnapshot;
var maybeNewVersion = getVersion(source._source);
if (!objectIs(version, maybeNewVersion)) {
var maybeNewSnapshot = getSnapshot(source._source);
{
if (typeof maybeNewSnapshot === 'function') {
error('Mutable source should not return a function as the snapshot value. ' + 'Functions may close over mutable values and cause tearing.');
}
}
if (!objectIs(snapshot, maybeNewSnapshot)) {
setSnapshot(maybeNewSnapshot);
var lane = requestUpdateLane(fiber);
markRootMutableRead(root, lane);
}
markRootEntangled(root, root.mutableReadLanes);
}
}, [getSnapshot, source, subscribe]);
dispatcher.useEffect(function () {
var handleChange = function () {
var latestGetSnapshot = refs.getSnapshot;
var latestSetSnapshot = refs.setSnapshot;
try {
latestSetSnapshot(latestGetSnapshot(source._source));
var lane = requestUpdateLane(fiber);
markRootMutableRead(root, lane);
} catch (error) {
latestSetSnapshot(function () {
throw error;
});
}
};
var unsubscribe = subscribe(source._source, handleChange);
{
if (typeof unsubscribe !== 'function') {
error('Mutable source subscribe function must return an unsubscribe function.');
}
}
return unsubscribe;
}, [source, subscribe]);
if (!objectIs(prevGetSnapshot, getSnapshot) || !objectIs(prevSource, source) || !objectIs(prevSubscribe, subscribe)) {
var newQueue = {
pending: null,
dispatch: null,
lastRenderedReducer: basicStateReducer,
lastRenderedState: snapshot
};
newQueue.dispatch = setSnapshot = dispatchAction.bind(null, currentlyRenderingFiber$1, newQueue);
stateHook.queue = newQueue;
stateHook.baseQueue = null;
snapshot = readFromUnsubcribedMutableSource(root, source, getSnapshot);
stateHook.memoizedState = stateHook.baseState = snapshot;
}
return snapshot;
}
function mountMutableSource(source, getSnapshot, subscribe) {
var hook = mountWorkInProgressHook();
hook.memoizedState = {
refs: {
getSnapshot: getSnapshot,
setSnapshot: null
},
source: source,
subscribe: subscribe
};
return useMutableSource(hook, source, getSnapshot, subscribe);
}
function updateMutableSource(source, getSnapshot, subscribe) {
var hook = updateWorkInProgressHook();
return useMutableSource(hook, source, getSnapshot, subscribe);
}
function mountState(initialState) {
var hook = mountWorkInProgressHook();
if (typeof initialState === 'function') {
initialState = initialState();
}
hook.memoizedState = hook.baseState = initialState;
var queue = hook.queue = {
pending: null,
dispatch: null,
lastRenderedReducer: basicStateReducer,
lastRenderedState: initialState
};
var dispatch = queue.dispatch = dispatchAction.bind(null, currentlyRenderingFiber$1, queue);
return [hook.memoizedState, dispatch];
}
function updateState(initialState) {
return updateReducer(basicStateReducer);
}
function rerenderState(initialState) {
return rerenderReducer(basicStateReducer);
}
function pushEffect(tag, create, destroy, deps) {
var effect = {
tag: tag,
create: create,
destroy: destroy,
deps: deps,
next: null
};
var componentUpdateQueue = currentlyRenderingFiber$1.updateQueue;
if (componentUpdateQueue === null) {
componentUpdateQueue = createFunctionComponentUpdateQueue();
currentlyRenderingFiber$1.updateQueue = componentUpdateQueue;
componentUpdateQueue.lastEffect = effect.next = effect;
} else {
var lastEffect = componentUpdateQueue.lastEffect;
if (lastEffect === null) {
componentUpdateQueue.lastEffect = effect.next = effect;
} else {
var firstEffect = lastEffect.next;
lastEffect.next = effect;
effect.next = firstEffect;
componentUpdateQueue.lastEffect = effect;
}
}
return effect;
}
function mountRef(initialValue) {
var hook = mountWorkInProgressHook();
var ref = {
current: initialValue
};
{
Object.seal(ref);
}
hook.memoizedState = ref;
return ref;
}
function updateRef(initialValue) {
var hook = updateWorkInProgressHook();
return hook.memoizedState;
}
function mountEffectImpl(fiberFlags, hookFlags, create, deps) {
var hook = mountWorkInProgressHook();
var nextDeps = deps === undefined ? null : deps;
currentlyRenderingFiber$1.flags |= fiberFlags;
hook.memoizedState = pushEffect(HasEffect | hookFlags, create, undefined, nextDeps);
}
function updateEffectImpl(fiberFlags, hookFlags, create, deps) {
var hook = updateWorkInProgressHook();
var nextDeps = deps === undefined ? null : deps;
var destroy = undefined;
if (currentHook !== null) {
var prevEffect = currentHook.memoizedState;
destroy = prevEffect.destroy;
if (nextDeps !== null) {
var prevDeps = prevEffect.deps;
if (areHookInputsEqual(nextDeps, prevDeps)) {
pushEffect(hookFlags, create, destroy, nextDeps);
return;
}
}
}
currentlyRenderingFiber$1.flags |= fiberFlags;
hook.memoizedState = pushEffect(HasEffect | hookFlags, create, destroy, nextDeps);
}
function mountEffect(create, deps) {
{
if ('undefined' !== typeof jest) {
warnIfNotCurrentlyActingEffectsInDEV(currentlyRenderingFiber$1);
}
}
return mountEffectImpl(Update | Passive, Passive$1, create, deps);
}
function updateEffect(create, deps) {
{
if ('undefined' !== typeof jest) {
warnIfNotCurrentlyActingEffectsInDEV(currentlyRenderingFiber$1);
}
}
return updateEffectImpl(Update | Passive, Passive$1, create, deps);
}
function mountLayoutEffect(create, deps) {
return mountEffectImpl(Update, Layout, create, deps);
}
function updateLayoutEffect(create, deps) {
return updateEffectImpl(Update, Layout, create, deps);
}
function imperativeHandleEffect(create, ref) {
if (typeof ref === 'function') {
var refCallback = ref;
var _inst = create();
refCallback(_inst);
return function () {
refCallback(null);
};
} else if (ref !== null && ref !== undefined) {
var refObject = ref;
{
if (!refObject.hasOwnProperty('current')) {
error('Expected useImperativeHandle() first argument to either be a ' + 'ref callback or React.createRef() object. Instead received: %s.', 'an object with keys {' + Object.keys(refObject).join(', ') + '}');
}
}
var _inst2 = create();
refObject.current = _inst2;
return function () {
refObject.current = null;
};
}
}
function mountImperativeHandle(ref, create, deps) {
{
if (typeof create !== 'function') {
error('Expected useImperativeHandle() second argument to be a function ' + 'that creates a handle. Instead received: %s.', create !== null ? typeof create : 'null');
}
}
var effectDeps = deps !== null && deps !== undefined ? deps.concat([ref]) : null;
return mountEffectImpl(Update, Layout, imperativeHandleEffect.bind(null, create, ref), effectDeps);
}
function updateImperativeHandle(ref, create, deps) {
{
if (typeof create !== 'function') {
error('Expected useImperativeHandle() second argument to be a function ' + 'that creates a handle. Instead received: %s.', create !== null ? typeof create : 'null');
}
}
var effectDeps = deps !== null && deps !== undefined ? deps.concat([ref]) : null;
return updateEffectImpl(Update, Layout, imperativeHandleEffect.bind(null, create, ref), effectDeps);
}
function mountDebugValue(value, formatterFn) {
}
var updateDebugValue = mountDebugValue;
function mountCallback(callback, deps) {
var hook = mountWorkInProgressHook();
var nextDeps = deps === undefined ? null : deps;
hook.memoizedState = [callback, nextDeps];
return callback;
}
function updateCallback(callback, deps) {
var hook = updateWorkInProgressHook();
var nextDeps = deps === undefined ? null : deps;
var prevState = hook.memoizedState;
if (prevState !== null) {
if (nextDeps !== null) {
var prevDeps = prevState[1];
if (areHookInputsEqual(nextDeps, prevDeps)) {
return prevState[0];
}
}
}
hook.memoizedState = [callback, nextDeps];
return callback;
}
function mountMemo(nextCreate, deps) {
var hook = mountWorkInProgressHook();
var nextDeps = deps === undefined ? null : deps;
var nextValue = nextCreate();
hook.memoizedState = [nextValue, nextDeps];
return nextValue;
}
function updateMemo(nextCreate, deps) {
var hook = updateWorkInProgressHook();
var nextDeps = deps === undefined ? null : deps;
var prevState = hook.memoizedState;
if (prevState !== null) {
if (nextDeps !== null) {
var prevDeps = prevState[1];
if (areHookInputsEqual(nextDeps, prevDeps)) {
return prevState[0];
}
}
}
var nextValue = nextCreate();
hook.memoizedState = [nextValue, nextDeps];
return nextValue;
}
function mountDeferredValue(value) {
var _mountState = mountState(value),
prevValue = _mountState[0],
setValue = _mountState[1];
mountEffect(function () {
var prevTransition = ReactCurrentBatchConfig$1.transition;
ReactCurrentBatchConfig$1.transition = 1;
try {
setValue(value);
} finally {
ReactCurrentBatchConfig$1.transition = prevTransition;
}
}, [value]);
return prevValue;
}
function updateDeferredValue(value) {
var _updateState = updateState(),
prevValue = _updateState[0],
setValue = _updateState[1];
updateEffect(function () {
var prevTransition = ReactCurrentBatchConfig$1.transition;
ReactCurrentBatchConfig$1.transition = 1;
try {
setValue(value);
} finally {
ReactCurrentBatchConfig$1.transition = prevTransition;
}
}, [value]);
return prevValue;
}
function rerenderDeferredValue(value) {
var _rerenderState = rerenderState(),
prevValue = _rerenderState[0],
setValue = _rerenderState[1];
updateEffect(function () {
var prevTransition = ReactCurrentBatchConfig$1.transition;
ReactCurrentBatchConfig$1.transition = 1;
try {
setValue(value);
} finally {
ReactCurrentBatchConfig$1.transition = prevTransition;
}
}, [value]);
return prevValue;
}
function startTransition(setPending, callback) {
var priorityLevel = getCurrentPriorityLevel();
{
runWithPriority$1(priorityLevel < UserBlockingPriority$2 ? UserBlockingPriority$2 : priorityLevel, function () {
setPending(true);
});
runWithPriority$1(priorityLevel > NormalPriority$1 ? NormalPriority$1 : priorityLevel, function () {
var prevTransition = ReactCurrentBatchConfig$1.transition;
ReactCurrentBatchConfig$1.transition = 1;
try {
setPending(false);
callback();
} finally {
ReactCurrentBatchConfig$1.transition = prevTransition;
}
});
}
}
function mountTransition() {
var _mountState2 = mountState(false),
isPending = _mountState2[0],
setPending = _mountState2[1];
var start = startTransition.bind(null, setPending);
mountRef(start);
return [start, isPending];
}
function updateTransition() {
var _updateState2 = updateState(),
isPending = _updateState2[0];
var startRef = updateRef();
var start = startRef.current;
return [start, isPending];
}
function rerenderTransition() {
var _rerenderState2 = rerenderState(),
isPending = _rerenderState2[0];
var startRef = updateRef();
var start = startRef.current;
return [start, isPending];
}
var isUpdatingOpaqueValueInRenderPhase = false;
function getIsUpdatingOpaqueValueInRenderPhaseInDEV() {
{
return isUpdatingOpaqueValueInRenderPhase;
}
}
function warnOnOpaqueIdentifierAccessInDEV(fiber) {
{
var name = getComponentName(fiber.type) || 'Unknown';
if (getIsRendering() && !didWarnAboutUseOpaqueIdentifier[name]) {
error('The object passed back from useOpaqueIdentifier is meant to be ' + 'passed through to attributes only. Do not read the ' + 'value directly.');
didWarnAboutUseOpaqueIdentifier[name] = true;
}
}
}
function mountOpaqueIdentifier() {
var makeId = makeClientIdInDEV.bind(null, warnOnOpaqueIdentifierAccessInDEV.bind(null, currentlyRenderingFiber$1)) ;
if (getIsHydrating()) {
var didUpgrade = false;
var fiber = currentlyRenderingFiber$1;
var readValue = function () {
if (!didUpgrade) {
didUpgrade = true;
{
isUpdatingOpaqueValueInRenderPhase = true;
setId(makeId());
isUpdatingOpaqueValueInRenderPhase = false;
warnOnOpaqueIdentifierAccessInDEV(fiber);
}
}
{
{
throw Error( "The object passed back from useOpaqueIdentifier is meant to be passed through to attributes only. Do not read the value directly." );
}
}
};
var id = makeOpaqueHydratingObject(readValue);
var setId = mountState(id)[1];
if ((currentlyRenderingFiber$1.mode & BlockingMode) === NoMode) {
currentlyRenderingFiber$1.flags |= Update | Passive;
pushEffect(HasEffect | Passive$1, function () {
setId(makeId());
}, undefined, null);
}
return id;
} else {
var _id = makeId();
mountState(_id);
return _id;
}
}
function updateOpaqueIdentifier() {
var id = updateState()[0];
return id;
}
function rerenderOpaqueIdentifier() {
var id = rerenderState()[0];
return id;
}
function dispatchAction(fiber, queue, action) {
{
if (typeof arguments[3] === 'function') {
error("State updates from the useState() and useReducer() Hooks don't support the " + 'second callback argument. To execute a side effect after ' + 'rendering, declare it in the component body with useEffect().');
}
}
var eventTime = requestEventTime();
var lane = requestUpdateLane(fiber);
var update = {
lane: lane,
action: action,
eagerReducer: null,
eagerState: null,
next: null
};
var pending = queue.pending;
if (pending === null) {
update.next = update;
} else {
update.next = pending.next;
pending.next = update;
}
queue.pending = update;
var alternate = fiber.alternate;
if (fiber === currentlyRenderingFiber$1 || alternate !== null && alternate === currentlyRenderingFiber$1) {
didScheduleRenderPhaseUpdateDuringThisPass = didScheduleRenderPhaseUpdate = true;
} else {
if (fiber.lanes === NoLanes && (alternate === null || alternate.lanes === NoLanes)) {
var lastRenderedReducer = queue.lastRenderedReducer;
if (lastRenderedReducer !== null) {
var prevDispatcher;
{
prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
}
try {
var currentState = queue.lastRenderedState;
var eagerState = lastRenderedReducer(currentState, action);
update.eagerReducer = lastRenderedReducer;
update.eagerState = eagerState;
if (objectIs(eagerState, currentState)) {
return;
}
} catch (error) {
} finally {
{
ReactCurrentDispatcher$1.current = prevDispatcher;
}
}
}
}
{
if ('undefined' !== typeof jest) {
warnIfNotScopedWithMatchingAct(fiber);
warnIfNotCurrentlyActingUpdatesInDev(fiber);
}
}
scheduleUpdateOnFiber(fiber, lane, eventTime);
}
}
var ContextOnlyDispatcher = {
readContext: readContext,
useCallback: throwInvalidHookError,
useContext: throwInvalidHookError,
useEffect: throwInvalidHookError,
useImperativeHandle: throwInvalidHookError,
useLayoutEffect: throwInvalidHookError,
useMemo: throwInvalidHookError,
useReducer: throwInvalidHookError,
useRef: throwInvalidHookError,
useState: throwInvalidHookError,
useDebugValue: throwInvalidHookError,
useDeferredValue: throwInvalidHookError,
useTransition: throwInvalidHookError,
useMutableSource: throwInvalidHookError,
useOpaqueIdentifier: throwInvalidHookError,
unstable_isNewReconciler: enableNewReconciler
};
var HooksDispatcherOnMountInDEV = null;
var HooksDispatcherOnMountWithHookTypesInDEV = null;
var HooksDispatcherOnUpdateInDEV = null;
var HooksDispatcherOnRerenderInDEV = null;
var InvalidNestedHooksDispatcherOnMountInDEV = null;
var InvalidNestedHooksDispatcherOnUpdateInDEV = null;
var InvalidNestedHooksDispatcherOnRerenderInDEV = null;
{
var warnInvalidContextAccess = function () {
error('Context can only be read while React is rendering. ' + 'In classes, you can read it in the render method or getDerivedStateFromProps. ' + 'In function components, you can read it directly in the function body, but not ' + 'inside Hooks like useReducer() or useMemo().');
};
var warnInvalidHookAccess = function () {
error('Do not call Hooks inside useEffect(...), useMemo(...), or other built-in Hooks. ' + 'You can only call Hooks at the top level of your React function. ' + 'For more information, see ' + 'https://reactjs.org/link/rules-of-hooks');
};
HooksDispatcherOnMountInDEV = {
readContext: function (context, observedBits) {
return readContext(context, observedBits);
},
useCallback: function (callback, deps) {
currentHookNameInDev = 'useCallback';
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountCallback(callback, deps);
},
useContext: function (context, observedBits) {
currentHookNameInDev = 'useContext';
mountHookTypesDev();
return readContext(context, observedBits);
},
useEffect: function (create, deps) {
currentHookNameInDev = 'useEffect';
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountEffect(create, deps);
},
useImperativeHandle: function (ref, create, deps) {
currentHookNameInDev = 'useImperativeHandle';
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountImperativeHandle(ref, create, deps);
},
useLayoutEffect: function (create, deps) {
currentHookNameInDev = 'useLayoutEffect';
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountLayoutEffect(create, deps);
},
useMemo: function (create, deps) {
currentHookNameInDev = 'useMemo';
mountHookTypesDev();
checkDepsAreArrayDev(deps);
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function (reducer, initialArg, init) {
currentHookNameInDev = 'useReducer';
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function (initialValue) {
currentHookNameInDev = 'useRef';
mountHookTypesDev();
return mountRef(initialValue);
},
useState: function (initialState) {
currentHookNameInDev = 'useState';
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function (value, formatterFn) {
currentHookNameInDev = 'useDebugValue';
mountHookTypesDev();
return mountDebugValue();
},
useDeferredValue: function (value) {
currentHookNameInDev = 'useDeferredValue';
mountHookTypesDev();
return mountDeferredValue(value);
},
useTransition: function () {
currentHookNameInDev = 'useTransition';
mountHookTypesDev();
return mountTransition();
},
useMutableSource: function (source, getSnapshot, subscribe) {
currentHookNameInDev = 'useMutableSource';
mountHookTypesDev();
return mountMutableSource(source, getSnapshot, subscribe);
},
useOpaqueIdentifier: function () {
currentHookNameInDev = 'useOpaqueIdentifier';
mountHookTypesDev();
return mountOpaqueIdentifier();
},
unstable_isNewReconciler: enableNewReconciler
};
HooksDispatcherOnMountWithHookTypesInDEV = {
readContext: function (context, observedBits) {
return readContext(context, observedBits);
},
useCallback: function (callback, deps) {
currentHookNameInDev = 'useCallback';
updateHookTypesDev();
return mountCallback(callback, deps);
},
useContext: function (context, observedBits) {
currentHookNameInDev = 'useContext';
updateHookTypesDev();
return readContext(context, observedBits);
},
useEffect: function (create, deps) {
currentHookNameInDev = 'useEffect';
updateHookTypesDev();
return mountEffect(create, deps);
},
useImperativeHandle: function (ref, create, deps) {
currentHookNameInDev = 'useImperativeHandle';
updateHookTypesDev();
return mountImperativeHandle(ref, create, deps);
},
useLayoutEffect: function (create, deps) {
currentHookNameInDev = 'useLayoutEffect';
updateHookTypesDev();
return mountLayoutEffect(create, deps);
},
useMemo: function (create, deps) {
currentHookNameInDev = 'useMemo';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function (reducer, initialArg, init) {
currentHookNameInDev = 'useReducer';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function (initialValue) {
currentHookNameInDev = 'useRef';
updateHookTypesDev();
return mountRef(initialValue);
},
useState: function (initialState) {
currentHookNameInDev = 'useState';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function (value, formatterFn) {
currentHookNameInDev = 'useDebugValue';
updateHookTypesDev();
return mountDebugValue();
},
useDeferredValue: function (value) {
currentHookNameInDev = 'useDeferredValue';
updateHookTypesDev();
return mountDeferredValue(value);
},
useTransition: function () {
currentHookNameInDev = 'useTransition';
updateHookTypesDev();
return mountTransition();
},
useMutableSource: function (source, getSnapshot, subscribe) {
currentHookNameInDev = 'useMutableSource';
updateHookTypesDev();
return mountMutableSource(source, getSnapshot, subscribe);
},
useOpaqueIdentifier: function () {
currentHookNameInDev = 'useOpaqueIdentifier';
updateHookTypesDev();
return mountOpaqueIdentifier();
},
unstable_isNewReconciler: enableNewReconciler
};
HooksDispatcherOnUpdateInDEV = {
readContext: function (context, observedBits) {
return readContext(context, observedBits);
},
useCallback: function (callback, deps) {
currentHookNameInDev = 'useCallback';
updateHookTypesDev();
return updateCallback(callback, deps);
},
useContext: function (context, observedBits) {
currentHookNameInDev = 'useContext';
updateHookTypesDev();
return readContext(context, observedBits);
},
useEffect: function (create, deps) {
currentHookNameInDev = 'useEffect';
updateHookTypesDev();
return updateEffect(create, deps);
},
useImperativeHandle: function (ref, create, deps) {
currentHookNameInDev = 'useImperativeHandle';
updateHookTypesDev();
return updateImperativeHandle(ref, create, deps);
},
useLayoutEffect: function (create, deps) {
currentHookNameInDev = 'useLayoutEffect';
updateHookTypesDev();
return updateLayoutEffect(create, deps);
},
useMemo: function (create, deps) {
currentHookNameInDev = 'useMemo';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function (reducer, initialArg, init) {
currentHookNameInDev = 'useReducer';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function (initialValue) {
currentHookNameInDev = 'useRef';
updateHookTypesDev();
return updateRef();
},
useState: function (initialState) {
currentHookNameInDev = 'useState';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function (value, formatterFn) {
currentHookNameInDev = 'useDebugValue';
updateHookTypesDev();
return updateDebugValue();
},
useDeferredValue: function (value) {
currentHookNameInDev = 'useDeferredValue';
updateHookTypesDev();
return updateDeferredValue(value);
},
useTransition: function () {
currentHookNameInDev = 'useTransition';
updateHookTypesDev();
return updateTransition();
},
useMutableSource: function (source, getSnapshot, subscribe) {
currentHookNameInDev = 'useMutableSource';
updateHookTypesDev();
return updateMutableSource(source, getSnapshot, subscribe);
},
useOpaqueIdentifier: function () {
currentHookNameInDev = 'useOpaqueIdentifier';
updateHookTypesDev();
return updateOpaqueIdentifier();
},
unstable_isNewReconciler: enableNewReconciler
};
HooksDispatcherOnRerenderInDEV = {
readContext: function (context, observedBits) {
return readContext(context, observedBits);
},
useCallback: function (callback, deps) {
currentHookNameInDev = 'useCallback';
updateHookTypesDev();
return updateCallback(callback, deps);
},
useContext: function (context, observedBits) {
currentHookNameInDev = 'useContext';
updateHookTypesDev();
return readContext(context, observedBits);
},
useEffect: function (create, deps) {
currentHookNameInDev = 'useEffect';
updateHookTypesDev();
return updateEffect(create, deps);
},
useImperativeHandle: function (ref, create, deps) {
currentHookNameInDev = 'useImperativeHandle';
updateHookTypesDev();
return updateImperativeHandle(ref, create, deps);
},
useLayoutEffect: function (create, deps) {
currentHookNameInDev = 'useLayoutEffect';
updateHookTypesDev();
return updateLayoutEffect(create, deps);
},
useMemo: function (create, deps) {
currentHookNameInDev = 'useMemo';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnRerenderInDEV;
try {
return updateMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function (reducer, initialArg, init) {
currentHookNameInDev = 'useReducer';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnRerenderInDEV;
try {
return rerenderReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function (initialValue) {
currentHookNameInDev = 'useRef';
updateHookTypesDev();
return updateRef();
},
useState: function (initialState) {
currentHookNameInDev = 'useState';
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnRerenderInDEV;
try {
return rerenderState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function (value, formatterFn) {
currentHookNameInDev = 'useDebugValue';
updateHookTypesDev();
return updateDebugValue();
},
useDeferredValue: function (value) {
currentHookNameInDev = 'useDeferredValue';
updateHookTypesDev();
return rerenderDeferredValue(value);
},
useTransition: function () {
currentHookNameInDev = 'useTransition';
updateHookTypesDev();
return rerenderTransition();
},
useMutableSource: function (source, getSnapshot, subscribe) {
currentHookNameInDev = 'useMutableSource';
updateHookTypesDev();
return updateMutableSource(source, getSnapshot, subscribe);
},
useOpaqueIdentifier: function () {
currentHookNameInDev = 'useOpaqueIdentifier';
updateHookTypesDev();
return rerenderOpaqueIdentifier();
},
unstable_isNewReconciler: enableNewReconciler
};
InvalidNestedHooksDispatcherOnMountInDEV = {
readContext: function (context, observedBits) {
warnInvalidContextAccess();
return readContext(context, observedBits);
},
useCallback: function (callback, deps) {
currentHookNameInDev = 'useCallback';
warnInvalidHookAccess();
mountHookTypesDev();
return mountCallback(callback, deps);
},
useContext: function (context, observedBits) {
currentHookNameInDev = 'useContext';
warnInvalidHookAccess();
mountHookTypesDev();
return readContext(context, observedBits);
},
useEffect: function (create, deps) {
currentHookNameInDev = 'useEffect';
warnInvalidHookAccess();
mountHookTypesDev();
return mountEffect(create, deps);
},
useImperativeHandle: function (ref, create, deps) {
currentHookNameInDev = 'useImperativeHandle';
warnInvalidHookAccess();
mountHookTypesDev();
return mountImperativeHandle(ref, create, deps);
},
useLayoutEffect: function (create, deps) {
currentHookNameInDev = 'useLayoutEffect';
warnInvalidHookAccess();
mountHookTypesDev();
return mountLayoutEffect(create, deps);
},
useMemo: function (create, deps) {
currentHookNameInDev = 'useMemo';
warnInvalidHookAccess();
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function (reducer, initialArg, init) {
currentHookNameInDev = 'useReducer';
warnInvalidHookAccess();
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function (initialValue) {
currentHookNameInDev = 'useRef';
warnInvalidHookAccess();
mountHookTypesDev();
return mountRef(initialValue);
},
useState: function (initialState) {
currentHookNameInDev = 'useState';
warnInvalidHookAccess();
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function (value, formatterFn) {
currentHookNameInDev = 'useDebugValue';
warnInvalidHookAccess();
mountHookTypesDev();
return mountDebugValue();
},
useDeferredValue: function (value) {
currentHookNameInDev = 'useDeferredValue';
warnInvalidHookAccess();
mountHookTypesDev();
return mountDeferredValue(value);
},
useTransition: function () {
currentHookNameInDev = 'useTransition';
warnInvalidHookAccess();
mountHookTypesDev();
return mountTransition();
},
useMutableSource: function (source, getSnapshot, subscribe) {
currentHookNameInDev = 'useMutableSource';
warnInvalidHookAccess();
mountHookTypesDev();
return mountMutableSource(source, getSnapshot, subscribe);
},
useOpaqueIdentifier: function () {
currentHookNameInDev = 'useOpaqueIdentifier';
warnInvalidHookAccess();
mountHookTypesDev();
return mountOpaqueIdentifier();
},
unstable_isNewReconciler: enableNewReconciler
};
InvalidNestedHooksDispatcherOnUpdateInDEV = {
readContext: function (context, observedBits) {
warnInvalidContextAccess();
return readContext(context, observedBits);
},
useCallback: function (callback, deps) {
currentHookNameInDev = 'useCallback';
warnInvalidHookAccess();
updateHookTypesDev();
return updateCallback(callback, deps);
},
useContext: function (context, observedBits) {
currentHookNameInDev = 'useContext';
warnInvalidHookAccess();
updateHookTypesDev();
return readContext(context, observedBits);
},
useEffect: function (create, deps) {
currentHookNameInDev = 'useEffect';
warnInvalidHookAccess();
updateHookTypesDev();
return updateEffect(create, deps);
},
useImperativeHandle: function (ref, create, deps) {
currentHookNameInDev = 'useImperativeHandle';
warnInvalidHookAccess();
updateHookTypesDev();
return updateImperativeHandle(ref, create, deps);
},
useLayoutEffect: function (create, deps) {
currentHookNameInDev = 'useLayoutEffect';
warnInvalidHookAccess();
updateHookTypesDev();
return updateLayoutEffect(create, deps);
},
useMemo: function (create, deps) {
currentHookNameInDev = 'useMemo';
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function (reducer, initialArg, init) {
currentHookNameInDev = 'useReducer';
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function (initialValue) {
currentHookNameInDev = 'useRef';
warnInvalidHookAccess();
updateHookTypesDev();
return updateRef();
},
useState: function (initialState) {
currentHookNameInDev = 'useState';
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function (value, formatterFn) {
currentHookNameInDev = 'useDebugValue';
warnInvalidHookAccess();
updateHookTypesDev();
return updateDebugValue();
},
useDeferredValue: function (value) {
currentHookNameInDev = 'useDeferredValue';
warnInvalidHookAccess();
updateHookTypesDev();
return updateDeferredValue(value);
},
useTransition: function () {
currentHookNameInDev = 'useTransition';
warnInvalidHookAccess();
updateHookTypesDev();
return updateTransition();
},
useMutableSource: function (source, getSnapshot, subscribe) {
currentHookNameInDev = 'useMutableSource';
warnInvalidHookAccess();
updateHookTypesDev();
return updateMutableSource(source, getSnapshot, subscribe);
},
useOpaqueIdentifier: function () {
currentHookNameInDev = 'useOpaqueIdentifier';
warnInvalidHookAccess();
updateHookTypesDev();
return updateOpaqueIdentifier();
},
unstable_isNewReconciler: enableNewReconciler
};
InvalidNestedHooksDispatcherOnRerenderInDEV = {
readContext: function (context, observedBits) {
warnInvalidContextAccess();
return readContext(context, observedBits);
},
useCallback: function (callback, deps) {
currentHookNameInDev = 'useCallback';
warnInvalidHookAccess();
updateHookTypesDev();
return updateCallback(callback, deps);
},
useContext: function (context, observedBits) {
currentHookNameInDev = 'useContext';
warnInvalidHookAccess();
updateHookTypesDev();
return readContext(context, observedBits);
},
useEffect: function (create, deps) {
currentHookNameInDev = 'useEffect';
warnInvalidHookAccess();
updateHookTypesDev();
return updateEffect(create, deps);
},
useImperativeHandle: function (ref, create, deps) {
currentHookNameInDev = 'useImperativeHandle';
warnInvalidHookAccess();
updateHookTypesDev();
return updateImperativeHandle(ref, create, deps);
},
useLayoutEffect: function (create, deps) {
currentHookNameInDev = 'useLayoutEffect';
warnInvalidHookAccess();
updateHookTypesDev();
return updateLayoutEffect(create, deps);
},
useMemo: function (create, deps) {
currentHookNameInDev = 'useMemo';
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function (reducer, initialArg, init) {
currentHookNameInDev = 'useReducer';
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return rerenderReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function (initialValue) {
currentHookNameInDev = 'useRef';
warnInvalidHookAccess();
updateHookTypesDev();
return updateRef();
},
useState: function (initialState) {
currentHookNameInDev = 'useState';
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return rerenderState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function (value, formatterFn) {
currentHookNameInDev = 'useDebugValue';
warnInvalidHookAccess();
updateHookTypesDev();
return updateDebugValue();
},
useDeferredValue: function (value) {
currentHookNameInDev = 'useDeferredValue';
warnInvalidHookAccess();
updateHookTypesDev();
return rerenderDeferredValue(value);
},
useTransition: function () {
currentHookNameInDev = 'useTransition';
warnInvalidHookAccess();
updateHookTypesDev();
return rerenderTransition();
},
useMutableSource: function (source, getSnapshot, subscribe) {
currentHookNameInDev = 'useMutableSource';
warnInvalidHookAccess();
updateHookTypesDev();
return updateMutableSource(source, getSnapshot, subscribe);
},
useOpaqueIdentifier: function () {
currentHookNameInDev = 'useOpaqueIdentifier';
warnInvalidHookAccess();
updateHookTypesDev();
return rerenderOpaqueIdentifier();
},
unstable_isNewReconciler: enableNewReconciler
};
}
var now$1 = Scheduler.unstable_now;
var commitTime = 0;
var profilerStartTime = -1;
function getCommitTime() {
return commitTime;
}
function recordCommitTime() {
commitTime = now$1();
}
function startProfilerTimer(fiber) {
profilerStartTime = now$1();
if (fiber.actualStartTime < 0) {
fiber.actualStartTime = now$1();
}
}
function stopProfilerTimerIfRunning(fiber) {
profilerStartTime = -1;
}
function stopProfilerTimerIfRunningAndRecordDelta(fiber, overrideBaseTime) {
if (profilerStartTime >= 0) {
var elapsedTime = now$1() - profilerStartTime;
fiber.actualDuration += elapsedTime;
if (overrideBaseTime) {
fiber.selfBaseDuration = elapsedTime;
}
profilerStartTime = -1;
}
}
function transferActualDuration(fiber) {
var child = fiber.child;
while (child) {
fiber.actualDuration += child.actualDuration;
child = child.sibling;
}
}
var ReactCurrentOwner$1 = ReactSharedInternals.ReactCurrentOwner;
var didReceiveUpdate = false;
var didWarnAboutBadClass;
var didWarnAboutModulePatternComponent;
var didWarnAboutContextTypeOnFunctionComponent;
var didWarnAboutGetDerivedStateOnFunctionComponent;
var didWarnAboutFunctionRefs;
var didWarnAboutReassigningProps;
var didWarnAboutRevealOrder;
var didWarnAboutTailOptions;
{
didWarnAboutBadClass = {};
didWarnAboutModulePatternComponent = {};
didWarnAboutContextTypeOnFunctionComponent = {};
didWarnAboutGetDerivedStateOnFunctionComponent = {};
didWarnAboutFunctionRefs = {};
didWarnAboutReassigningProps = false;
didWarnAboutRevealOrder = {};
didWarnAboutTailOptions = {};
}
function reconcileChildren(current, workInProgress, nextChildren, renderLanes) {
if (current === null) {
workInProgress.child = mountChildFibers(workInProgress, null, nextChildren, renderLanes);
} else {
workInProgress.child = reconcileChildFibers(workInProgress, current.child, nextChildren, renderLanes);
}
}
function forceUnmountCurrentAndReconcile(current, workInProgress, nextChildren, renderLanes) {
workInProgress.child = reconcileChildFibers(workInProgress, current.child, null, renderLanes);
workInProgress.child = reconcileChildFibers(workInProgress, null, nextChildren, renderLanes);
}
function updateForwardRef(current, workInProgress, Component, nextProps, renderLanes) {
{
if (workInProgress.type !== workInProgress.elementType) {
var innerPropTypes = Component.propTypes;
if (innerPropTypes) {
checkPropTypes(innerPropTypes, nextProps,
'prop', getComponentName(Component));
}
}
}
var render = Component.render;
var ref = workInProgress.ref;
var nextChildren;
prepareToReadContext(workInProgress, renderLanes);
{
ReactCurrentOwner$1.current = workInProgress;
setIsRendering(true);
nextChildren = renderWithHooks(current, workInProgress, render, nextProps, ref, renderLanes);
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
nextChildren = renderWithHooks(current, workInProgress, render, nextProps, ref, renderLanes);
} finally {
reenableLogs();
}
}
setIsRendering(false);
}
if (current !== null && !didReceiveUpdate) {
bailoutHooks(current, workInProgress, renderLanes);
return bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
}
workInProgress.flags |= PerformedWork;
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
return workInProgress.child;
}
function updateMemoComponent(current, workInProgress, Component, nextProps, updateLanes, renderLanes) {
if (current === null) {
var type = Component.type;
if (isSimpleFunctionComponent(type) && Component.compare === null &&
Component.defaultProps === undefined) {
var resolvedType = type;
{
resolvedType = resolveFunctionForHotReloading(type);
}
workInProgress.tag = SimpleMemoComponent;
workInProgress.type = resolvedType;
{
validateFunctionComponentInDev(workInProgress, type);
}
return updateSimpleMemoComponent(current, workInProgress, resolvedType, nextProps, updateLanes, renderLanes);
}
{
var innerPropTypes = type.propTypes;
if (innerPropTypes) {
checkPropTypes(innerPropTypes, nextProps,
'prop', getComponentName(type));
}
}
var child = createFiberFromTypeAndProps(Component.type, null, nextProps, workInProgress, workInProgress.mode, renderLanes);
child.ref = workInProgress.ref;
child.return = workInProgress;
workInProgress.child = child;
return child;
}
{
var _type = Component.type;
var _innerPropTypes = _type.propTypes;
if (_innerPropTypes) {
checkPropTypes(_innerPropTypes, nextProps,
'prop', getComponentName(_type));
}
}
var currentChild = current.child;
if (!includesSomeLane(updateLanes, renderLanes)) {
var prevProps = currentChild.memoizedProps;
var compare = Component.compare;
compare = compare !== null ? compare : shallowEqual;
if (compare(prevProps, nextProps) && current.ref === workInProgress.ref) {
return bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
}
}
workInProgress.flags |= PerformedWork;
var newChild = createWorkInProgress(currentChild, nextProps);
newChild.ref = workInProgress.ref;
newChild.return = workInProgress;
workInProgress.child = newChild;
return newChild;
}
function updateSimpleMemoComponent(current, workInProgress, Component, nextProps, updateLanes, renderLanes) {
{
if (workInProgress.type !== workInProgress.elementType) {
var outerMemoType = workInProgress.elementType;
if (outerMemoType.$$typeof === REACT_LAZY_TYPE) {
var lazyComponent = outerMemoType;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
try {
outerMemoType = init(payload);
} catch (x) {
outerMemoType = null;
}
var outerPropTypes = outerMemoType && outerMemoType.propTypes;
if (outerPropTypes) {
checkPropTypes(outerPropTypes, nextProps,
'prop', getComponentName(outerMemoType));
}
}
}
}
if (current !== null) {
var prevProps = current.memoizedProps;
if (shallowEqual(prevProps, nextProps) && current.ref === workInProgress.ref && (
workInProgress.type === current.type )) {
didReceiveUpdate = false;
if (!includesSomeLane(renderLanes, updateLanes)) {
workInProgress.lanes = current.lanes;
return bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
} else if ((current.flags & ForceUpdateForLegacySuspense) !== NoFlags) {
didReceiveUpdate = true;
}
}
}
return updateFunctionComponent(current, workInProgress, Component, nextProps, renderLanes);
}
function updateOffscreenComponent(current, workInProgress, renderLanes) {
var nextProps = workInProgress.pendingProps;
var nextChildren = nextProps.children;
var prevState = current !== null ? current.memoizedState : null;
if (nextProps.mode === 'hidden' || nextProps.mode === 'unstable-defer-without-hiding') {
if ((workInProgress.mode & ConcurrentMode) === NoMode) {
var nextState = {
baseLanes: NoLanes
};
workInProgress.memoizedState = nextState;
pushRenderLanes(workInProgress, renderLanes);
} else if (!includesSomeLane(renderLanes, OffscreenLane)) {
var nextBaseLanes;
if (prevState !== null) {
var prevBaseLanes = prevState.baseLanes;
nextBaseLanes = mergeLanes(prevBaseLanes, renderLanes);
} else {
nextBaseLanes = renderLanes;
}
{
markSpawnedWork(OffscreenLane);
}
workInProgress.lanes = workInProgress.childLanes = laneToLanes(OffscreenLane);
var _nextState = {
baseLanes: nextBaseLanes
};
workInProgress.memoizedState = _nextState;
pushRenderLanes(workInProgress, nextBaseLanes);
return null;
} else {
var _nextState2 = {
baseLanes: NoLanes
};
workInProgress.memoizedState = _nextState2;
var subtreeRenderLanes = prevState !== null ? prevState.baseLanes : renderLanes;
pushRenderLanes(workInProgress, subtreeRenderLanes);
}
} else {
var _subtreeRenderLanes;
if (prevState !== null) {
_subtreeRenderLanes = mergeLanes(prevState.baseLanes, renderLanes);
workInProgress.memoizedState = null;
} else {
_subtreeRenderLanes = renderLanes;
}
pushRenderLanes(workInProgress, _subtreeRenderLanes);
}
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
return workInProgress.child;
}
var updateLegacyHiddenComponent = updateOffscreenComponent;
function updateFragment(current, workInProgress, renderLanes) {
var nextChildren = workInProgress.pendingProps;
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
return workInProgress.child;
}
function updateMode(current, workInProgress, renderLanes) {
var nextChildren = workInProgress.pendingProps.children;
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
return workInProgress.child;
}
function updateProfiler(current, workInProgress, renderLanes) {
{
workInProgress.flags |= Update;
var stateNode = workInProgress.stateNode;
stateNode.effectDuration = 0;
stateNode.passiveEffectDuration = 0;
}
var nextProps = workInProgress.pendingProps;
var nextChildren = nextProps.children;
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
return workInProgress.child;
}
function markRef(current, workInProgress) {
var ref = workInProgress.ref;
if (current === null && ref !== null || current !== null && current.ref !== ref) {
workInProgress.flags |= Ref;
}
}
function updateFunctionComponent(current, workInProgress, Component, nextProps, renderLanes) {
{
if (workInProgress.type !== workInProgress.elementType) {
var innerPropTypes = Component.propTypes;
if (innerPropTypes) {
checkPropTypes(innerPropTypes, nextProps,
'prop', getComponentName(Component));
}
}
}
var context;
{
var unmaskedContext = getUnmaskedContext(workInProgress, Component, true);
context = getMaskedContext(workInProgress, unmaskedContext);
}
var nextChildren;
prepareToReadContext(workInProgress, renderLanes);
{
ReactCurrentOwner$1.current = workInProgress;
setIsRendering(true);
nextChildren = renderWithHooks(current, workInProgress, Component, nextProps, context, renderLanes);
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
nextChildren = renderWithHooks(current, workInProgress, Component, nextProps, context, renderLanes);
} finally {
reenableLogs();
}
}
setIsRendering(false);
}
if (current !== null && !didReceiveUpdate) {
bailoutHooks(current, workInProgress, renderLanes);
return bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
}
workInProgress.flags |= PerformedWork;
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
return workInProgress.child;
}
function updateClassComponent(current, workInProgress, Component, nextProps, renderLanes) {
{
if (workInProgress.type !== workInProgress.elementType) {
var innerPropTypes = Component.propTypes;
if (innerPropTypes) {
checkPropTypes(innerPropTypes, nextProps,
'prop', getComponentName(Component));
}
}
}
var hasContext;
if (isContextProvider(Component)) {
hasContext = true;
pushContextProvider(workInProgress);
} else {
hasContext = false;
}
prepareToReadContext(workInProgress, renderLanes);
var instance = workInProgress.stateNode;
var shouldUpdate;
if (instance === null) {
if (current !== null) {
current.alternate = null;
workInProgress.alternate = null;
workInProgress.flags |= Placement;
}
constructClassInstance(workInProgress, Component, nextProps);
mountClassInstance(workInProgress, Component, nextProps, renderLanes);
shouldUpdate = true;
} else if (current === null) {
shouldUpdate = resumeMountClassInstance(workInProgress, Component, nextProps, renderLanes);
} else {
shouldUpdate = updateClassInstance(current, workInProgress, Component, nextProps, renderLanes);
}
var nextUnitOfWork = finishClassComponent(current, workInProgress, Component, shouldUpdate, hasContext, renderLanes);
{
var inst = workInProgress.stateNode;
if (shouldUpdate && inst.props !== nextProps) {
if (!didWarnAboutReassigningProps) {
error('It looks like %s is reassigning its own `this.props` while rendering. ' + 'This is not supported and can lead to confusing bugs.', getComponentName(workInProgress.type) || 'a component');
}
didWarnAboutReassigningProps = true;
}
}
return nextUnitOfWork;
}
function finishClassComponent(current, workInProgress, Component, shouldUpdate, hasContext, renderLanes) {
markRef(current, workInProgress);
var didCaptureError = (workInProgress.flags & DidCapture) !== NoFlags;
if (!shouldUpdate && !didCaptureError) {
if (hasContext) {
invalidateContextProvider(workInProgress, Component, false);
}
return bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
}
var instance = workInProgress.stateNode;
ReactCurrentOwner$1.current = workInProgress;
var nextChildren;
if (didCaptureError && typeof Component.getDerivedStateFromError !== 'function') {
nextChildren = null;
{
stopProfilerTimerIfRunning();
}
} else {
{
setIsRendering(true);
nextChildren = instance.render();
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
instance.render();
} finally {
reenableLogs();
}
}
setIsRendering(false);
}
}
workInProgress.flags |= PerformedWork;
if (current !== null && didCaptureError) {
forceUnmountCurrentAndReconcile(current, workInProgress, nextChildren, renderLanes);
} else {
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
}
workInProgress.memoizedState = instance.state;
if (hasContext) {
invalidateContextProvider(workInProgress, Component, true);
}
return workInProgress.child;
}
function pushHostRootContext(workInProgress) {
var root = workInProgress.stateNode;
if (root.pendingContext) {
pushTopLevelContextObject(workInProgress, root.pendingContext, root.pendingContext !== root.context);
} else if (root.context) {
pushTopLevelContextObject(workInProgress, root.context, false);
}
pushHostContainer(workInProgress, root.containerInfo);
}
function updateHostRoot(current, workInProgress, renderLanes) {
pushHostRootContext(workInProgress);
var updateQueue = workInProgress.updateQueue;
if (!(current !== null && updateQueue !== null)) {
{
throw Error( "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." );
}
}
var nextProps = workInProgress.pendingProps;
var prevState = workInProgress.memoizedState;
var prevChildren = prevState !== null ? prevState.element : null;
cloneUpdateQueue(current, workInProgress);
processUpdateQueue(workInProgress, nextProps, null, renderLanes);
var nextState = workInProgress.memoizedState;
var nextChildren = nextState.element;
if (nextChildren === prevChildren) {
resetHydrationState();
return bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
}
var root = workInProgress.stateNode;
if (root.hydrate && enterHydrationState(workInProgress)) {
{
var mutableSourceEagerHydrationData = root.mutableSourceEagerHydrationData;
if (mutableSourceEagerHydrationData != null) {
for (var i = 0; i < mutableSourceEagerHydrationData.length; i += 2) {
var mutableSource = mutableSourceEagerHydrationData[i];
var version = mutableSourceEagerHydrationData[i + 1];
setWorkInProgressVersion(mutableSource, version);
}
}
}
var child = mountChildFibers(workInProgress, null, nextChildren, renderLanes);
workInProgress.child = child;
var node = child;
while (node) {
node.flags = node.flags & ~Placement | Hydrating;
node = node.sibling;
}
} else {
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
resetHydrationState();
}
return workInProgress.child;
}
function updateHostComponent(current, workInProgress, renderLanes) {
pushHostContext(workInProgress);
if (current === null) {
tryToClaimNextHydratableInstance(workInProgress);
}
var type = workInProgress.type;
var nextProps = workInProgress.pendingProps;
var prevProps = current !== null ? current.memoizedProps : null;
var nextChildren = nextProps.children;
var isDirectTextChild = shouldSetTextContent(type, nextProps);
if (isDirectTextChild) {
nextChildren = null;
} else if (prevProps !== null && shouldSetTextContent(type, prevProps)) {
workInProgress.flags |= ContentReset;
}
markRef(current, workInProgress);
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
return workInProgress.child;
}
function updateHostText(current, workInProgress) {
if (current === null) {
tryToClaimNextHydratableInstance(workInProgress);
}
return null;
}
function mountLazyComponent(_current, workInProgress, elementType, updateLanes, renderLanes) {
if (_current !== null) {
_current.alternate = null;
workInProgress.alternate = null;
workInProgress.flags |= Placement;
}
var props = workInProgress.pendingProps;
var lazyComponent = elementType;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
var Component = init(payload);
workInProgress.type = Component;
var resolvedTag = workInProgress.tag = resolveLazyComponentTag(Component);
var resolvedProps = resolveDefaultProps(Component, props);
var child;
switch (resolvedTag) {
case FunctionComponent:
{
{
validateFunctionComponentInDev(workInProgress, Component);
workInProgress.type = Component = resolveFunctionForHotReloading(Component);
}
child = updateFunctionComponent(null, workInProgress, Component, resolvedProps, renderLanes);
return child;
}
case ClassComponent:
{
{
workInProgress.type = Component = resolveClassForHotReloading(Component);
}
child = updateClassComponent(null, workInProgress, Component, resolvedProps, renderLanes);
return child;
}
case ForwardRef:
{
{
workInProgress.type = Component = resolveForwardRefForHotReloading(Component);
}
child = updateForwardRef(null, workInProgress, Component, resolvedProps, renderLanes);
return child;
}
case MemoComponent:
{
{
if (workInProgress.type !== workInProgress.elementType) {
var outerPropTypes = Component.propTypes;
if (outerPropTypes) {
checkPropTypes(outerPropTypes, resolvedProps,
'prop', getComponentName(Component));
}
}
}
child = updateMemoComponent(null, workInProgress, Component, resolveDefaultProps(Component.type, resolvedProps),
updateLanes, renderLanes);
return child;
}
}
var hint = '';
{
if (Component !== null && typeof Component === 'object' && Component.$$typeof === REACT_LAZY_TYPE) {
hint = ' Did you wrap a component in React.lazy() more than once?';
}
}
{
{
throw Error( "Element type is invalid. Received a promise that resolves to: " + Component + ". Lazy element type must resolve to a class or function." + hint );
}
}
}
function mountIncompleteClassComponent(_current, workInProgress, Component, nextProps, renderLanes) {
if (_current !== null) {
_current.alternate = null;
workInProgress.alternate = null;
workInProgress.flags |= Placement;
}
workInProgress.tag = ClassComponent;
var hasContext;
if (isContextProvider(Component)) {
hasContext = true;
pushContextProvider(workInProgress);
} else {
hasContext = false;
}
prepareToReadContext(workInProgress, renderLanes);
constructClassInstance(workInProgress, Component, nextProps);
mountClassInstance(workInProgress, Component, nextProps, renderLanes);
return finishClassComponent(null, workInProgress, Component, true, hasContext, renderLanes);
}
function mountIndeterminateComponent(_current, workInProgress, Component, renderLanes) {
if (_current !== null) {
_current.alternate = null;
workInProgress.alternate = null;
workInProgress.flags |= Placement;
}
var props = workInProgress.pendingProps;
var context;
{
var unmaskedContext = getUnmaskedContext(workInProgress, Component, false);
context = getMaskedContext(workInProgress, unmaskedContext);
}
prepareToReadContext(workInProgress, renderLanes);
var value;
{
if (Component.prototype && typeof Component.prototype.render === 'function') {
var componentName = getComponentName(Component) || 'Unknown';
if (!didWarnAboutBadClass[componentName]) {
error("The <%s /> component appears to have a render method, but doesn't extend React.Component. " + 'This is likely to cause errors. Change %s to extend React.Component instead.', componentName, componentName);
didWarnAboutBadClass[componentName] = true;
}
}
if (workInProgress.mode & StrictMode) {
ReactStrictModeWarnings.recordLegacyContextWarning(workInProgress, null);
}
setIsRendering(true);
ReactCurrentOwner$1.current = workInProgress;
value = renderWithHooks(null, workInProgress, Component, props, context, renderLanes);
setIsRendering(false);
}
workInProgress.flags |= PerformedWork;
{
if (typeof value === 'object' && value !== null && typeof value.render === 'function' && value.$$typeof === undefined) {
var _componentName = getComponentName(Component) || 'Unknown';
if (!didWarnAboutModulePatternComponent[_componentName]) {
error('The <%s /> component appears to be a function component that returns a class instance. ' + 'Change %s to a class that extends React.Component instead. ' + "If you can't use a class try assigning the prototype on the function as a workaround. " + "`%s.prototype = React.Component.prototype`. Don't use an arrow function since it " + 'cannot be called with `new` by React.', _componentName, _componentName, _componentName);
didWarnAboutModulePatternComponent[_componentName] = true;
}
}
}
if (
typeof value === 'object' && value !== null && typeof value.render === 'function' && value.$$typeof === undefined) {
{
var _componentName2 = getComponentName(Component) || 'Unknown';
if (!didWarnAboutModulePatternComponent[_componentName2]) {
error('The <%s /> component appears to be a function component that returns a class instance. ' + 'Change %s to a class that extends React.Component instead. ' + "If you can't use a class try assigning the prototype on the function as a workaround. " + "`%s.prototype = React.Component.prototype`. Don't use an arrow function since it " + 'cannot be called with `new` by React.', _componentName2, _componentName2, _componentName2);
didWarnAboutModulePatternComponent[_componentName2] = true;
}
}
workInProgress.tag = ClassComponent;
workInProgress.memoizedState = null;
workInProgress.updateQueue = null;
var hasContext = false;
if (isContextProvider(Component)) {
hasContext = true;
pushContextProvider(workInProgress);
} else {
hasContext = false;
}
workInProgress.memoizedState = value.state !== null && value.state !== undefined ? value.state : null;
initializeUpdateQueue(workInProgress);
var getDerivedStateFromProps = Component.getDerivedStateFromProps;
if (typeof getDerivedStateFromProps === 'function') {
applyDerivedStateFromProps(workInProgress, Component, getDerivedStateFromProps, props);
}
adoptClassInstance(workInProgress, value);
mountClassInstance(workInProgress, Component, props, renderLanes);
return finishClassComponent(null, workInProgress, Component, true, hasContext, renderLanes);
} else {
workInProgress.tag = FunctionComponent;
{
if ( workInProgress.mode & StrictMode) {
disableLogs();
try {
value = renderWithHooks(null, workInProgress, Component, props, context, renderLanes);
} finally {
reenableLogs();
}
}
}
reconcileChildren(null, workInProgress, value, renderLanes);
{
validateFunctionComponentInDev(workInProgress, Component);
}
return workInProgress.child;
}
}
function validateFunctionComponentInDev(workInProgress, Component) {
{
if (Component) {
if (Component.childContextTypes) {
error('%s(...): childContextTypes cannot be defined on a function component.', Component.displayName || Component.name || 'Component');
}
}
if (workInProgress.ref !== null) {
var info = '';
var ownerName = getCurrentFiberOwnerNameInDevOrNull();
if (ownerName) {
info += '\n\nCheck the render method of `' + ownerName + '`.';
}
var warningKey = ownerName || workInProgress._debugID || '';
var debugSource = workInProgress._debugSource;
if (debugSource) {
warningKey = debugSource.fileName + ':' + debugSource.lineNumber;
}
if (!didWarnAboutFunctionRefs[warningKey]) {
didWarnAboutFunctionRefs[warningKey] = true;
error('Function components cannot be given refs. ' + 'Attempts to access this ref will fail. ' + 'Did you mean to use React.forwardRef()?%s', info);
}
}
if (typeof Component.getDerivedStateFromProps === 'function') {
var _componentName3 = getComponentName(Component) || 'Unknown';
if (!didWarnAboutGetDerivedStateOnFunctionComponent[_componentName3]) {
error('%s: Function components do not support getDerivedStateFromProps.', _componentName3);
didWarnAboutGetDerivedStateOnFunctionComponent[_componentName3] = true;
}
}
if (typeof Component.contextType === 'object' && Component.contextType !== null) {
var _componentName4 = getComponentName(Component) || 'Unknown';
if (!didWarnAboutContextTypeOnFunctionComponent[_componentName4]) {
error('%s: Function components do not support contextType.', _componentName4);
didWarnAboutContextTypeOnFunctionComponent[_componentName4] = true;
}
}
}
}
var SUSPENDED_MARKER = {
dehydrated: null,
retryLane: NoLane
};
function mountSuspenseOffscreenState(renderLanes) {
return {
baseLanes: renderLanes
};
}
function updateSuspenseOffscreenState(prevOffscreenState, renderLanes) {
return {
baseLanes: mergeLanes(prevOffscreenState.baseLanes, renderLanes)
};
}
function shouldRemainOnFallback(suspenseContext, current, workInProgress, renderLanes) {
if (current !== null) {
var suspenseState = current.memoizedState;
if (suspenseState === null) {
return false;
}
}
return hasSuspenseContext(suspenseContext, ForceSuspenseFallback);
}
function getRemainingWorkInPrimaryTree(current, renderLanes) {
return removeLanes(current.childLanes, renderLanes);
}
function updateSuspenseComponent(current, workInProgress, renderLanes) {
var nextProps = workInProgress.pendingProps;
{
if (shouldSuspend(workInProgress)) {
workInProgress.flags |= DidCapture;
}
}
var suspenseContext = suspenseStackCursor.current;
var showFallback = false;
var didSuspend = (workInProgress.flags & DidCapture) !== NoFlags;
if (didSuspend || shouldRemainOnFallback(suspenseContext, current)) {
showFallback = true;
workInProgress.flags &= ~DidCapture;
} else {
if (current === null || current.memoizedState !== null) {
if (nextProps.fallback !== undefined && nextProps.unstable_avoidThisFallback !== true) {
suspenseContext = addSubtreeSuspenseContext(suspenseContext, InvisibleParentSuspenseContext);
}
}
}
suspenseContext = setDefaultShallowSuspenseContext(suspenseContext);
pushSuspenseContext(workInProgress, suspenseContext);
if (current === null) {
if (nextProps.fallback !== undefined) {
tryToClaimNextHydratableInstance(workInProgress);
}
var nextPrimaryChildren = nextProps.children;
var nextFallbackChildren = nextProps.fallback;
if (showFallback) {
var fallbackFragment = mountSuspenseFallbackChildren(workInProgress, nextPrimaryChildren, nextFallbackChildren, renderLanes);
var primaryChildFragment = workInProgress.child;
primaryChildFragment.memoizedState = mountSuspenseOffscreenState(renderLanes);
workInProgress.memoizedState = SUSPENDED_MARKER;
return fallbackFragment;
} else if (typeof nextProps.unstable_expectedLoadTime === 'number') {
var _fallbackFragment = mountSuspenseFallbackChildren(workInProgress, nextPrimaryChildren, nextFallbackChildren, renderLanes);
var _primaryChildFragment = workInProgress.child;
_primaryChildFragment.memoizedState = mountSuspenseOffscreenState(renderLanes);
workInProgress.memoizedState = SUSPENDED_MARKER;
workInProgress.lanes = SomeRetryLane;
{
markSpawnedWork(SomeRetryLane);
}
return _fallbackFragment;
} else {
return mountSuspensePrimaryChildren(workInProgress, nextPrimaryChildren, renderLanes);
}
} else {
var prevState = current.memoizedState;
if (prevState !== null) {
if (showFallback) {
var _nextFallbackChildren2 = nextProps.fallback;
var _nextPrimaryChildren2 = nextProps.children;
var _fallbackChildFragment = updateSuspenseFallbackChildren(current, workInProgress, _nextPrimaryChildren2, _nextFallbackChildren2, renderLanes);
var _primaryChildFragment3 = workInProgress.child;
var prevOffscreenState = current.child.memoizedState;
_primaryChildFragment3.memoizedState = prevOffscreenState === null ? mountSuspenseOffscreenState(renderLanes) : updateSuspenseOffscreenState(prevOffscreenState, renderLanes);
_primaryChildFragment3.childLanes = getRemainingWorkInPrimaryTree(current, renderLanes);
workInProgress.memoizedState = SUSPENDED_MARKER;
return _fallbackChildFragment;
} else {
var _nextPrimaryChildren3 = nextProps.children;
var _primaryChildFragment4 = updateSuspensePrimaryChildren(current, workInProgress, _nextPrimaryChildren3, renderLanes);
workInProgress.memoizedState = null;
return _primaryChildFragment4;
}
} else {
if (showFallback) {
var _nextFallbackChildren3 = nextProps.fallback;
var _nextPrimaryChildren4 = nextProps.children;
var _fallbackChildFragment2 = updateSuspenseFallbackChildren(current, workInProgress, _nextPrimaryChildren4, _nextFallbackChildren3, renderLanes);
var _primaryChildFragment5 = workInProgress.child;
var _prevOffscreenState = current.child.memoizedState;
_primaryChildFragment5.memoizedState = _prevOffscreenState === null ? mountSuspenseOffscreenState(renderLanes) : updateSuspenseOffscreenState(_prevOffscreenState, renderLanes);
_primaryChildFragment5.childLanes = getRemainingWorkInPrimaryTree(current, renderLanes);
workInProgress.memoizedState = SUSPENDED_MARKER;
return _fallbackChildFragment2;
} else {
var _nextPrimaryChildren5 = nextProps.children;
var _primaryChildFragment6 = updateSuspensePrimaryChildren(current, workInProgress, _nextPrimaryChildren5, renderLanes);
workInProgress.memoizedState = null;
return _primaryChildFragment6;
}
}
}
}
function mountSuspensePrimaryChildren(workInProgress, primaryChildren, renderLanes) {
var mode = workInProgress.mode;
var primaryChildProps = {
mode: 'visible',
children: primaryChildren
};
var primaryChildFragment = createFiberFromOffscreen(primaryChildProps, mode, renderLanes, null);
primaryChildFragment.return = workInProgress;
workInProgress.child = primaryChildFragment;
return primaryChildFragment;
}
function mountSuspenseFallbackChildren(workInProgress, primaryChildren, fallbackChildren, renderLanes) {
var mode = workInProgress.mode;
var progressedPrimaryFragment = workInProgress.child;
var primaryChildProps = {
mode: 'hidden',
children: primaryChildren
};
var primaryChildFragment;
var fallbackChildFragment;
if ((mode & BlockingMode) === NoMode && progressedPrimaryFragment !== null) {
primaryChildFragment = progressedPrimaryFragment;
primaryChildFragment.childLanes = NoLanes;
primaryChildFragment.pendingProps = primaryChildProps;
if ( workInProgress.mode & ProfileMode) {
primaryChildFragment.actualDuration = 0;
primaryChildFragment.actualStartTime = -1;
primaryChildFragment.selfBaseDuration = 0;
primaryChildFragment.treeBaseDuration = 0;
}
fallbackChildFragment = createFiberFromFragment(fallbackChildren, mode, renderLanes, null);
} else {
primaryChildFragment = createFiberFromOffscreen(primaryChildProps, mode, NoLanes, null);
fallbackChildFragment = createFiberFromFragment(fallbackChildren, mode, renderLanes, null);
}
primaryChildFragment.return = workInProgress;
fallbackChildFragment.return = workInProgress;
primaryChildFragment.sibling = fallbackChildFragment;
workInProgress.child = primaryChildFragment;
return fallbackChildFragment;
}
function createWorkInProgressOffscreenFiber(current, offscreenProps) {
return createWorkInProgress(current, offscreenProps);
}
function updateSuspensePrimaryChildren(current, workInProgress, primaryChildren, renderLanes) {
var currentPrimaryChildFragment = current.child;
var currentFallbackChildFragment = currentPrimaryChildFragment.sibling;
var primaryChildFragment = createWorkInProgressOffscreenFiber(currentPrimaryChildFragment, {
mode: 'visible',
children: primaryChildren
});
if ((workInProgress.mode & BlockingMode) === NoMode) {
primaryChildFragment.lanes = renderLanes;
}
primaryChildFragment.return = workInProgress;
primaryChildFragment.sibling = null;
if (currentFallbackChildFragment !== null) {
currentFallbackChildFragment.nextEffect = null;
currentFallbackChildFragment.flags = Deletion;
workInProgress.firstEffect = workInProgress.lastEffect = currentFallbackChildFragment;
}
workInProgress.child = primaryChildFragment;
return primaryChildFragment;
}
function updateSuspenseFallbackChildren(current, workInProgress, primaryChildren, fallbackChildren, renderLanes) {
var mode = workInProgress.mode;
var currentPrimaryChildFragment = current.child;
var currentFallbackChildFragment = currentPrimaryChildFragment.sibling;
var primaryChildProps = {
mode: 'hidden',
children: primaryChildren
};
var primaryChildFragment;
if (
(mode & BlockingMode) === NoMode &&
workInProgress.child !== currentPrimaryChildFragment) {
var progressedPrimaryFragment = workInProgress.child;
primaryChildFragment = progressedPrimaryFragment;
primaryChildFragment.childLanes = NoLanes;
primaryChildFragment.pendingProps = primaryChildProps;
if ( workInProgress.mode & ProfileMode) {
primaryChildFragment.actualDuration = 0;
primaryChildFragment.actualStartTime = -1;
primaryChildFragment.selfBaseDuration = currentPrimaryChildFragment.selfBaseDuration;
primaryChildFragment.treeBaseDuration = currentPrimaryChildFragment.treeBaseDuration;
}
var progressedLastEffect = primaryChildFragment.lastEffect;
if (progressedLastEffect !== null) {
workInProgress.firstEffect = primaryChildFragment.firstEffect;
workInProgress.lastEffect = progressedLastEffect;
progressedLastEffect.nextEffect = null;
} else {
workInProgress.firstEffect = workInProgress.lastEffect = null;
}
} else {
primaryChildFragment = createWorkInProgressOffscreenFiber(currentPrimaryChildFragment, primaryChildProps);
}
var fallbackChildFragment;
if (currentFallbackChildFragment !== null) {
fallbackChildFragment = createWorkInProgress(currentFallbackChildFragment, fallbackChildren);
} else {
fallbackChildFragment = createFiberFromFragment(fallbackChildren, mode, renderLanes, null);
fallbackChildFragment.flags |= Placement;
}
fallbackChildFragment.return = workInProgress;
primaryChildFragment.return = workInProgress;
primaryChildFragment.sibling = fallbackChildFragment;
workInProgress.child = primaryChildFragment;
return fallbackChildFragment;
}
function scheduleWorkOnFiber(fiber, renderLanes) {
fiber.lanes = mergeLanes(fiber.lanes, renderLanes);
var alternate = fiber.alternate;
if (alternate !== null) {
alternate.lanes = mergeLanes(alternate.lanes, renderLanes);
}
scheduleWorkOnParentPath(fiber.return, renderLanes);
}
function propagateSuspenseContextChange(workInProgress, firstChild, renderLanes) {
var node = firstChild;
while (node !== null) {
if (node.tag === SuspenseComponent) {
var state = node.memoizedState;
if (state !== null) {
scheduleWorkOnFiber(node, renderLanes);
}
} else if (node.tag === SuspenseListComponent) {
scheduleWorkOnFiber(node, renderLanes);
} else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === workInProgress) {
return;
}
while (node.sibling === null) {
if (node.return === null || node.return === workInProgress) {
return;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
}
function findLastContentRow(firstChild) {
var row = firstChild;
var lastContentRow = null;
while (row !== null) {
var currentRow = row.alternate;
if (currentRow !== null && findFirstSuspended(currentRow) === null) {
lastContentRow = row;
}
row = row.sibling;
}
return lastContentRow;
}
function validateRevealOrder(revealOrder) {
{
if (revealOrder !== undefined && revealOrder !== 'forwards' && revealOrder !== 'backwards' && revealOrder !== 'together' && !didWarnAboutRevealOrder[revealOrder]) {
didWarnAboutRevealOrder[revealOrder] = true;
if (typeof revealOrder === 'string') {
switch (revealOrder.toLowerCase()) {
case 'together':
case 'forwards':
case 'backwards':
{
error('"%s" is not a valid value for revealOrder on <SuspenseList />. ' + 'Use lowercase "%s" instead.', revealOrder, revealOrder.toLowerCase());
break;
}
case 'forward':
case 'backward':
{
error('"%s" is not a valid value for revealOrder on <SuspenseList />. ' + 'React uses the -s suffix in the spelling. Use "%ss" instead.', revealOrder, revealOrder.toLowerCase());
break;
}
default:
error('"%s" is not a supported revealOrder on <SuspenseList />. ' + 'Did you mean "together", "forwards" or "backwards"?', revealOrder);
break;
}
} else {
error('%s is not a supported value for revealOrder on <SuspenseList />. ' + 'Did you mean "together", "forwards" or "backwards"?', revealOrder);
}
}
}
}
function validateTailOptions(tailMode, revealOrder) {
{
if (tailMode !== undefined && !didWarnAboutTailOptions[tailMode]) {
if (tailMode !== 'collapsed' && tailMode !== 'hidden') {
didWarnAboutTailOptions[tailMode] = true;
error('"%s" is not a supported value for tail on <SuspenseList />. ' + 'Did you mean "collapsed" or "hidden"?', tailMode);
} else if (revealOrder !== 'forwards' && revealOrder !== 'backwards') {
didWarnAboutTailOptions[tailMode] = true;
error('<SuspenseList tail="%s" /> is only valid if revealOrder is ' + '"forwards" or "backwards". ' + 'Did you mean to specify revealOrder="forwards"?', tailMode);
}
}
}
}
function validateSuspenseListNestedChild(childSlot, index) {
{
var isArray = Array.isArray(childSlot);
var isIterable = !isArray && typeof getIteratorFn(childSlot) === 'function';
if (isArray || isIterable) {
var type = isArray ? 'array' : 'iterable';
error('A nested %s was passed to row #%s in <SuspenseList />. Wrap it in ' + 'an additional SuspenseList to configure its revealOrder: ' + '<SuspenseList revealOrder=...> ... ' + '<SuspenseList revealOrder=...>{%s}</SuspenseList> ... ' + '</SuspenseList>', type, index, type);
return false;
}
}
return true;
}
function validateSuspenseListChildren(children, revealOrder) {
{
if ((revealOrder === 'forwards' || revealOrder === 'backwards') && children !== undefined && children !== null && children !== false) {
if (Array.isArray(children)) {
for (var i = 0; i < children.length; i++) {
if (!validateSuspenseListNestedChild(children[i], i)) {
return;
}
}
} else {
var iteratorFn = getIteratorFn(children);
if (typeof iteratorFn === 'function') {
var childrenIterator = iteratorFn.call(children);
if (childrenIterator) {
var step = childrenIterator.next();
var _i = 0;
for (; !step.done; step = childrenIterator.next()) {
if (!validateSuspenseListNestedChild(step.value, _i)) {
return;
}
_i++;
}
}
} else {
error('A single row was passed to a <SuspenseList revealOrder="%s" />. ' + 'This is not useful since it needs multiple rows. ' + 'Did you mean to pass multiple children or an array?', revealOrder);
}
}
}
}
}
function initSuspenseListRenderState(workInProgress, isBackwards, tail, lastContentRow, tailMode, lastEffectBeforeRendering) {
var renderState = workInProgress.memoizedState;
if (renderState === null) {
workInProgress.memoizedState = {
isBackwards: isBackwards,
rendering: null,
renderingStartTime: 0,
last: lastContentRow,
tail: tail,
tailMode: tailMode,
lastEffect: lastEffectBeforeRendering
};
} else {
renderState.isBackwards = isBackwards;
renderState.rendering = null;
renderState.renderingStartTime = 0;
renderState.last = lastContentRow;
renderState.tail = tail;
renderState.tailMode = tailMode;
renderState.lastEffect = lastEffectBeforeRendering;
}
}
function updateSuspenseListComponent(current, workInProgress, renderLanes) {
var nextProps = workInProgress.pendingProps;
var revealOrder = nextProps.revealOrder;
var tailMode = nextProps.tail;
var newChildren = nextProps.children;
validateRevealOrder(revealOrder);
validateTailOptions(tailMode, revealOrder);
validateSuspenseListChildren(newChildren, revealOrder);
reconcileChildren(current, workInProgress, newChildren, renderLanes);
var suspenseContext = suspenseStackCursor.current;
var shouldForceFallback = hasSuspenseContext(suspenseContext, ForceSuspenseFallback);
if (shouldForceFallback) {
suspenseContext = setShallowSuspenseContext(suspenseContext, ForceSuspenseFallback);
workInProgress.flags |= DidCapture;
} else {
var didSuspendBefore = current !== null && (current.flags & DidCapture) !== NoFlags;
if (didSuspendBefore) {
propagateSuspenseContextChange(workInProgress, workInProgress.child, renderLanes);
}
suspenseContext = setDefaultShallowSuspenseContext(suspenseContext);
}
pushSuspenseContext(workInProgress, suspenseContext);
if ((workInProgress.mode & BlockingMode) === NoMode) {
workInProgress.memoizedState = null;
} else {
switch (revealOrder) {
case 'forwards':
{
var lastContentRow = findLastContentRow(workInProgress.child);
var tail;
if (lastContentRow === null) {
tail = workInProgress.child;
workInProgress.child = null;
} else {
tail = lastContentRow.sibling;
lastContentRow.sibling = null;
}
initSuspenseListRenderState(workInProgress, false,
tail, lastContentRow, tailMode, workInProgress.lastEffect);
break;
}
case 'backwards':
{
var _tail = null;
var row = workInProgress.child;
workInProgress.child = null;
while (row !== null) {
var currentRow = row.alternate;
if (currentRow !== null && findFirstSuspended(currentRow) === null) {
workInProgress.child = row;
break;
}
var nextRow = row.sibling;
row.sibling = _tail;
_tail = row;
row = nextRow;
}
initSuspenseListRenderState(workInProgress, true,
_tail, null,
tailMode, workInProgress.lastEffect);
break;
}
case 'together':
{
initSuspenseListRenderState(workInProgress, false,
null,
null,
undefined, workInProgress.lastEffect);
break;
}
default:
{
workInProgress.memoizedState = null;
}
}
}
return workInProgress.child;
}
function updatePortalComponent(current, workInProgress, renderLanes) {
pushHostContainer(workInProgress, workInProgress.stateNode.containerInfo);
var nextChildren = workInProgress.pendingProps;
if (current === null) {
workInProgress.child = reconcileChildFibers(workInProgress, null, nextChildren, renderLanes);
} else {
reconcileChildren(current, workInProgress, nextChildren, renderLanes);
}
return workInProgress.child;
}
var hasWarnedAboutUsingNoValuePropOnContextProvider = false;
function updateContextProvider(current, workInProgress, renderLanes) {
var providerType = workInProgress.type;
var context = providerType._context;
var newProps = workInProgress.pendingProps;
var oldProps = workInProgress.memoizedProps;
var newValue = newProps.value;
{
if (!('value' in newProps)) {
if (!hasWarnedAboutUsingNoValuePropOnContextProvider) {
hasWarnedAboutUsingNoValuePropOnContextProvider = true;
error('The `value` prop is required for the `<Context.Provider>`. Did you misspell it or forget to pass it?');
}
}
var providerPropTypes = workInProgress.type.propTypes;
if (providerPropTypes) {
checkPropTypes(providerPropTypes, newProps, 'prop', 'Context.Provider');
}
}
pushProvider(workInProgress, newValue);
if (oldProps !== null) {
var oldValue = oldProps.value;
var changedBits = calculateChangedBits(context, newValue, oldValue);
if (changedBits === 0) {
if (oldProps.children === newProps.children && !hasContextChanged()) {
return bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
}
} else {
propagateContextChange(workInProgress, context, changedBits, renderLanes);
}
}
var newChildren = newProps.children;
reconcileChildren(current, workInProgress, newChildren, renderLanes);
return workInProgress.child;
}
var hasWarnedAboutUsingContextAsConsumer = false;
function updateContextConsumer(current, workInProgress, renderLanes) {
var context = workInProgress.type;
{
if (context._context === undefined) {
if (context !== context.Consumer) {
if (!hasWarnedAboutUsingContextAsConsumer) {
hasWarnedAboutUsingContextAsConsumer = true;
error('Rendering <Context> directly is not supported and will be removed in ' + 'a future major release. Did you mean to render <Context.Consumer> instead?');
}
}
} else {
context = context._context;
}
}
var newProps = workInProgress.pendingProps;
var render = newProps.children;
{
if (typeof render !== 'function') {
error('A context consumer was rendered with multiple children, or a child ' + "that isn't a function. A context consumer expects a single child " + 'that is a function. If you did pass a function, make sure there ' + 'is no trailing or leading whitespace around it.');
}
}
prepareToReadContext(workInProgress, renderLanes);
var newValue = readContext(context, newProps.unstable_observedBits);
var newChildren;
{
ReactCurrentOwner$1.current = workInProgress;
setIsRendering(true);
newChildren = render(newValue);
setIsRendering(false);
}
workInProgress.flags |= PerformedWork;
reconcileChildren(current, workInProgress, newChildren, renderLanes);
return workInProgress.child;
}
function markWorkInProgressReceivedUpdate() {
didReceiveUpdate = true;
}
function bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes) {
if (current !== null) {
workInProgress.dependencies = current.dependencies;
}
{
stopProfilerTimerIfRunning();
}
markSkippedUpdateLanes(workInProgress.lanes);
if (!includesSomeLane(renderLanes, workInProgress.childLanes)) {
return null;
} else {
cloneChildFibers(current, workInProgress);
return workInProgress.child;
}
}
function remountFiber(current, oldWorkInProgress, newWorkInProgress) {
{
var returnFiber = oldWorkInProgress.return;
if (returnFiber === null) {
throw new Error('Cannot swap the root fiber.');
}
current.alternate = null;
oldWorkInProgress.alternate = null;
newWorkInProgress.index = oldWorkInProgress.index;
newWorkInProgress.sibling = oldWorkInProgress.sibling;
newWorkInProgress.return = oldWorkInProgress.return;
newWorkInProgress.ref = oldWorkInProgress.ref;
if (oldWorkInProgress === returnFiber.child) {
returnFiber.child = newWorkInProgress;
} else {
var prevSibling = returnFiber.child;
if (prevSibling === null) {
throw new Error('Expected parent to have a child.');
}
while (prevSibling.sibling !== oldWorkInProgress) {
prevSibling = prevSibling.sibling;
if (prevSibling === null) {
throw new Error('Expected to find the previous sibling.');
}
}
prevSibling.sibling = newWorkInProgress;
}
var last = returnFiber.lastEffect;
if (last !== null) {
last.nextEffect = current;
returnFiber.lastEffect = current;
} else {
returnFiber.firstEffect = returnFiber.lastEffect = current;
}
current.nextEffect = null;
current.flags = Deletion;
newWorkInProgress.flags |= Placement;
return newWorkInProgress;
}
}
function beginWork(current, workInProgress, renderLanes) {
var updateLanes = workInProgress.lanes;
{
if (workInProgress._debugNeedsRemount && current !== null) {
return remountFiber(current, workInProgress, createFiberFromTypeAndProps(workInProgress.type, workInProgress.key, workInProgress.pendingProps, workInProgress._debugOwner || null, workInProgress.mode, workInProgress.lanes));
}
}
if (current !== null) {
var oldProps = current.memoizedProps;
var newProps = workInProgress.pendingProps;
if (oldProps !== newProps || hasContextChanged() || (
workInProgress.type !== current.type )) {
didReceiveUpdate = true;
} else if (!includesSomeLane(renderLanes, updateLanes)) {
didReceiveUpdate = false;
switch (workInProgress.tag) {
case HostRoot:
pushHostRootContext(workInProgress);
resetHydrationState();
break;
case HostComponent:
pushHostContext(workInProgress);
break;
case ClassComponent:
{
var Component = workInProgress.type;
if (isContextProvider(Component)) {
pushContextProvider(workInProgress);
}
break;
}
case HostPortal:
pushHostContainer(workInProgress, workInProgress.stateNode.containerInfo);
break;
case ContextProvider:
{
var newValue = workInProgress.memoizedProps.value;
pushProvider(workInProgress, newValue);
break;
}
case Profiler:
{
var hasChildWork = includesSomeLane(renderLanes, workInProgress.childLanes);
if (hasChildWork) {
workInProgress.flags |= Update;
}
var stateNode = workInProgress.stateNode;
stateNode.effectDuration = 0;
stateNode.passiveEffectDuration = 0;
}
break;
case SuspenseComponent:
{
var state = workInProgress.memoizedState;
if (state !== null) {
var primaryChildFragment = workInProgress.child;
var primaryChildLanes = primaryChildFragment.childLanes;
if (includesSomeLane(renderLanes, primaryChildLanes)) {
return updateSuspenseComponent(current, workInProgress, renderLanes);
} else {
pushSuspenseContext(workInProgress, setDefaultShallowSuspenseContext(suspenseStackCursor.current));
var child = bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
if (child !== null) {
return child.sibling;
} else {
return null;
}
}
} else {
pushSuspenseContext(workInProgress, setDefaultShallowSuspenseContext(suspenseStackCursor.current));
}
break;
}
case SuspenseListComponent:
{
var didSuspendBefore = (current.flags & DidCapture) !== NoFlags;
var _hasChildWork = includesSomeLane(renderLanes, workInProgress.childLanes);
if (didSuspendBefore) {
if (_hasChildWork) {
return updateSuspenseListComponent(current, workInProgress, renderLanes);
}
workInProgress.flags |= DidCapture;
}
var renderState = workInProgress.memoizedState;
if (renderState !== null) {
renderState.rendering = null;
renderState.tail = null;
renderState.lastEffect = null;
}
pushSuspenseContext(workInProgress, suspenseStackCursor.current);
if (_hasChildWork) {
break;
} else {
return null;
}
}
case OffscreenComponent:
case LegacyHiddenComponent:
{
workInProgress.lanes = NoLanes;
return updateOffscreenComponent(current, workInProgress, renderLanes);
}
}
return bailoutOnAlreadyFinishedWork(current, workInProgress, renderLanes);
} else {
if ((current.flags & ForceUpdateForLegacySuspense) !== NoFlags) {
didReceiveUpdate = true;
} else {
didReceiveUpdate = false;
}
}
} else {
didReceiveUpdate = false;
}
workInProgress.lanes = NoLanes;
switch (workInProgress.tag) {
case IndeterminateComponent:
{
return mountIndeterminateComponent(current, workInProgress, workInProgress.type, renderLanes);
}
case LazyComponent:
{
var elementType = workInProgress.elementType;
return mountLazyComponent(current, workInProgress, elementType, updateLanes, renderLanes);
}
case FunctionComponent:
{
var _Component = workInProgress.type;
var unresolvedProps = workInProgress.pendingProps;
var resolvedProps = workInProgress.elementType === _Component ? unresolvedProps : resolveDefaultProps(_Component, unresolvedProps);
return updateFunctionComponent(current, workInProgress, _Component, resolvedProps, renderLanes);
}
case ClassComponent:
{
var _Component2 = workInProgress.type;
var _unresolvedProps = workInProgress.pendingProps;
var _resolvedProps = workInProgress.elementType === _Component2 ? _unresolvedProps : resolveDefaultProps(_Component2, _unresolvedProps);
return updateClassComponent(current, workInProgress, _Component2, _resolvedProps, renderLanes);
}
case HostRoot:
return updateHostRoot(current, workInProgress, renderLanes);
case HostComponent:
return updateHostComponent(current, workInProgress, renderLanes);
case HostText:
return updateHostText(current, workInProgress);
case SuspenseComponent:
return updateSuspenseComponent(current, workInProgress, renderLanes);
case HostPortal:
return updatePortalComponent(current, workInProgress, renderLanes);
case ForwardRef:
{
var type = workInProgress.type;
var _unresolvedProps2 = workInProgress.pendingProps;
var _resolvedProps2 = workInProgress.elementType === type ? _unresolvedProps2 : resolveDefaultProps(type, _unresolvedProps2);
return updateForwardRef(current, workInProgress, type, _resolvedProps2, renderLanes);
}
case Fragment:
return updateFragment(current, workInProgress, renderLanes);
case Mode:
return updateMode(current, workInProgress, renderLanes);
case Profiler:
return updateProfiler(current, workInProgress, renderLanes);
case ContextProvider:
return updateContextProvider(current, workInProgress, renderLanes);
case ContextConsumer:
return updateContextConsumer(current, workInProgress, renderLanes);
case MemoComponent:
{
var _type2 = workInProgress.type;
var _unresolvedProps3 = workInProgress.pendingProps;
var _resolvedProps3 = resolveDefaultProps(_type2, _unresolvedProps3);
{
if (workInProgress.type !== workInProgress.elementType) {
var outerPropTypes = _type2.propTypes;
if (outerPropTypes) {
checkPropTypes(outerPropTypes, _resolvedProps3,
'prop', getComponentName(_type2));
}
}
}
_resolvedProps3 = resolveDefaultProps(_type2.type, _resolvedProps3);
return updateMemoComponent(current, workInProgress, _type2, _resolvedProps3, updateLanes, renderLanes);
}
case SimpleMemoComponent:
{
return updateSimpleMemoComponent(current, workInProgress, workInProgress.type, workInProgress.pendingProps, updateLanes, renderLanes);
}
case IncompleteClassComponent:
{
var _Component3 = workInProgress.type;
var _unresolvedProps4 = workInProgress.pendingProps;
var _resolvedProps4 = workInProgress.elementType === _Component3 ? _unresolvedProps4 : resolveDefaultProps(_Component3, _unresolvedProps4);
return mountIncompleteClassComponent(current, workInProgress, _Component3, _resolvedProps4, renderLanes);
}
case SuspenseListComponent:
{
return updateSuspenseListComponent(current, workInProgress, renderLanes);
}
case FundamentalComponent:
{
break;
}
case ScopeComponent:
{
break;
}
case Block:
{
break;
}
case OffscreenComponent:
{
return updateOffscreenComponent(current, workInProgress, renderLanes);
}
case LegacyHiddenComponent:
{
return updateLegacyHiddenComponent(current, workInProgress, renderLanes);
}
}
{
{
throw Error( "Unknown unit of work tag (" + workInProgress.tag + "). This error is likely caused by a bug in React. Please file an issue." );
}
}
}
function markUpdate(workInProgress) {
workInProgress.flags |= Update;
}
function markRef$1(workInProgress) {
workInProgress.flags |= Ref;
}
var appendAllChildren;
var updateHostContainer;
var updateHostComponent$1;
var updateHostText$1;
{
appendAllChildren = function (parent, workInProgress, needsVisibilityToggle, isHidden) {
var node = workInProgress.child;
while (node !== null) {
if (node.tag === HostComponent || node.tag === HostText) {
appendInitialChild(parent, node.stateNode);
} else if (node.tag === HostPortal) ; else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === workInProgress) {
return;
}
while (node.sibling === null) {
if (node.return === null || node.return === workInProgress) {
return;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
};
updateHostContainer = function (workInProgress) {
};
updateHostComponent$1 = function (current, workInProgress, type, newProps, rootContainerInstance) {
var oldProps = current.memoizedProps;
if (oldProps === newProps) {
return;
}
var instance = workInProgress.stateNode;
var currentHostContext = getHostContext();
var updatePayload = prepareUpdate(instance, type, oldProps, newProps, rootContainerInstance, currentHostContext);
workInProgress.updateQueue = updatePayload;
if (updatePayload) {
markUpdate(workInProgress);
}
};
updateHostText$1 = function (current, workInProgress, oldText, newText) {
if (oldText !== newText) {
markUpdate(workInProgress);
}
};
}
function cutOffTailIfNeeded(renderState, hasRenderedATailFallback) {
if (getIsHydrating()) {
return;
}
switch (renderState.tailMode) {
case 'hidden':
{
var tailNode = renderState.tail;
var lastTailNode = null;
while (tailNode !== null) {
if (tailNode.alternate !== null) {
lastTailNode = tailNode;
}
tailNode = tailNode.sibling;
}
if (lastTailNode === null) {
renderState.tail = null;
} else {
lastTailNode.sibling = null;
}
break;
}
case 'collapsed':
{
var _tailNode = renderState.tail;
var _lastTailNode = null;
while (_tailNode !== null) {
if (_tailNode.alternate !== null) {
_lastTailNode = _tailNode;
}
_tailNode = _tailNode.sibling;
}
if (_lastTailNode === null) {
if (!hasRenderedATailFallback && renderState.tail !== null) {
renderState.tail.sibling = null;
} else {
renderState.tail = null;
}
} else {
_lastTailNode.sibling = null;
}
break;
}
}
}
function completeWork(current, workInProgress, renderLanes) {
var newProps = workInProgress.pendingProps;
switch (workInProgress.tag) {
case IndeterminateComponent:
case LazyComponent:
case SimpleMemoComponent:
case FunctionComponent:
case ForwardRef:
case Fragment:
case Mode:
case Profiler:
case ContextConsumer:
case MemoComponent:
return null;
case ClassComponent:
{
var Component = workInProgress.type;
if (isContextProvider(Component)) {
popContext(workInProgress);
}
return null;
}
case HostRoot:
{
popHostContainer(workInProgress);
popTopLevelContextObject(workInProgress);
resetWorkInProgressVersions();
var fiberRoot = workInProgress.stateNode;
if (fiberRoot.pendingContext) {
fiberRoot.context = fiberRoot.pendingContext;
fiberRoot.pendingContext = null;
}
if (current === null || current.child === null) {
var wasHydrated = popHydrationState(workInProgress);
if (wasHydrated) {
markUpdate(workInProgress);
} else if (!fiberRoot.hydrate) {
workInProgress.flags |= Snapshot;
}
}
updateHostContainer(workInProgress);
return null;
}
case HostComponent:
{
popHostContext(workInProgress);
var rootContainerInstance = getRootHostContainer();
var type = workInProgress.type;
if (current !== null && workInProgress.stateNode != null) {
updateHostComponent$1(current, workInProgress, type, newProps, rootContainerInstance);
if (current.ref !== workInProgress.ref) {
markRef$1(workInProgress);
}
} else {
if (!newProps) {
if (!(workInProgress.stateNode !== null)) {
{
throw Error( "We must have new props for new mounts. This error is likely caused by a bug in React. Please file an issue." );
}
}
return null;
}
var currentHostContext = getHostContext();
var _wasHydrated = popHydrationState(workInProgress);
if (_wasHydrated) {
if (prepareToHydrateHostInstance(workInProgress, rootContainerInstance, currentHostContext)) {
markUpdate(workInProgress);
}
} else {
var instance = createInstance(type, newProps, rootContainerInstance, currentHostContext, workInProgress);
appendAllChildren(instance, workInProgress, false, false);
workInProgress.stateNode = instance;
if (finalizeInitialChildren(instance, type, newProps, rootContainerInstance)) {
markUpdate(workInProgress);
}
}
if (workInProgress.ref !== null) {
markRef$1(workInProgress);
}
}
return null;
}
case HostText:
{
var newText = newProps;
if (current && workInProgress.stateNode != null) {
var oldText = current.memoizedProps;
updateHostText$1(current, workInProgress, oldText, newText);
} else {
if (typeof newText !== 'string') {
if (!(workInProgress.stateNode !== null)) {
{
throw Error( "We must have new props for new mounts. This error is likely caused by a bug in React. Please file an issue." );
}
}
}
var _rootContainerInstance = getRootHostContainer();
var _currentHostContext = getHostContext();
var _wasHydrated2 = popHydrationState(workInProgress);
if (_wasHydrated2) {
if (prepareToHydrateHostTextInstance(workInProgress)) {
markUpdate(workInProgress);
}
} else {
workInProgress.stateNode = createTextInstance(newText, _rootContainerInstance, _currentHostContext, workInProgress);
}
}
return null;
}
case SuspenseComponent:
{
popSuspenseContext(workInProgress);
var nextState = workInProgress.memoizedState;
if ((workInProgress.flags & DidCapture) !== NoFlags) {
workInProgress.lanes = renderLanes;
if ( (workInProgress.mode & ProfileMode) !== NoMode) {
transferActualDuration(workInProgress);
}
return workInProgress;
}
var nextDidTimeout = nextState !== null;
var prevDidTimeout = false;
if (current === null) {
if (workInProgress.memoizedProps.fallback !== undefined) {
popHydrationState(workInProgress);
}
} else {
var prevState = current.memoizedState;
prevDidTimeout = prevState !== null;
}
if (nextDidTimeout && !prevDidTimeout) {
if ((workInProgress.mode & BlockingMode) !== NoMode) {
var hasInvisibleChildContext = current === null && workInProgress.memoizedProps.unstable_avoidThisFallback !== true;
if (hasInvisibleChildContext || hasSuspenseContext(suspenseStackCursor.current, InvisibleParentSuspenseContext)) {
renderDidSuspend();
} else {
renderDidSuspendDelayIfPossible();
}
}
}
{
if (nextDidTimeout || prevDidTimeout) {
workInProgress.flags |= Update;
}
}
return null;
}
case HostPortal:
popHostContainer(workInProgress);
updateHostContainer(workInProgress);
if (current === null) {
preparePortalMount(workInProgress.stateNode.containerInfo);
}
return null;
case ContextProvider:
popProvider(workInProgress);
return null;
case IncompleteClassComponent:
{
var _Component = workInProgress.type;
if (isContextProvider(_Component)) {
popContext(workInProgress);
}
return null;
}
case SuspenseListComponent:
{
popSuspenseContext(workInProgress);
var renderState = workInProgress.memoizedState;
if (renderState === null) {
return null;
}
var didSuspendAlready = (workInProgress.flags & DidCapture) !== NoFlags;
var renderedTail = renderState.rendering;
if (renderedTail === null) {
if (!didSuspendAlready) {
var cannotBeSuspended = renderHasNotSuspendedYet() && (current === null || (current.flags & DidCapture) === NoFlags);
if (!cannotBeSuspended) {
var row = workInProgress.child;
while (row !== null) {
var suspended = findFirstSuspended(row);
if (suspended !== null) {
didSuspendAlready = true;
workInProgress.flags |= DidCapture;
cutOffTailIfNeeded(renderState, false);
var newThennables = suspended.updateQueue;
if (newThennables !== null) {
workInProgress.updateQueue = newThennables;
workInProgress.flags |= Update;
}
if (renderState.lastEffect === null) {
workInProgress.firstEffect = null;
}
workInProgress.lastEffect = renderState.lastEffect;
resetChildFibers(workInProgress, renderLanes);
pushSuspenseContext(workInProgress, setShallowSuspenseContext(suspenseStackCursor.current, ForceSuspenseFallback));
return workInProgress.child;
}
row = row.sibling;
}
}
if (renderState.tail !== null && now() > getRenderTargetTime()) {
workInProgress.flags |= DidCapture;
didSuspendAlready = true;
cutOffTailIfNeeded(renderState, false);
workInProgress.lanes = SomeRetryLane;
{
markSpawnedWork(SomeRetryLane);
}
}
} else {
cutOffTailIfNeeded(renderState, false);
}
} else {
if (!didSuspendAlready) {
var _suspended = findFirstSuspended(renderedTail);
if (_suspended !== null) {
workInProgress.flags |= DidCapture;
didSuspendAlready = true;
var _newThennables = _suspended.updateQueue;
if (_newThennables !== null) {
workInProgress.updateQueue = _newThennables;
workInProgress.flags |= Update;
}
cutOffTailIfNeeded(renderState, true);
if (renderState.tail === null && renderState.tailMode === 'hidden' && !renderedTail.alternate && !getIsHydrating()
) {
var lastEffect = workInProgress.lastEffect = renderState.lastEffect;
if (lastEffect !== null) {
lastEffect.nextEffect = null;
}
return null;
}
} else if (
now() * 2 - renderState.renderingStartTime > getRenderTargetTime() && renderLanes !== OffscreenLane) {
workInProgress.flags |= DidCapture;
didSuspendAlready = true;
cutOffTailIfNeeded(renderState, false);
workInProgress.lanes = SomeRetryLane;
{
markSpawnedWork(SomeRetryLane);
}
}
}
if (renderState.isBackwards) {
renderedTail.sibling = workInProgress.child;
workInProgress.child = renderedTail;
} else {
var previousSibling = renderState.last;
if (previousSibling !== null) {
previousSibling.sibling = renderedTail;
} else {
workInProgress.child = renderedTail;
}
renderState.last = renderedTail;
}
}
if (renderState.tail !== null) {
var next = renderState.tail;
renderState.rendering = next;
renderState.tail = next.sibling;
renderState.lastEffect = workInProgress.lastEffect;
renderState.renderingStartTime = now();
next.sibling = null;
var suspenseContext = suspenseStackCursor.current;
if (didSuspendAlready) {
suspenseContext = setShallowSuspenseContext(suspenseContext, ForceSuspenseFallback);
} else {
suspenseContext = setDefaultShallowSuspenseContext(suspenseContext);
}
pushSuspenseContext(workInProgress, suspenseContext);
return next;
}
return null;
}
case FundamentalComponent:
{
break;
}
case ScopeComponent:
{
break;
}
case Block:
break;
case OffscreenComponent:
case LegacyHiddenComponent:
{
popRenderLanes(workInProgress);
if (current !== null) {
var _nextState = workInProgress.memoizedState;
var _prevState = current.memoizedState;
var prevIsHidden = _prevState !== null;
var nextIsHidden = _nextState !== null;
if (prevIsHidden !== nextIsHidden && newProps.mode !== 'unstable-defer-without-hiding') {
workInProgress.flags |= Update;
}
}
return null;
}
}
{
{
throw Error( "Unknown unit of work tag (" + workInProgress.tag + "). This error is likely caused by a bug in React. Please file an issue." );
}
}
}
function unwindWork(workInProgress, renderLanes) {
switch (workInProgress.tag) {
case ClassComponent:
{
var Component = workInProgress.type;
if (isContextProvider(Component)) {
popContext(workInProgress);
}
var flags = workInProgress.flags;
if (flags & ShouldCapture) {
workInProgress.flags = flags & ~ShouldCapture | DidCapture;
if ( (workInProgress.mode & ProfileMode) !== NoMode) {
transferActualDuration(workInProgress);
}
return workInProgress;
}
return null;
}
case HostRoot:
{
popHostContainer(workInProgress);
popTopLevelContextObject(workInProgress);
resetWorkInProgressVersions();
var _flags = workInProgress.flags;
if (!((_flags & DidCapture) === NoFlags)) {
{
throw Error( "The root failed to unmount after an error. This is likely a bug in React. Please file an issue." );
}
}
workInProgress.flags = _flags & ~ShouldCapture | DidCapture;
return workInProgress;
}
case HostComponent:
{
popHostContext(workInProgress);
return null;
}
case SuspenseComponent:
{
popSuspenseContext(workInProgress);
var _flags2 = workInProgress.flags;
if (_flags2 & ShouldCapture) {
workInProgress.flags = _flags2 & ~ShouldCapture | DidCapture;
if ( (workInProgress.mode & ProfileMode) !== NoMode) {
transferActualDuration(workInProgress);
}
return workInProgress;
}
return null;
}
case SuspenseListComponent:
{
popSuspenseContext(workInProgress);
return null;
}
case HostPortal:
popHostContainer(workInProgress);
return null;
case ContextProvider:
popProvider(workInProgress);
return null;
case OffscreenComponent:
case LegacyHiddenComponent:
popRenderLanes(workInProgress);
return null;
default:
return null;
}
}
function unwindInterruptedWork(interruptedWork) {
switch (interruptedWork.tag) {
case ClassComponent:
{
var childContextTypes = interruptedWork.type.childContextTypes;
if (childContextTypes !== null && childContextTypes !== undefined) {
popContext(interruptedWork);
}
break;
}
case HostRoot:
{
popHostContainer(interruptedWork);
popTopLevelContextObject(interruptedWork);
resetWorkInProgressVersions();
break;
}
case HostComponent:
{
popHostContext(interruptedWork);
break;
}
case HostPortal:
popHostContainer(interruptedWork);
break;
case SuspenseComponent:
popSuspenseContext(interruptedWork);
break;
case SuspenseListComponent:
popSuspenseContext(interruptedWork);
break;
case ContextProvider:
popProvider(interruptedWork);
break;
case OffscreenComponent:
case LegacyHiddenComponent:
popRenderLanes(interruptedWork);
break;
}
}
function createCapturedValue(value, source) {
return {
value: value,
source: source,
stack: getStackByFiberInDevAndProd(source)
};
}
function showErrorDialog(boundary, errorInfo) {
return true;
}
function logCapturedError(boundary, errorInfo) {
try {
var logError = showErrorDialog(boundary, errorInfo);
if (logError === false) {
return;
}
var error = errorInfo.value;
if (true) {
var source = errorInfo.source;
var stack = errorInfo.stack;
var componentStack = stack !== null ? stack : '';
if (error != null && error._suppressLogging) {
if (boundary.tag === ClassComponent) {
return;
}
console['error'](error);
}
var componentName = source ? getComponentName(source.type) : null;
var componentNameMessage = componentName ? "The above error occurred in the <" + componentName + "> component:" : 'The above error occurred in one of your React components:';
var errorBoundaryMessage;
var errorBoundaryName = getComponentName(boundary.type);
if (errorBoundaryName) {
errorBoundaryMessage = "React will try to recreate this component tree from scratch " + ("using the error boundary you provided, " + errorBoundaryName + ".");
} else {
errorBoundaryMessage = 'Consider adding an error boundary to your tree to customize error handling behavior.\n' + 'Visit https://reactjs.org/link/error-boundaries to learn more about error boundaries.';
}
var combinedMessage = componentNameMessage + "\n" + componentStack + "\n\n" + ("" + errorBoundaryMessage);
console['error'](combinedMessage);
}
} catch (e) {
setTimeout(function () {
throw e;
});
}
}
var PossiblyWeakMap$1 = typeof WeakMap === 'function' ? WeakMap : Map;
function createRootErrorUpdate(fiber, errorInfo, lane) {
var update = createUpdate(NoTimestamp, lane);
update.tag = CaptureUpdate;
update.payload = {
element: null
};
var error = errorInfo.value;
update.callback = function () {
onUncaughtError(error);
logCapturedError(fiber, errorInfo);
};
return update;
}
function createClassErrorUpdate(fiber, errorInfo, lane) {
var update = createUpdate(NoTimestamp, lane);
update.tag = CaptureUpdate;
var getDerivedStateFromError = fiber.type.getDerivedStateFromError;
if (typeof getDerivedStateFromError === 'function') {
var error$1 = errorInfo.value;
update.payload = function () {
logCapturedError(fiber, errorInfo);
return getDerivedStateFromError(error$1);
};
}
var inst = fiber.stateNode;
if (inst !== null && typeof inst.componentDidCatch === 'function') {
update.callback = function callback() {
{
markFailedErrorBoundaryForHotReloading(fiber);
}
if (typeof getDerivedStateFromError !== 'function') {
markLegacyErrorBoundaryAsFailed(this);
logCapturedError(fiber, errorInfo);
}
var error$1 = errorInfo.value;
var stack = errorInfo.stack;
this.componentDidCatch(error$1, {
componentStack: stack !== null ? stack : ''
});
{
if (typeof getDerivedStateFromError !== 'function') {
if (!includesSomeLane(fiber.lanes, SyncLane)) {
error('%s: Error boundaries should implement getDerivedStateFromError(). ' + 'In that method, return a state update to display an error message or fallback UI.', getComponentName(fiber.type) || 'Unknown');
}
}
}
};
} else {
update.callback = function () {
markFailedErrorBoundaryForHotReloading(fiber);
};
}
return update;
}
function attachPingListener(root, wakeable, lanes) {
var pingCache = root.pingCache;
var threadIDs;
if (pingCache === null) {
pingCache = root.pingCache = new PossiblyWeakMap$1();
threadIDs = new Set();
pingCache.set(wakeable, threadIDs);
} else {
threadIDs = pingCache.get(wakeable);
if (threadIDs === undefined) {
threadIDs = new Set();
pingCache.set(wakeable, threadIDs);
}
}
if (!threadIDs.has(lanes)) {
threadIDs.add(lanes);
var ping = pingSuspendedRoot.bind(null, root, wakeable, lanes);
wakeable.then(ping, ping);
}
}
function throwException(root, returnFiber, sourceFiber, value, rootRenderLanes) {
sourceFiber.flags |= Incomplete;
sourceFiber.firstEffect = sourceFiber.lastEffect = null;
if (value !== null && typeof value === 'object' && typeof value.then === 'function') {
var wakeable = value;
if ((sourceFiber.mode & BlockingMode) === NoMode) {
var currentSource = sourceFiber.alternate;
if (currentSource) {
sourceFiber.updateQueue = currentSource.updateQueue;
sourceFiber.memoizedState = currentSource.memoizedState;
sourceFiber.lanes = currentSource.lanes;
} else {
sourceFiber.updateQueue = null;
sourceFiber.memoizedState = null;
}
}
var hasInvisibleParentBoundary = hasSuspenseContext(suspenseStackCursor.current, InvisibleParentSuspenseContext);
var _workInProgress = returnFiber;
do {
if (_workInProgress.tag === SuspenseComponent && shouldCaptureSuspense(_workInProgress, hasInvisibleParentBoundary)) {
var wakeables = _workInProgress.updateQueue;
if (wakeables === null) {
var updateQueue = new Set();
updateQueue.add(wakeable);
_workInProgress.updateQueue = updateQueue;
} else {
wakeables.add(wakeable);
}
if ((_workInProgress.mode & BlockingMode) === NoMode) {
_workInProgress.flags |= DidCapture;
sourceFiber.flags |= ForceUpdateForLegacySuspense;
sourceFiber.flags &= ~(LifecycleEffectMask | Incomplete);
if (sourceFiber.tag === ClassComponent) {
var currentSourceFiber = sourceFiber.alternate;
if (currentSourceFiber === null) {
sourceFiber.tag = IncompleteClassComponent;
} else {
var update = createUpdate(NoTimestamp, SyncLane);
update.tag = ForceUpdate;
enqueueUpdate(sourceFiber, update);
}
}
sourceFiber.lanes = mergeLanes(sourceFiber.lanes, SyncLane);
return;
}
attachPingListener(root, wakeable, rootRenderLanes);
_workInProgress.flags |= ShouldCapture;
_workInProgress.lanes = rootRenderLanes;
return;
}
_workInProgress = _workInProgress.return;
} while (_workInProgress !== null);
value = new Error((getComponentName(sourceFiber.type) || 'A React component') + ' suspended while rendering, but no fallback UI was specified.\n' + '\n' + 'Add a <Suspense fallback=...> component higher in the tree to ' + 'provide a loading indicator or placeholder to display.');
}
renderDidError();
value = createCapturedValue(value, sourceFiber);
var workInProgress = returnFiber;
do {
switch (workInProgress.tag) {
case HostRoot:
{
var _errorInfo = value;
workInProgress.flags |= ShouldCapture;
var lane = pickArbitraryLane(rootRenderLanes);
workInProgress.lanes = mergeLanes(workInProgress.lanes, lane);
var _update = createRootErrorUpdate(workInProgress, _errorInfo, lane);
enqueueCapturedUpdate(workInProgress, _update);
return;
}
case ClassComponent:
var errorInfo = value;
var ctor = workInProgress.type;
var instance = workInProgress.stateNode;
if ((workInProgress.flags & DidCapture) === NoFlags && (typeof ctor.getDerivedStateFromError === 'function' || instance !== null && typeof instance.componentDidCatch === 'function' && !isAlreadyFailedLegacyErrorBoundary(instance))) {
workInProgress.flags |= ShouldCapture;
var _lane = pickArbitraryLane(rootRenderLanes);
workInProgress.lanes = mergeLanes(workInProgress.lanes, _lane);
var _update2 = createClassErrorUpdate(workInProgress, errorInfo, _lane);
enqueueCapturedUpdate(workInProgress, _update2);
return;
}
break;
}
workInProgress = workInProgress.return;
} while (workInProgress !== null);
}
var didWarnAboutUndefinedSnapshotBeforeUpdate = null;
{
didWarnAboutUndefinedSnapshotBeforeUpdate = new Set();
}
var PossiblyWeakSet = typeof WeakSet === 'function' ? WeakSet : Set;
var callComponentWillUnmountWithTimer = function (current, instance) {
instance.props = current.memoizedProps;
instance.state = current.memoizedState;
{
instance.componentWillUnmount();
}
};
function safelyCallComponentWillUnmount(current, instance) {
{
invokeGuardedCallback(null, callComponentWillUnmountWithTimer, null, current, instance);
if (hasCaughtError()) {
var unmountError = clearCaughtError();
captureCommitPhaseError(current, unmountError);
}
}
}
function safelyDetachRef(current) {
var ref = current.ref;
if (ref !== null) {
if (typeof ref === 'function') {
{
invokeGuardedCallback(null, ref, null, null);
if (hasCaughtError()) {
var refError = clearCaughtError();
captureCommitPhaseError(current, refError);
}
}
} else {
ref.current = null;
}
}
}
function safelyCallDestroy(current, destroy) {
{
invokeGuardedCallback(null, destroy, null);
if (hasCaughtError()) {
var error = clearCaughtError();
captureCommitPhaseError(current, error);
}
}
}
function commitBeforeMutationLifeCycles(current, finishedWork) {
switch (finishedWork.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent:
case Block:
{
return;
}
case ClassComponent:
{
if (finishedWork.flags & Snapshot) {
if (current !== null) {
var prevProps = current.memoizedProps;
var prevState = current.memoizedState;
var instance = finishedWork.stateNode;
{
if (finishedWork.type === finishedWork.elementType && !didWarnAboutReassigningProps) {
if (instance.props !== finishedWork.memoizedProps) {
error('Expected %s props to match memoized props before ' + 'getSnapshotBeforeUpdate. ' + 'This might either be because of a bug in React, or because ' + 'a component reassigns its own `this.props`. ' + 'Please file an issue.', getComponentName(finishedWork.type) || 'instance');
}
if (instance.state !== finishedWork.memoizedState) {
error('Expected %s state to match memoized state before ' + 'getSnapshotBeforeUpdate. ' + 'This might either be because of a bug in React, or because ' + 'a component reassigns its own `this.state`. ' + 'Please file an issue.', getComponentName(finishedWork.type) || 'instance');
}
}
}
var snapshot = instance.getSnapshotBeforeUpdate(finishedWork.elementType === finishedWork.type ? prevProps : resolveDefaultProps(finishedWork.type, prevProps), prevState);
{
var didWarnSet = didWarnAboutUndefinedSnapshotBeforeUpdate;
if (snapshot === undefined && !didWarnSet.has(finishedWork.type)) {
didWarnSet.add(finishedWork.type);
error('%s.getSnapshotBeforeUpdate(): A snapshot value (or null) ' + 'must be returned. You have returned undefined.', getComponentName(finishedWork.type));
}
}
instance.__reactInternalSnapshotBeforeUpdate = snapshot;
}
}
return;
}
case HostRoot:
{
{
if (finishedWork.flags & Snapshot) {
var root = finishedWork.stateNode;
clearContainer(root.containerInfo);
}
}
return;
}
case HostComponent:
case HostText:
case HostPortal:
case IncompleteClassComponent:
return;
}
{
{
throw Error( "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 commitHookEffectListUnmount(tag, finishedWork) {
var updateQueue = finishedWork.updateQueue;
var lastEffect = updateQueue !== null ? updateQueue.lastEffect : null;
if (lastEffect !== null) {
var firstEffect = lastEffect.next;
var effect = firstEffect;
do {
if ((effect.tag & tag) === tag) {
var destroy = effect.destroy;
effect.destroy = undefined;
if (destroy !== undefined) {
destroy();
}
}
effect = effect.next;
} while (effect !== firstEffect);
}
}
function commitHookEffectListMount(tag, finishedWork) {
var updateQueue = finishedWork.updateQueue;
var lastEffect = updateQueue !== null ? updateQueue.lastEffect : null;
if (lastEffect !== null) {
var firstEffect = lastEffect.next;
var effect = firstEffect;
do {
if ((effect.tag & tag) === tag) {
var create = effect.create;
effect.destroy = create();
{
var destroy = effect.destroy;
if (destroy !== undefined && typeof destroy !== 'function') {
var addendum = void 0;
if (destroy === null) {
addendum = ' You returned null. If your effect does not require clean ' + 'up, return undefined (or nothing).';
} else if (typeof destroy.then === 'function') {
addendum = '\n\nIt looks like you wrote useEffect(async () => ...) or returned a Promise. ' + 'Instead, write the async function inside your effect ' + 'and call it immediately:\n\n' + 'useEffect(() => {\n' + ' async function fetchData() {\n' + ' // You can await here\n' + ' const response = await MyAPI.getData(someId);\n' + ' // ...\n' + ' }\n' + ' fetchData();\n' + "}, [someId]); // Or [] if effect doesn't need props or state\n\n" + 'Learn more about data fetching with Hooks: https://reactjs.org/link/hooks-data-fetching';
} else {
addendum = ' You returned: ' + destroy;
}
error('An effect function must not return anything besides a function, ' + 'which is used for clean-up.%s', addendum);
}
}
}
effect = effect.next;
} while (effect !== firstEffect);
}
}
function schedulePassiveEffects(finishedWork) {
var updateQueue = finishedWork.updateQueue;
var lastEffect = updateQueue !== null ? updateQueue.lastEffect : null;
if (lastEffect !== null) {
var firstEffect = lastEffect.next;
var effect = firstEffect;
do {
var _effect = effect,
next = _effect.next,
tag = _effect.tag;
if ((tag & Passive$1) !== NoFlags$1 && (tag & HasEffect) !== NoFlags$1) {
enqueuePendingPassiveHookEffectUnmount(finishedWork, effect);
enqueuePendingPassiveHookEffectMount(finishedWork, effect);
}
effect = next;
} while (effect !== firstEffect);
}
}
function commitLifeCycles(finishedRoot, current, finishedWork, committedLanes) {
switch (finishedWork.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent:
case Block:
{
{
commitHookEffectListMount(Layout | HasEffect, finishedWork);
}
schedulePassiveEffects(finishedWork);
return;
}
case ClassComponent:
{
var instance = finishedWork.stateNode;
if (finishedWork.flags & Update) {
if (current === null) {
{
if (finishedWork.type === finishedWork.elementType && !didWarnAboutReassigningProps) {
if (instance.props !== finishedWork.memoizedProps) {
error('Expected %s props to match memoized props before ' + 'componentDidMount. ' + 'This might either be because of a bug in React, or because ' + 'a component reassigns its own `this.props`. ' + 'Please file an issue.', getComponentName(finishedWork.type) || 'instance');
}
if (instance.state !== finishedWork.memoizedState) {
error('Expected %s state to match memoized state before ' + 'componentDidMount. ' + 'This might either be because of a bug in React, or because ' + 'a component reassigns its own `this.state`. ' + 'Please file an issue.', getComponentName(finishedWork.type) || 'instance');
}
}
}
{
instance.componentDidMount();
}
} else {
var prevProps = finishedWork.elementType === finishedWork.type ? current.memoizedProps : resolveDefaultProps(finishedWork.type, current.memoizedProps);
var prevState = current.memoizedState;
{
if (finishedWork.type === finishedWork.elementType && !didWarnAboutReassigningProps) {
if (instance.props !== finishedWork.memoizedProps) {
error('Expected %s props to match memoized props before ' + 'componentDidUpdate. ' + 'This might either be because of a bug in React, or because ' + 'a component reassigns its own `this.props`. ' + 'Please file an issue.', getComponentName(finishedWork.type) || 'instance');
}
if (instance.state !== finishedWork.memoizedState) {
error('Expected %s state to match memoized state before ' + 'componentDidUpdate. ' + 'This might either be because of a bug in React, or because ' + 'a component reassigns its own `this.state`. ' + 'Please file an issue.', getComponentName(finishedWork.type) || 'instance');
}
}
}
{
instance.componentDidUpdate(prevProps, prevState, instance.__reactInternalSnapshotBeforeUpdate);
}
}
}
var updateQueue = finishedWork.updateQueue;
if (updateQueue !== null) {
{
if (finishedWork.type === finishedWork.elementType && !didWarnAboutReassigningProps) {
if (instance.props !== finishedWork.memoizedProps) {
error('Expected %s props to match memoized props before ' + 'processing the update queue. ' + 'This might either be because of a bug in React, or because ' + 'a component reassigns its own `this.props`. ' + 'Please file an issue.', getComponentName(finishedWork.type) || 'instance');
}
if (instance.state !== finishedWork.memoizedState) {
error('Expected %s state to match memoized state before ' + 'processing the update queue. ' + 'This might either be because of a bug in React, or because ' + 'a component reassigns its own `this.state`. ' + 'Please file an issue.', getComponentName(finishedWork.type) || 'instance');
}
}
}
commitUpdateQueue(finishedWork, updateQueue, instance);
}
return;
}
case HostRoot:
{
var _updateQueue = finishedWork.updateQueue;
if (_updateQueue !== null) {
var _instance = null;
if (finishedWork.child !== null) {
switch (finishedWork.child.tag) {
case HostComponent:
_instance = getPublicInstance(finishedWork.child.stateNode);
break;
case ClassComponent:
_instance = finishedWork.child.stateNode;
break;
}
}
commitUpdateQueue(finishedWork, _updateQueue, _instance);
}
return;
}
case HostComponent:
{
var _instance2 = finishedWork.stateNode;
if (current === null && finishedWork.flags & Update) {
var type = finishedWork.type;
var props = finishedWork.memoizedProps;
commitMount(_instance2, type, props);
}
return;
}
case HostText:
{
return;
}
case HostPortal:
{
return;
}
case Profiler:
{
{
var _finishedWork$memoize2 = finishedWork.memoizedProps;
_finishedWork$memoize2.onCommit;
var onRender = _finishedWork$memoize2.onRender;
finishedWork.stateNode.effectDuration;
var commitTime = getCommitTime();
if (typeof onRender === 'function') {
{
onRender(finishedWork.memoizedProps.id, current === null ? 'mount' : 'update', finishedWork.actualDuration, finishedWork.treeBaseDuration, finishedWork.actualStartTime, commitTime, finishedRoot.memoizedInteractions);
}
}
}
return;
}
case SuspenseComponent:
{
commitSuspenseHydrationCallbacks(finishedRoot, finishedWork);
return;
}
case SuspenseListComponent:
case IncompleteClassComponent:
case FundamentalComponent:
case ScopeComponent:
case OffscreenComponent:
case LegacyHiddenComponent:
return;
}
{
{
throw Error( "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 hideOrUnhideAllChildren(finishedWork, isHidden) {
{
var node = finishedWork;
while (true) {
if (node.tag === HostComponent) {
var instance = node.stateNode;
if (isHidden) {
hideInstance(instance);
} else {
unhideInstance(node.stateNode, node.memoizedProps);
}
} else if (node.tag === HostText) {
var _instance3 = node.stateNode;
if (isHidden) {
hideTextInstance(_instance3);
} else {
unhideTextInstance(_instance3, node.memoizedProps);
}
} else if ((node.tag === OffscreenComponent || node.tag === LegacyHiddenComponent) && node.memoizedState !== null && node !== finishedWork) ; else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === finishedWork) {
return;
}
while (node.sibling === null) {
if (node.return === null || node.return === finishedWork) {
return;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
}
}
function commitAttachRef(finishedWork) {
var ref = finishedWork.ref;
if (ref !== null) {
var instance = finishedWork.stateNode;
var instanceToUse;
switch (finishedWork.tag) {
case HostComponent:
instanceToUse = getPublicInstance(instance);
break;
default:
instanceToUse = instance;
}
if (typeof ref === 'function') {
ref(instanceToUse);
} else {
{
if (!ref.hasOwnProperty('current')) {
error('Unexpected ref object provided for %s. ' + 'Use either a ref-setter function or React.createRef().', getComponentName(finishedWork.type));
}
}
ref.current = instanceToUse;
}
}
}
function commitDetachRef(current) {
var currentRef = current.ref;
if (currentRef !== null) {
if (typeof currentRef === 'function') {
currentRef(null);
} else {
currentRef.current = null;
}
}
}
function commitUnmount(finishedRoot, current, renderPriorityLevel) {
onCommitUnmount(current);
switch (current.tag) {
case FunctionComponent:
case ForwardRef:
case MemoComponent:
case SimpleMemoComponent:
case Block:
{
var updateQueue = current.updateQueue;
if (updateQueue !== null) {
var lastEffect = updateQueue.lastEffect;
if (lastEffect !== null) {
var firstEffect = lastEffect.next;
var effect = firstEffect;
do {
var _effect2 = effect,
destroy = _effect2.destroy,
tag = _effect2.tag;
if (destroy !== undefined) {
if ((tag & Passive$1) !== NoFlags$1) {
enqueuePendingPassiveHookEffectUnmount(current, effect);
} else {
{
safelyCallDestroy(current, destroy);
}
}
}
effect = effect.next;
} while (effect !== firstEffect);
}
}
return;
}
case ClassComponent:
{
safelyDetachRef(current);
var instance = current.stateNode;
if (typeof instance.componentWillUnmount === 'function') {
safelyCallComponentWillUnmount(current, instance);
}
return;
}
case HostComponent:
{
safelyDetachRef(current);
return;
}
case HostPortal:
{
{
unmountHostComponents(finishedRoot, current);
}
return;
}
case FundamentalComponent:
{
return;
}
case DehydratedFragment:
{
return;
}
case ScopeComponent:
{
return;
}
}
}
function commitNestedUnmounts(finishedRoot, root, renderPriorityLevel) {
var node = root;
while (true) {
commitUnmount(finishedRoot, node);
if (node.child !== null && (
node.tag !== HostPortal)) {
node.child.return = node;
node = node.child;
continue;
}
if (node === root) {
return;
}
while (node.sibling === null) {
if (node.return === null || node.return === root) {
return;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
}
function detachFiberMutation(fiber) {
fiber.alternate = null;
fiber.child = null;
fiber.dependencies = null;
fiber.firstEffect = null;
fiber.lastEffect = null;
fiber.memoizedProps = null;
fiber.memoizedState = null;
fiber.pendingProps = null;
fiber.return = null;
fiber.updateQueue = null;
{
fiber._debugOwner = null;
}
}
function getHostParentFiber(fiber) {
var parent = fiber.return;
while (parent !== null) {
if (isHostParent(parent)) {
return parent;
}
parent = parent.return;
}
{
{
throw Error( "Expected to find a host parent. This error is likely caused by a bug in React. Please file an issue." );
}
}
}
function isHostParent(fiber) {
return fiber.tag === HostComponent || fiber.tag === HostRoot || fiber.tag === HostPortal;
}
function getHostSibling(fiber) {
var node = fiber;
siblings: while (true) {
while (node.sibling === null) {
if (node.return === null || isHostParent(node.return)) {
return null;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
while (node.tag !== HostComponent && node.tag !== HostText && node.tag !== DehydratedFragment) {
if (node.flags & Placement) {
continue siblings;
}
if (node.child === null || node.tag === HostPortal) {
continue siblings;
} else {
node.child.return = node;
node = node.child;
}
}
if (!(node.flags & Placement)) {
return node.stateNode;
}
}
}
function commitPlacement(finishedWork) {
var parentFiber = getHostParentFiber(finishedWork);
var parent;
var isContainer;
var parentStateNode = parentFiber.stateNode;
switch (parentFiber.tag) {
case HostComponent:
parent = parentStateNode;
isContainer = false;
break;
case HostRoot:
parent = parentStateNode.containerInfo;
isContainer = true;
break;
case HostPortal:
parent = parentStateNode.containerInfo;
isContainer = true;
break;
case FundamentalComponent:
default:
{
{
throw Error( "Invalid host parent fiber. This error is likely caused by a bug in React. Please file an issue." );
}
}
}
if (parentFiber.flags & ContentReset) {
resetTextContent(parent);
parentFiber.flags &= ~ContentReset;
}
var before = getHostSibling(finishedWork);
if (isContainer) {
insertOrAppendPlacementNodeIntoContainer(finishedWork, before, parent);
} else {
insertOrAppendPlacementNode(finishedWork, before, parent);
}
}
function insertOrAppendPlacementNodeIntoContainer(node, before, parent) {
var tag = node.tag;
var isHost = tag === HostComponent || tag === HostText;
if (isHost || enableFundamentalAPI ) {
var stateNode = isHost ? node.stateNode : node.stateNode.instance;
if (before) {
insertInContainerBefore(parent, stateNode, before);
} else {
appendChildToContainer(parent, stateNode);
}
} else if (tag === HostPortal) ; else {
var child = node.child;
if (child !== null) {
insertOrAppendPlacementNodeIntoContainer(child, before, parent);
var sibling = child.sibling;
while (sibling !== null) {
insertOrAppendPlacementNodeIntoContainer(sibling, before, parent);
sibling = sibling.sibling;
}
}
}
}
function insertOrAppendPlacementNode(node, before, parent) {
var tag = node.tag;
var isHost = tag === HostComponent || tag === HostText;
if (isHost || enableFundamentalAPI ) {
var stateNode = isHost ? node.stateNode : node.stateNode.instance;
if (before) {
insertBefore(parent, stateNode, before);
} else {
appendChild(parent, stateNode);
}
} else if (tag === HostPortal) ; else {
var child = node.child;
if (child !== null) {
insertOrAppendPlacementNode(child, before, parent);
var sibling = child.sibling;
while (sibling !== null) {
insertOrAppendPlacementNode(sibling, before, parent);
sibling = sibling.sibling;
}
}
}
}
function unmountHostComponents(finishedRoot, current, renderPriorityLevel) {
var node = current;
var currentParentIsValid = false;
var currentParent;
var currentParentIsContainer;
while (true) {
if (!currentParentIsValid) {
var parent = node.return;
findParent: while (true) {
if (!(parent !== null)) {
{
throw Error( "Expected to find a host parent. This error is likely caused by a bug in React. Please file an issue." );
}
}
var parentStateNode = parent.stateNode;
switch (parent.tag) {
case HostComponent:
currentParent = parentStateNode;
currentParentIsContainer = false;
break findParent;
case HostRoot:
currentParent = parentStateNode.containerInfo;
currentParentIsContainer = true;
break findParent;
case HostPortal:
currentParent = parentStateNode.containerInfo;
currentParentIsContainer = true;
break findParent;
}
parent = parent.return;
}
currentParentIsValid = true;
}
if (node.tag === HostComponent || node.tag === HostText) {
commitNestedUnmounts(finishedRoot, node);
if (currentParentIsContainer) {
removeChildFromContainer(currentParent, node.stateNode);
} else {
removeChild(currentParent, node.stateNode);
}
} else if (node.tag === HostPortal) {
if (node.child !== null) {
currentParent = node.stateNode.containerInfo;
currentParentIsContainer = true;
node.child.return = node;
node = node.child;
continue;
}
} else {
commitUnmount(finishedRoot, node);
if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
}
if (node === current) {
return;
}
while (node.sibling === null) {
if (node.return === null || node.return === current) {
return;
}
node = node.return;
if (node.tag === HostPortal) {
currentParentIsValid = false;
}
}
node.sibling.return = node.return;
node = node.sibling;
}
}
function commitDeletion(finishedRoot, current, renderPriorityLevel) {
{
unmountHostComponents(finishedRoot, current);
}
var alternate = current.alternate;
detachFiberMutation(current);
if (alternate !== null) {
detachFiberMutation(alternate);
}
}
function commitWork(current, finishedWork) {
switch (finishedWork.tag) {
case FunctionComponent:
case ForwardRef:
case MemoComponent:
case SimpleMemoComponent:
case Block:
{
{
commitHookEffectListUnmount(Layout | HasEffect, finishedWork);
}
return;
}
case ClassComponent:
{
return;
}
case HostComponent:
{
var instance = finishedWork.stateNode;
if (instance != null) {
var newProps = finishedWork.memoizedProps;
var oldProps = current !== null ? current.memoizedProps : newProps;
var type = finishedWork.type;
var updatePayload = finishedWork.updateQueue;
finishedWork.updateQueue = null;
if (updatePayload !== null) {
commitUpdate(instance, updatePayload, type, oldProps, newProps);
}
}
return;
}
case HostText:
{
if (!(finishedWork.stateNode !== null)) {
{
throw Error( "This should have a text node initialized. This error is likely caused by a bug in React. Please file an issue." );
}
}
var textInstance = finishedWork.stateNode;
var newText = finishedWork.memoizedProps;
var oldText = current !== null ? current.memoizedProps : newText;
commitTextUpdate(textInstance, oldText, newText);
return;
}
case HostRoot:
{
{
var _root = finishedWork.stateNode;
if (_root.hydrate) {
_root.hydrate = false;
commitHydratedContainer(_root.containerInfo);
}
}
return;
}
case Profiler:
{
return;
}
case SuspenseComponent:
{
commitSuspenseComponent(finishedWork);
attachSuspenseRetryListeners(finishedWork);
return;
}
case SuspenseListComponent:
{
attachSuspenseRetryListeners(finishedWork);
return;
}
case IncompleteClassComponent:
{
return;
}
case FundamentalComponent:
{
break;
}
case ScopeComponent:
{
break;
}
case OffscreenComponent:
case LegacyHiddenComponent:
{
var newState = finishedWork.memoizedState;
var isHidden = newState !== null;
hideOrUnhideAllChildren(finishedWork, isHidden);
return;
}
}
{
{
throw Error( "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 commitSuspenseComponent(finishedWork) {
var newState = finishedWork.memoizedState;
if (newState !== null) {
markCommitTimeOfFallback();
{
var primaryChildParent = finishedWork.child;
hideOrUnhideAllChildren(primaryChildParent, true);
}
}
}
function commitSuspenseHydrationCallbacks(finishedRoot, finishedWork) {
var newState = finishedWork.memoizedState;
if (newState === null) {
var current = finishedWork.alternate;
if (current !== null) {
var prevState = current.memoizedState;
if (prevState !== null) {
var suspenseInstance = prevState.dehydrated;
if (suspenseInstance !== null) {
commitHydratedSuspenseInstance(suspenseInstance);
}
}
}
}
}
function attachSuspenseRetryListeners(finishedWork) {
var wakeables = finishedWork.updateQueue;
if (wakeables !== null) {
finishedWork.updateQueue = null;
var retryCache = finishedWork.stateNode;
if (retryCache === null) {
retryCache = finishedWork.stateNode = new PossiblyWeakSet();
}
wakeables.forEach(function (wakeable) {
var retry = resolveRetryWakeable.bind(null, finishedWork, wakeable);
if (!retryCache.has(wakeable)) {
{
if (wakeable.__reactDoNotTraceInteractions !== true) {
retry = tracing$1.unstable_wrap(retry);
}
}
retryCache.add(wakeable);
wakeable.then(retry, retry);
}
});
}
}
function isSuspenseBoundaryBeingHidden(current, finishedWork) {
if (current !== null) {
var oldState = current.memoizedState;
if (oldState === null || oldState.dehydrated !== null) {
var newState = finishedWork.memoizedState;
return newState !== null && newState.dehydrated === null;
}
}
return false;
}
function commitResetTextContent(current) {
resetTextContent(current.stateNode);
}
if (typeof Symbol === 'function' && Symbol.for) {
var symbolFor$1 = Symbol.for;
symbolFor$1('selector.component');
symbolFor$1('selector.has_pseudo_class');
symbolFor$1('selector.role');
symbolFor$1('selector.test_id');
symbolFor$1('selector.text');
}
var commitHooks = [];
function onCommitRoot$1() {
{
commitHooks.forEach(function (commitHook) {
return commitHook();
});
}
}
var ceil = Math.ceil;
var ReactCurrentDispatcher$2 = ReactSharedInternals.ReactCurrentDispatcher,
ReactCurrentOwner$2 = ReactSharedInternals.ReactCurrentOwner,
IsSomeRendererActing = ReactSharedInternals.IsSomeRendererActing;
var NoContext =
0;
var BatchedContext =
1;
var EventContext =
2;
var DiscreteEventContext =
4;
var LegacyUnbatchedContext =
8;
var RenderContext =
16;
var CommitContext =
32;
var RetryAfterError =
64;
var RootIncomplete = 0;
var RootFatalErrored = 1;
var RootErrored = 2;
var RootSuspended = 3;
var RootSuspendedWithDelay = 4;
var RootCompleted = 5;
var executionContext = NoContext;
var workInProgressRoot = null;
var workInProgress = null;
var workInProgressRootRenderLanes = NoLanes;
var subtreeRenderLanes = NoLanes;
var subtreeRenderLanesCursor = createCursor(NoLanes);
var workInProgressRootExitStatus = RootIncomplete;
var workInProgressRootFatalError = null;
var workInProgressRootIncludedLanes = NoLanes;
var workInProgressRootSkippedLanes = NoLanes;
var workInProgressRootUpdatedLanes = NoLanes;
var workInProgressRootPingedLanes = NoLanes;
var mostRecentlyUpdatedRoot = null;
var globalMostRecentFallbackTime = 0;
var FALLBACK_THROTTLE_MS = 500;
var workInProgressRootRenderTargetTime = Infinity;
var RENDER_TIMEOUT_MS = 500;
function resetRenderTimer() {
workInProgressRootRenderTargetTime = now() + RENDER_TIMEOUT_MS;
}
function getRenderTargetTime() {
return workInProgressRootRenderTargetTime;
}
var nextEffect = null;
var hasUncaughtError = false;
var firstUncaughtError = null;
var legacyErrorBoundariesThatAlreadyFailed = null;
var rootDoesHavePassiveEffects = false;
var rootWithPendingPassiveEffects = null;
var pendingPassiveEffectsRenderPriority = NoPriority$1;
var pendingPassiveEffectsLanes = NoLanes;
var pendingPassiveHookEffectsMount = [];
var pendingPassiveHookEffectsUnmount = [];
var rootsWithPendingDiscreteUpdates = null;
var NESTED_UPDATE_LIMIT = 50;
var nestedUpdateCount = 0;
var rootWithNestedUpdates = null;
var NESTED_PASSIVE_UPDATE_LIMIT = 50;
var nestedPassiveUpdateCount = 0;
var spawnedWorkDuringRender = null;
var currentEventTime = NoTimestamp;
var currentEventWipLanes = NoLanes;
var currentEventPendingLanes = NoLanes;
var isFlushingPassiveEffects = false;
var focusedInstanceHandle = null;
var shouldFireAfterActiveInstanceBlur = false;
function getWorkInProgressRoot() {
return workInProgressRoot;
}
function requestEventTime() {
if ((executionContext & (RenderContext | CommitContext)) !== NoContext) {
return now();
}
if (currentEventTime !== NoTimestamp) {
return currentEventTime;
}
currentEventTime = now();
return currentEventTime;
}
function requestUpdateLane(fiber) {
var mode = fiber.mode;
if ((mode & BlockingMode) === NoMode) {
return SyncLane;
} else if ((mode & ConcurrentMode) === NoMode) {
return getCurrentPriorityLevel() === ImmediatePriority$1 ? SyncLane : SyncBatchedLane;
}
if (currentEventWipLanes === NoLanes) {
currentEventWipLanes = workInProgressRootIncludedLanes;
}
var isTransition = requestCurrentTransition() !== NoTransition;
if (isTransition) {
if (currentEventPendingLanes !== NoLanes) {
currentEventPendingLanes = mostRecentlyUpdatedRoot !== null ? mostRecentlyUpdatedRoot.pendingLanes : NoLanes;
}
return findTransitionLane(currentEventWipLanes, currentEventPendingLanes);
}
var schedulerPriority = getCurrentPriorityLevel();
var lane;
if (
(executionContext & DiscreteEventContext) !== NoContext && schedulerPriority === UserBlockingPriority$2) {
lane = findUpdateLane(InputDiscreteLanePriority, currentEventWipLanes);
} else {
var schedulerLanePriority = schedulerPriorityToLanePriority(schedulerPriority);
lane = findUpdateLane(schedulerLanePriority, currentEventWipLanes);
}
return lane;
}
function requestRetryLane(fiber) {
var mode = fiber.mode;
if ((mode & BlockingMode) === NoMode) {
return SyncLane;
} else if ((mode & ConcurrentMode) === NoMode) {
return getCurrentPriorityLevel() === ImmediatePriority$1 ? SyncLane : SyncBatchedLane;
}
if (currentEventWipLanes === NoLanes) {
currentEventWipLanes = workInProgressRootIncludedLanes;
}
return findRetryLane(currentEventWipLanes);
}
function scheduleUpdateOnFiber(fiber, lane, eventTime) {
checkForNestedUpdates();
warnAboutRenderPhaseUpdatesInDEV(fiber);
var root = markUpdateLaneFromFiberToRoot(fiber, lane);
if (root === null) {
warnAboutUpdateOnUnmountedFiberInDEV(fiber);
return null;
}
markRootUpdated(root, lane, eventTime);
if (root === workInProgressRoot) {
{
workInProgressRootUpdatedLanes = mergeLanes(workInProgressRootUpdatedLanes, lane);
}
if (workInProgressRootExitStatus === RootSuspendedWithDelay) {
markRootSuspended$1(root, workInProgressRootRenderLanes);
}
}
var priorityLevel = getCurrentPriorityLevel();
if (lane === SyncLane) {
if (
(executionContext & LegacyUnbatchedContext) !== NoContext &&
(executionContext & (RenderContext | CommitContext)) === NoContext) {
schedulePendingInteractions(root, lane);
performSyncWorkOnRoot(root);
} else {
ensureRootIsScheduled(root, eventTime);
schedulePendingInteractions(root, lane);
if (executionContext === NoContext) {
resetRenderTimer();
flushSyncCallbackQueue();
}
}
} else {
if ((executionContext & DiscreteEventContext) !== NoContext && (
priorityLevel === UserBlockingPriority$2 || priorityLevel === ImmediatePriority$1)) {
if (rootsWithPendingDiscreteUpdates === null) {
rootsWithPendingDiscreteUpdates = new Set([root]);
} else {
rootsWithPendingDiscreteUpdates.add(root);
}
}
ensureRootIsScheduled(root, eventTime);
schedulePendingInteractions(root, lane);
}
mostRecentlyUpdatedRoot = root;
}
function markUpdateLaneFromFiberToRoot(sourceFiber, lane) {
sourceFiber.lanes = mergeLanes(sourceFiber.lanes, lane);
var alternate = sourceFiber.alternate;
if (alternate !== null) {
alternate.lanes = mergeLanes(alternate.lanes, lane);
}
{
if (alternate === null && (sourceFiber.flags & (Placement | Hydrating)) !== NoFlags) {
warnAboutUpdateOnNotYetMountedFiberInDEV(sourceFiber);
}
}
var node = sourceFiber;
var parent = sourceFiber.return;
while (parent !== null) {
parent.childLanes = mergeLanes(parent.childLanes, lane);
alternate = parent.alternate;
if (alternate !== null) {
alternate.childLanes = mergeLanes(alternate.childLanes, lane);
} else {
{
if ((parent.flags & (Placement | Hydrating)) !== NoFlags) {
warnAboutUpdateOnNotYetMountedFiberInDEV(sourceFiber);
}
}
}
node = parent;
parent = parent.return;
}
if (node.tag === HostRoot) {
var root = node.stateNode;
return root;
} else {
return null;
}
}
function ensureRootIsScheduled(root, currentTime) {
var existingCallbackNode = root.callbackNode;
markStarvedLanesAsExpired(root, currentTime);
var nextLanes = getNextLanes(root, root === workInProgressRoot ? workInProgressRootRenderLanes : NoLanes);
var newCallbackPriority = returnNextLanesPriority();
if (nextLanes === NoLanes) {
if (existingCallbackNode !== null) {
cancelCallback(existingCallbackNode);
root.callbackNode = null;
root.callbackPriority = NoLanePriority;
}
return;
}
if (existingCallbackNode !== null) {
var existingCallbackPriority = root.callbackPriority;
if (existingCallbackPriority === newCallbackPriority) {
return;
}
cancelCallback(existingCallbackNode);
}
var newCallbackNode;
if (newCallbackPriority === SyncLanePriority) {
newCallbackNode = scheduleSyncCallback(performSyncWorkOnRoot.bind(null, root));
} else if (newCallbackPriority === SyncBatchedLanePriority) {
newCallbackNode = scheduleCallback(ImmediatePriority$1, performSyncWorkOnRoot.bind(null, root));
} else {
var schedulerPriorityLevel = lanePriorityToSchedulerPriority(newCallbackPriority);
newCallbackNode = scheduleCallback(schedulerPriorityLevel, performConcurrentWorkOnRoot.bind(null, root));
}
root.callbackPriority = newCallbackPriority;
root.callbackNode = newCallbackNode;
}
function performConcurrentWorkOnRoot(root) {
currentEventTime = NoTimestamp;
currentEventWipLanes = NoLanes;
currentEventPendingLanes = NoLanes;
if (!((executionContext & (RenderContext | CommitContext)) === NoContext)) {
{
throw Error( "Should not already be working." );
}
}
var originalCallbackNode = root.callbackNode;
var didFlushPassiveEffects = flushPassiveEffects();
if (didFlushPassiveEffects) {
if (root.callbackNode !== originalCallbackNode) {
return null;
}
}
var lanes = getNextLanes(root, root === workInProgressRoot ? workInProgressRootRenderLanes : NoLanes);
if (lanes === NoLanes) {
return null;
}
var exitStatus = renderRootConcurrent(root, lanes);
if (includesSomeLane(workInProgressRootIncludedLanes, workInProgressRootUpdatedLanes)) {
prepareFreshStack(root, NoLanes);
} else if (exitStatus !== RootIncomplete) {
if (exitStatus === RootErrored) {
executionContext |= RetryAfterError;
if (root.hydrate) {
root.hydrate = false;
clearContainer(root.containerInfo);
}
lanes = getLanesToRetrySynchronouslyOnError(root);
if (lanes !== NoLanes) {
exitStatus = renderRootSync(root, lanes);
}
}
if (exitStatus === RootFatalErrored) {
var fatalError = workInProgressRootFatalError;
prepareFreshStack(root, NoLanes);
markRootSuspended$1(root, lanes);
ensureRootIsScheduled(root, now());
throw fatalError;
}
var finishedWork = root.current.alternate;
root.finishedWork = finishedWork;
root.finishedLanes = lanes;
finishConcurrentRender(root, exitStatus, lanes);
}
ensureRootIsScheduled(root, now());
if (root.callbackNode === originalCallbackNode) {
return performConcurrentWorkOnRoot.bind(null, root);
}
return null;
}
function finishConcurrentRender(root, exitStatus, lanes) {
switch (exitStatus) {
case RootIncomplete:
case RootFatalErrored:
{
{
{
throw Error( "Root did not complete. This is a bug in React." );
}
}
}
case RootErrored:
{
commitRoot(root);
break;
}
case RootSuspended:
{
markRootSuspended$1(root, lanes);
if (includesOnlyRetries(lanes) &&
!shouldForceFlushFallbacksInDEV()) {
var msUntilTimeout = globalMostRecentFallbackTime + FALLBACK_THROTTLE_MS - now();
if (msUntilTimeout > 10) {
var nextLanes = getNextLanes(root, NoLanes);
if (nextLanes !== NoLanes) {
break;
}
var suspendedLanes = root.suspendedLanes;
if (!isSubsetOfLanes(suspendedLanes, lanes)) {
requestEventTime();
markRootPinged(root, suspendedLanes);
break;
}
root.timeoutHandle = scheduleTimeout(commitRoot.bind(null, root), msUntilTimeout);
break;
}
}
commitRoot(root);
break;
}
case RootSuspendedWithDelay:
{
markRootSuspended$1(root, lanes);
if (includesOnlyTransitions(lanes)) {
break;
}
{
var mostRecentEventTime = getMostRecentEventTime(root, lanes);
var eventTimeMs = mostRecentEventTime;
var timeElapsedMs = now() - eventTimeMs;
var _msUntilTimeout = jnd(timeElapsedMs) - timeElapsedMs;
if (_msUntilTimeout > 10) {
root.timeoutHandle = scheduleTimeout(commitRoot.bind(null, root), _msUntilTimeout);
break;
}
}
commitRoot(root);
break;
}
case RootCompleted:
{
commitRoot(root);
break;
}
default:
{
{
{
throw Error( "Unknown root exit status." );
}
}
}
}
}
function markRootSuspended$1(root, suspendedLanes) {
suspendedLanes = removeLanes(suspendedLanes, workInProgressRootPingedLanes);
suspendedLanes = removeLanes(suspendedLanes, workInProgressRootUpdatedLanes);
markRootSuspended(root, suspendedLanes);
}
function performSyncWorkOnRoot(root) {
if (!((executionContext & (RenderContext | CommitContext)) === NoContext)) {
{
throw Error( "Should not already be working." );
}
}
flushPassiveEffects();
var lanes;
var exitStatus;
if (root === workInProgressRoot && includesSomeLane(root.expiredLanes, workInProgressRootRenderLanes)) {
lanes = workInProgressRootRenderLanes;
exitStatus = renderRootSync(root, lanes);
if (includesSomeLane(workInProgressRootIncludedLanes, workInProgressRootUpdatedLanes)) {
lanes = getNextLanes(root, lanes);
exitStatus = renderRootSync(root, lanes);
}
} else {
lanes = getNextLanes(root, NoLanes);
exitStatus = renderRootSync(root, lanes);
}
if (root.tag !== LegacyRoot && exitStatus === RootErrored) {
executionContext |= RetryAfterError;
if (root.hydrate) {
root.hydrate = false;
clearContainer(root.containerInfo);
}
lanes = getLanesToRetrySynchronouslyOnError(root);
if (lanes !== NoLanes) {
exitStatus = renderRootSync(root, lanes);
}
}
if (exitStatus === RootFatalErrored) {
var fatalError = workInProgressRootFatalError;
prepareFreshStack(root, NoLanes);
markRootSuspended$1(root, lanes);
ensureRootIsScheduled(root, now());
throw fatalError;
}
var finishedWork = root.current.alternate;
root.finishedWork = finishedWork;
root.finishedLanes = lanes;
commitRoot(root);
ensureRootIsScheduled(root, now());
return null;
}
function flushDiscreteUpdates() {
if ((executionContext & (BatchedContext | RenderContext | CommitContext)) !== NoContext) {
{
if ((executionContext & RenderContext) !== NoContext) {
error('unstable_flushDiscreteUpdates: Cannot flush updates when React is ' + 'already rendering.');
}
}
return;
}
flushPendingDiscreteUpdates();
flushPassiveEffects();
}
function flushPendingDiscreteUpdates() {
if (rootsWithPendingDiscreteUpdates !== null) {
var roots = rootsWithPendingDiscreteUpdates;
rootsWithPendingDiscreteUpdates = null;
roots.forEach(function (root) {
markDiscreteUpdatesExpired(root);
ensureRootIsScheduled(root, now());
});
}
flushSyncCallbackQueue();
}
function batchedUpdates$1(fn, a) {
var prevExecutionContext = executionContext;
executionContext |= BatchedContext;
try {
return fn(a);
} finally {
executionContext = prevExecutionContext;
if (executionContext === NoContext) {
resetRenderTimer();
flushSyncCallbackQueue();
}
}
}
function batchedEventUpdates$1(fn, a) {
var prevExecutionContext = executionContext;
executionContext |= EventContext;
try {
return fn(a);
} finally {
executionContext = prevExecutionContext;
if (executionContext === NoContext) {
resetRenderTimer();
flushSyncCallbackQueue();
}
}
}
function discreteUpdates$1(fn, a, b, c, d) {
var prevExecutionContext = executionContext;
executionContext |= DiscreteEventContext;
{
try {
return runWithPriority$1(UserBlockingPriority$2, fn.bind(null, a, b, c, d));
} finally {
executionContext = prevExecutionContext;
if (executionContext === NoContext) {
resetRenderTimer();
flushSyncCallbackQueue();
}
}
}
}
function unbatchedUpdates(fn, a) {
var prevExecutionContext = executionContext;
executionContext &= ~BatchedContext;
executionContext |= LegacyUnbatchedContext;
try {
return fn(a);
} finally {
executionContext = prevExecutionContext;
if (executionContext === NoContext) {
resetRenderTimer();
flushSyncCallbackQueue();
}
}
}
function flushSync(fn, a) {
var prevExecutionContext = executionContext;
if ((prevExecutionContext & (RenderContext | CommitContext)) !== NoContext) {
{
error('flushSync was called from inside a lifecycle method. React cannot ' + 'flush when React is already rendering. Consider moving this call to ' + 'a scheduler task or micro task.');
}
return fn(a);
}
executionContext |= BatchedContext;
{
try {
if (fn) {
return runWithPriority$1(ImmediatePriority$1, fn.bind(null, a));
} else {
return undefined;
}
} finally {
executionContext = prevExecutionContext;
flushSyncCallbackQueue();
}
}
}
function pushRenderLanes(fiber, lanes) {
push(subtreeRenderLanesCursor, subtreeRenderLanes, fiber);
subtreeRenderLanes = mergeLanes(subtreeRenderLanes, lanes);
workInProgressRootIncludedLanes = mergeLanes(workInProgressRootIncludedLanes, lanes);
}
function popRenderLanes(fiber) {
subtreeRenderLanes = subtreeRenderLanesCursor.current;
pop(subtreeRenderLanesCursor, fiber);
}
function prepareFreshStack(root, lanes) {
root.finishedWork = null;
root.finishedLanes = NoLanes;
var timeoutHandle = root.timeoutHandle;
if (timeoutHandle !== noTimeout) {
root.timeoutHandle = noTimeout;
cancelTimeout(timeoutHandle);
}
if (workInProgress !== null) {
var interruptedWork = workInProgress.return;
while (interruptedWork !== null) {
unwindInterruptedWork(interruptedWork);
interruptedWork = interruptedWork.return;
}
}
workInProgressRoot = root;
workInProgress = createWorkInProgress(root.current, null);
workInProgressRootRenderLanes = subtreeRenderLanes = workInProgressRootIncludedLanes = lanes;
workInProgressRootExitStatus = RootIncomplete;
workInProgressRootFatalError = null;
workInProgressRootSkippedLanes = NoLanes;
workInProgressRootUpdatedLanes = NoLanes;
workInProgressRootPingedLanes = NoLanes;
{
spawnedWorkDuringRender = null;
}
{
ReactStrictModeWarnings.discardPendingWarnings();
}
}
function handleError(root, thrownValue) {
do {
var erroredWork = workInProgress;
try {
resetContextDependencies();
resetHooksAfterThrow();
resetCurrentFiber();
ReactCurrentOwner$2.current = null;
if (erroredWork === null || erroredWork.return === null) {
workInProgressRootExitStatus = RootFatalErrored;
workInProgressRootFatalError = thrownValue;
workInProgress = null;
return;
}
if (enableProfilerTimer && erroredWork.mode & ProfileMode) {
stopProfilerTimerIfRunningAndRecordDelta(erroredWork, true);
}
throwException(root, erroredWork.return, erroredWork, thrownValue, workInProgressRootRenderLanes);
completeUnitOfWork(erroredWork);
} catch (yetAnotherThrownValue) {
thrownValue = yetAnotherThrownValue;
if (workInProgress === erroredWork && erroredWork !== null) {
erroredWork = erroredWork.return;
workInProgress = erroredWork;
} else {
erroredWork = workInProgress;
}
continue;
}
return;
} while (true);
}
function pushDispatcher() {
var prevDispatcher = ReactCurrentDispatcher$2.current;
ReactCurrentDispatcher$2.current = ContextOnlyDispatcher;
if (prevDispatcher === null) {
return ContextOnlyDispatcher;
} else {
return prevDispatcher;
}
}
function popDispatcher(prevDispatcher) {
ReactCurrentDispatcher$2.current = prevDispatcher;
}
function pushInteractions(root) {
{
var prevInteractions = tracing$1.__interactionsRef.current;
tracing$1.__interactionsRef.current = root.memoizedInteractions;
return prevInteractions;
}
}
function popInteractions(prevInteractions) {
{
tracing$1.__interactionsRef.current = prevInteractions;
}
}
function markCommitTimeOfFallback() {
globalMostRecentFallbackTime = now();
}
function markSkippedUpdateLanes(lane) {
workInProgressRootSkippedLanes = mergeLanes(lane, workInProgressRootSkippedLanes);
}
function renderDidSuspend() {
if (workInProgressRootExitStatus === RootIncomplete) {
workInProgressRootExitStatus = RootSuspended;
}
}
function renderDidSuspendDelayIfPossible() {
if (workInProgressRootExitStatus === RootIncomplete || workInProgressRootExitStatus === RootSuspended) {
workInProgressRootExitStatus = RootSuspendedWithDelay;
}
if (workInProgressRoot !== null && (includesNonIdleWork(workInProgressRootSkippedLanes) || includesNonIdleWork(workInProgressRootUpdatedLanes))) {
markRootSuspended$1(workInProgressRoot, workInProgressRootRenderLanes);
}
}
function renderDidError() {
if (workInProgressRootExitStatus !== RootCompleted) {
workInProgressRootExitStatus = RootErrored;
}
}
function renderHasNotSuspendedYet() {
return workInProgressRootExitStatus === RootIncomplete;
}
function renderRootSync(root, lanes) {
var prevExecutionContext = executionContext;
executionContext |= RenderContext;
var prevDispatcher = pushDispatcher();
if (workInProgressRoot !== root || workInProgressRootRenderLanes !== lanes) {
prepareFreshStack(root, lanes);
startWorkOnPendingInteractions(root, lanes);
}
var prevInteractions = pushInteractions(root);
do {
try {
workLoopSync();
break;
} catch (thrownValue) {
handleError(root, thrownValue);
}
} while (true);
resetContextDependencies();
{
popInteractions(prevInteractions);
}
executionContext = prevExecutionContext;
popDispatcher(prevDispatcher);
if (workInProgress !== null) {
{
{
throw Error( "Cannot commit an incomplete root. This error is likely caused by a bug in React. Please file an issue." );
}
}
}
workInProgressRoot = null;
workInProgressRootRenderLanes = NoLanes;
return workInProgressRootExitStatus;
}
function workLoopSync() {
while (workInProgress !== null) {
performUnitOfWork(workInProgress);
}
}
function renderRootConcurrent(root, lanes) {
var prevExecutionContext = executionContext;
executionContext |= RenderContext;
var prevDispatcher = pushDispatcher();
if (workInProgressRoot !== root || workInProgressRootRenderLanes !== lanes) {
resetRenderTimer();
prepareFreshStack(root, lanes);
startWorkOnPendingInteractions(root, lanes);
}
var prevInteractions = pushInteractions(root);
do {
try {
workLoopConcurrent();
break;
} catch (thrownValue) {
handleError(root, thrownValue);
}
} while (true);
resetContextDependencies();
{
popInteractions(prevInteractions);
}
popDispatcher(prevDispatcher);
executionContext = prevExecutionContext;
if (workInProgress !== null) {
return RootIncomplete;
} else {
workInProgressRoot = null;
workInProgressRootRenderLanes = NoLanes;
return workInProgressRootExitStatus;
}
}
function workLoopConcurrent() {
while (workInProgress !== null && !shouldYield()) {
performUnitOfWork(workInProgress);
}
}
function performUnitOfWork(unitOfWork) {
var current = unitOfWork.alternate;
setCurrentFiber(unitOfWork);
var next;
if ( (unitOfWork.mode & ProfileMode) !== NoMode) {
startProfilerTimer(unitOfWork);
next = beginWork$1(current, unitOfWork, subtreeRenderLanes);
stopProfilerTimerIfRunningAndRecordDelta(unitOfWork, true);
} else {
next = beginWork$1(current, unitOfWork, subtreeRenderLanes);
}
resetCurrentFiber();
unitOfWork.memoizedProps = unitOfWork.pendingProps;
if (next === null) {
completeUnitOfWork(unitOfWork);
} else {
workInProgress = next;
}
ReactCurrentOwner$2.current = null;
}
function completeUnitOfWork(unitOfWork) {
var completedWork = unitOfWork;
do {
var current = completedWork.alternate;
var returnFiber = completedWork.return;
if ((completedWork.flags & Incomplete) === NoFlags) {
setCurrentFiber(completedWork);
var next = void 0;
if ( (completedWork.mode & ProfileMode) === NoMode) {
next = completeWork(current, completedWork, subtreeRenderLanes);
} else {
startProfilerTimer(completedWork);
next = completeWork(current, completedWork, subtreeRenderLanes);
stopProfilerTimerIfRunningAndRecordDelta(completedWork, false);
}
resetCurrentFiber();
if (next !== null) {
workInProgress = next;
return;
}
resetChildLanes(completedWork);
if (returnFiber !== null &&
(returnFiber.flags & Incomplete) === NoFlags) {
if (returnFiber.firstEffect === null) {
returnFiber.firstEffect = completedWork.firstEffect;
}
if (completedWork.lastEffect !== null) {
if (returnFiber.lastEffect !== null) {
returnFiber.lastEffect.nextEffect = completedWork.firstEffect;
}
returnFiber.lastEffect = completedWork.lastEffect;
}
var flags = completedWork.flags;
if (flags > PerformedWork) {
if (returnFiber.lastEffect !== null) {
returnFiber.lastEffect.nextEffect = completedWork;
} else {
returnFiber.firstEffect = completedWork;
}
returnFiber.lastEffect = completedWork;
}
}
} else {
var _next = unwindWork(completedWork);
if (_next !== null) {
_next.flags &= HostEffectMask;
workInProgress = _next;
return;
}
if ( (completedWork.mode & ProfileMode) !== NoMode) {
stopProfilerTimerIfRunningAndRecordDelta(completedWork, false);
var actualDuration = completedWork.actualDuration;
var child = completedWork.child;
while (child !== null) {
actualDuration += child.actualDuration;
child = child.sibling;
}
completedWork.actualDuration = actualDuration;
}
if (returnFiber !== null) {
returnFiber.firstEffect = returnFiber.lastEffect = null;
returnFiber.flags |= Incomplete;
}
}
var siblingFiber = completedWork.sibling;
if (siblingFiber !== null) {
workInProgress = siblingFiber;
return;
}
completedWork = returnFiber;
workInProgress = completedWork;
} while (completedWork !== null);
if (workInProgressRootExitStatus === RootIncomplete) {
workInProgressRootExitStatus = RootCompleted;
}
}
function resetChildLanes(completedWork) {
if (
(completedWork.tag === LegacyHiddenComponent || completedWork.tag === OffscreenComponent) && completedWork.memoizedState !== null && !includesSomeLane(subtreeRenderLanes, OffscreenLane) && (completedWork.mode & ConcurrentMode) !== NoLanes) {
return;
}
var newChildLanes = NoLanes;
if ( (completedWork.mode & ProfileMode) !== NoMode) {
var actualDuration = completedWork.actualDuration;
var treeBaseDuration = completedWork.selfBaseDuration;
var shouldBubbleActualDurations = completedWork.alternate === null || completedWork.child !== completedWork.alternate.child;
var child = completedWork.child;
while (child !== null) {
newChildLanes = mergeLanes(newChildLanes, mergeLanes(child.lanes, child.childLanes));
if (shouldBubbleActualDurations) {
actualDuration += child.actualDuration;
}
treeBaseDuration += child.treeBaseDuration;
child = child.sibling;
}
var isTimedOutSuspense = completedWork.tag === SuspenseComponent && completedWork.memoizedState !== null;
if (isTimedOutSuspense) {
var primaryChildFragment = completedWork.child;
if (primaryChildFragment !== null) {
treeBaseDuration -= primaryChildFragment.treeBaseDuration;
}
}
completedWork.actualDuration = actualDuration;
completedWork.treeBaseDuration = treeBaseDuration;
} else {
var _child = completedWork.child;
while (_child !== null) {
newChildLanes = mergeLanes(newChildLanes, mergeLanes(_child.lanes, _child.childLanes));
_child = _child.sibling;
}
}
completedWork.childLanes = newChildLanes;
}
function commitRoot(root) {
var renderPriorityLevel = getCurrentPriorityLevel();
runWithPriority$1(ImmediatePriority$1, commitRootImpl.bind(null, root, renderPriorityLevel));
return null;
}
function commitRootImpl(root, renderPriorityLevel) {
do {
flushPassiveEffects();
} while (rootWithPendingPassiveEffects !== null);
flushRenderPhaseStrictModeWarningsInDEV();
if (!((executionContext & (RenderContext | CommitContext)) === NoContext)) {
{
throw Error( "Should not already be working." );
}
}
var finishedWork = root.finishedWork;
var lanes = root.finishedLanes;
if (finishedWork === null) {
return null;
}
root.finishedWork = null;
root.finishedLanes = NoLanes;
if (!(finishedWork !== root.current)) {
{
throw Error( "Cannot commit the same tree as before. This error is likely caused by a bug in React. Please file an issue." );
}
}
root.callbackNode = null;
var remainingLanes = mergeLanes(finishedWork.lanes, finishedWork.childLanes);
markRootFinished(root, remainingLanes);
if (rootsWithPendingDiscreteUpdates !== null) {
if (!hasDiscreteLanes(remainingLanes) && rootsWithPendingDiscreteUpdates.has(root)) {
rootsWithPendingDiscreteUpdates.delete(root);
}
}
if (root === workInProgressRoot) {
workInProgressRoot = null;
workInProgress = null;
workInProgressRootRenderLanes = NoLanes;
}
var firstEffect;
if (finishedWork.flags > PerformedWork) {
if (finishedWork.lastEffect !== null) {
finishedWork.lastEffect.nextEffect = finishedWork;
firstEffect = finishedWork.firstEffect;
} else {
firstEffect = finishedWork;
}
} else {
firstEffect = finishedWork.firstEffect;
}
if (firstEffect !== null) {
var prevExecutionContext = executionContext;
executionContext |= CommitContext;
var prevInteractions = pushInteractions(root);
ReactCurrentOwner$2.current = null;
focusedInstanceHandle = prepareForCommit(root.containerInfo);
shouldFireAfterActiveInstanceBlur = false;
nextEffect = firstEffect;
do {
{
invokeGuardedCallback(null, commitBeforeMutationEffects, null);
if (hasCaughtError()) {
if (!(nextEffect !== null)) {
{
throw Error( "Should be working on an effect." );
}
}
var error = clearCaughtError();
captureCommitPhaseError(nextEffect, error);
nextEffect = nextEffect.nextEffect;
}
}
} while (nextEffect !== null);
focusedInstanceHandle = null;
{
recordCommitTime();
}
nextEffect = firstEffect;
do {
{
invokeGuardedCallback(null, commitMutationEffects, null, root, renderPriorityLevel);
if (hasCaughtError()) {
if (!(nextEffect !== null)) {
{
throw Error( "Should be working on an effect." );
}
}
var _error = clearCaughtError();
captureCommitPhaseError(nextEffect, _error);
nextEffect = nextEffect.nextEffect;
}
}
} while (nextEffect !== null);
resetAfterCommit(root.containerInfo);
root.current = finishedWork;
nextEffect = firstEffect;
do {
{
invokeGuardedCallback(null, commitLayoutEffects, null, root, lanes);
if (hasCaughtError()) {
if (!(nextEffect !== null)) {
{
throw Error( "Should be working on an effect." );
}
}
var _error2 = clearCaughtError();
captureCommitPhaseError(nextEffect, _error2);
nextEffect = nextEffect.nextEffect;
}
}
} while (nextEffect !== null);
nextEffect = null;
requestPaint();
{
popInteractions(prevInteractions);
}
executionContext = prevExecutionContext;
} else {
root.current = finishedWork;
{
recordCommitTime();
}
}
var rootDidHavePassiveEffects = rootDoesHavePassiveEffects;
if (rootDoesHavePassiveEffects) {
rootDoesHavePassiveEffects = false;
rootWithPendingPassiveEffects = root;
pendingPassiveEffectsLanes = lanes;
pendingPassiveEffectsRenderPriority = renderPriorityLevel;
} else {
nextEffect = firstEffect;
while (nextEffect !== null) {
var nextNextEffect = nextEffect.nextEffect;
nextEffect.nextEffect = null;
if (nextEffect.flags & Deletion) {
detachFiberAfterEffects(nextEffect);
}
nextEffect = nextNextEffect;
}
}
remainingLanes = root.pendingLanes;
if (remainingLanes !== NoLanes) {
{
if (spawnedWorkDuringRender !== null) {
var expirationTimes = spawnedWorkDuringRender;
spawnedWorkDuringRender = null;
for (var i = 0; i < expirationTimes.length; i++) {
scheduleInteractions(root, expirationTimes[i], root.memoizedInteractions);
}
}
schedulePendingInteractions(root, remainingLanes);
}
} else {
legacyErrorBoundariesThatAlreadyFailed = null;
}
{
if (!rootDidHavePassiveEffects) {
finishPendingInteractions(root, lanes);
}
}
if (remainingLanes === SyncLane) {
if (root === rootWithNestedUpdates) {
nestedUpdateCount++;
} else {
nestedUpdateCount = 0;
rootWithNestedUpdates = root;
}
} else {
nestedUpdateCount = 0;
}
onCommitRoot(finishedWork.stateNode, renderPriorityLevel);
{
onCommitRoot$1();
}
ensureRootIsScheduled(root, now());
if (hasUncaughtError) {
hasUncaughtError = false;
var _error3 = firstUncaughtError;
firstUncaughtError = null;
throw _error3;
}
if ((executionContext & LegacyUnbatchedContext) !== NoContext) {
return null;
}
flushSyncCallbackQueue();
return null;
}
function commitBeforeMutationEffects() {
while (nextEffect !== null) {
var current = nextEffect.alternate;
if (!shouldFireAfterActiveInstanceBlur && focusedInstanceHandle !== null) {
if ((nextEffect.flags & Deletion) !== NoFlags) {
if (doesFiberContain(nextEffect, focusedInstanceHandle)) {
shouldFireAfterActiveInstanceBlur = true;
}
} else {
if (nextEffect.tag === SuspenseComponent && isSuspenseBoundaryBeingHidden(current, nextEffect) && doesFiberContain(nextEffect, focusedInstanceHandle)) {
shouldFireAfterActiveInstanceBlur = true;
}
}
}
var flags = nextEffect.flags;
if ((flags & Snapshot) !== NoFlags) {
setCurrentFiber(nextEffect);
commitBeforeMutationLifeCycles(current, nextEffect);
resetCurrentFiber();
}
if ((flags & Passive) !== NoFlags) {
if (!rootDoesHavePassiveEffects) {
rootDoesHavePassiveEffects = true;
scheduleCallback(NormalPriority$1, function () {
flushPassiveEffects();
return null;
});
}
}
nextEffect = nextEffect.nextEffect;
}
}
function commitMutationEffects(root, renderPriorityLevel) {
while (nextEffect !== null) {
setCurrentFiber(nextEffect);
var flags = nextEffect.flags;
if (flags & ContentReset) {
commitResetTextContent(nextEffect);
}
if (flags & Ref) {
var current = nextEffect.alternate;
if (current !== null) {
commitDetachRef(current);
}
}
var primaryFlags = flags & (Placement | Update | Deletion | Hydrating);
switch (primaryFlags) {
case Placement:
{
commitPlacement(nextEffect);
nextEffect.flags &= ~Placement;
break;
}
case PlacementAndUpdate:
{
commitPlacement(nextEffect);
nextEffect.flags &= ~Placement;
var _current = nextEffect.alternate;
commitWork(_current, nextEffect);
break;
}
case Hydrating:
{
nextEffect.flags &= ~Hydrating;
break;
}
case HydratingAndUpdate:
{
nextEffect.flags &= ~Hydrating;
var _current2 = nextEffect.alternate;
commitWork(_current2, nextEffect);
break;
}
case Update:
{
var _current3 = nextEffect.alternate;
commitWork(_current3, nextEffect);
break;
}
case Deletion:
{
commitDeletion(root, nextEffect);
break;
}
}
resetCurrentFiber();
nextEffect = nextEffect.nextEffect;
}
}
function commitLayoutEffects(root, committedLanes) {
while (nextEffect !== null) {
setCurrentFiber(nextEffect);
var flags = nextEffect.flags;
if (flags & (Update | Callback)) {
var current = nextEffect.alternate;
commitLifeCycles(root, current, nextEffect);
}
{
if (flags & Ref) {
commitAttachRef(nextEffect);
}
}
resetCurrentFiber();
nextEffect = nextEffect.nextEffect;
}
}
function flushPassiveEffects() {
if (pendingPassiveEffectsRenderPriority !== NoPriority$1) {
var priorityLevel = pendingPassiveEffectsRenderPriority > NormalPriority$1 ? NormalPriority$1 : pendingPassiveEffectsRenderPriority;
pendingPassiveEffectsRenderPriority = NoPriority$1;
{
return runWithPriority$1(priorityLevel, flushPassiveEffectsImpl);
}
}
return false;
}
function enqueuePendingPassiveHookEffectMount(fiber, effect) {
pendingPassiveHookEffectsMount.push(effect, fiber);
if (!rootDoesHavePassiveEffects) {
rootDoesHavePassiveEffects = true;
scheduleCallback(NormalPriority$1, function () {
flushPassiveEffects();
return null;
});
}
}
function enqueuePendingPassiveHookEffectUnmount(fiber, effect) {
pendingPassiveHookEffectsUnmount.push(effect, fiber);
{
fiber.flags |= PassiveUnmountPendingDev;
var alternate = fiber.alternate;
if (alternate !== null) {
alternate.flags |= PassiveUnmountPendingDev;
}
}
if (!rootDoesHavePassiveEffects) {
rootDoesHavePassiveEffects = true;
scheduleCallback(NormalPriority$1, function () {
flushPassiveEffects();
return null;
});
}
}
function invokePassiveEffectCreate(effect) {
var create = effect.create;
effect.destroy = create();
}
function flushPassiveEffectsImpl() {
if (rootWithPendingPassiveEffects === null) {
return false;
}
var root = rootWithPendingPassiveEffects;
var lanes = pendingPassiveEffectsLanes;
rootWithPendingPassiveEffects = null;
pendingPassiveEffectsLanes = NoLanes;
if (!((executionContext & (RenderContext | CommitContext)) === NoContext)) {
{
throw Error( "Cannot flush passive effects while already rendering." );
}
}
{
isFlushingPassiveEffects = true;
}
var prevExecutionContext = executionContext;
executionContext |= CommitContext;
var prevInteractions = pushInteractions(root);
var unmountEffects = pendingPassiveHookEffectsUnmount;
pendingPassiveHookEffectsUnmount = [];
for (var i = 0; i < unmountEffects.length; i += 2) {
var _effect = unmountEffects[i];
var fiber = unmountEffects[i + 1];
var destroy = _effect.destroy;
_effect.destroy = undefined;
{
fiber.flags &= ~PassiveUnmountPendingDev;
var alternate = fiber.alternate;
if (alternate !== null) {
alternate.flags &= ~PassiveUnmountPendingDev;
}
}
if (typeof destroy === 'function') {
{
setCurrentFiber(fiber);
{
invokeGuardedCallback(null, destroy, null);
}
if (hasCaughtError()) {
if (!(fiber !== null)) {
{
throw Error( "Should be working on an effect." );
}
}
var error = clearCaughtError();
captureCommitPhaseError(fiber, error);
}
resetCurrentFiber();
}
}
}
var mountEffects = pendingPassiveHookEffectsMount;
pendingPassiveHookEffectsMount = [];
for (var _i = 0; _i < mountEffects.length; _i += 2) {
var _effect2 = mountEffects[_i];
var _fiber = mountEffects[_i + 1];
{
setCurrentFiber(_fiber);
{
invokeGuardedCallback(null, invokePassiveEffectCreate, null, _effect2);
}
if (hasCaughtError()) {
if (!(_fiber !== null)) {
{
throw Error( "Should be working on an effect." );
}
}
var _error4 = clearCaughtError();
captureCommitPhaseError(_fiber, _error4);
}
resetCurrentFiber();
}
}
var effect = root.current.firstEffect;
while (effect !== null) {
var nextNextEffect = effect.nextEffect;
effect.nextEffect = null;
if (effect.flags & Deletion) {
detachFiberAfterEffects(effect);
}
effect = nextNextEffect;
}
{
popInteractions(prevInteractions);
finishPendingInteractions(root, lanes);
}
{
isFlushingPassiveEffects = false;
}
executionContext = prevExecutionContext;
flushSyncCallbackQueue();
nestedPassiveUpdateCount = rootWithPendingPassiveEffects === null ? 0 : nestedPassiveUpdateCount + 1;
return true;
}
function isAlreadyFailedLegacyErrorBoundary(instance) {
return legacyErrorBoundariesThatAlreadyFailed !== null && legacyErrorBoundariesThatAlreadyFailed.has(instance);
}
function markLegacyErrorBoundaryAsFailed(instance) {
if (legacyErrorBoundariesThatAlreadyFailed === null) {
legacyErrorBoundariesThatAlreadyFailed = new Set([instance]);
} else {
legacyErrorBoundariesThatAlreadyFailed.add(instance);
}
}
function prepareToThrowUncaughtError(error) {
if (!hasUncaughtError) {
hasUncaughtError = true;
firstUncaughtError = error;
}
}
var onUncaughtError = prepareToThrowUncaughtError;
function captureCommitPhaseErrorOnRoot(rootFiber, sourceFiber, error) {
var errorInfo = createCapturedValue(error, sourceFiber);
var update = createRootErrorUpdate(rootFiber, errorInfo, SyncLane);
enqueueUpdate(rootFiber, update);
var eventTime = requestEventTime();
var root = markUpdateLaneFromFiberToRoot(rootFiber, SyncLane);
if (root !== null) {
markRootUpdated(root, SyncLane, eventTime);
ensureRootIsScheduled(root, eventTime);
schedulePendingInteractions(root, SyncLane);
}
}
function captureCommitPhaseError(sourceFiber, error) {
if (sourceFiber.tag === HostRoot) {
captureCommitPhaseErrorOnRoot(sourceFiber, sourceFiber, error);
return;
}
var fiber = sourceFiber.return;
while (fiber !== null) {
if (fiber.tag === HostRoot) {
captureCommitPhaseErrorOnRoot(fiber, sourceFiber, error);
return;
} else if (fiber.tag === ClassComponent) {
var ctor = fiber.type;
var instance = fiber.stateNode;
if (typeof ctor.getDerivedStateFromError === 'function' || typeof instance.componentDidCatch === 'function' && !isAlreadyFailedLegacyErrorBoundary(instance)) {
var errorInfo = createCapturedValue(error, sourceFiber);
var update = createClassErrorUpdate(fiber, errorInfo, SyncLane);
enqueueUpdate(fiber, update);
var eventTime = requestEventTime();
var root = markUpdateLaneFromFiberToRoot(fiber, SyncLane);
if (root !== null) {
markRootUpdated(root, SyncLane, eventTime);
ensureRootIsScheduled(root, eventTime);
schedulePendingInteractions(root, SyncLane);
} else {
if (typeof instance.componentDidCatch === 'function' && !isAlreadyFailedLegacyErrorBoundary(instance)) {
try {
instance.componentDidCatch(error, errorInfo);
} catch (errorToIgnore) {
}
}
}
return;
}
}
fiber = fiber.return;
}
}
function pingSuspendedRoot(root, wakeable, pingedLanes) {
var pingCache = root.pingCache;
if (pingCache !== null) {
pingCache.delete(wakeable);
}
var eventTime = requestEventTime();
markRootPinged(root, pingedLanes);
if (workInProgressRoot === root && isSubsetOfLanes(workInProgressRootRenderLanes, pingedLanes)) {
if (workInProgressRootExitStatus === RootSuspendedWithDelay || workInProgressRootExitStatus === RootSuspended && includesOnlyRetries(workInProgressRootRenderLanes) && now() - globalMostRecentFallbackTime < FALLBACK_THROTTLE_MS) {
prepareFreshStack(root, NoLanes);
} else {
workInProgressRootPingedLanes = mergeLanes(workInProgressRootPingedLanes, pingedLanes);
}
}
ensureRootIsScheduled(root, eventTime);
schedulePendingInteractions(root, pingedLanes);
}
function retryTimedOutBoundary(boundaryFiber, retryLane) {
if (retryLane === NoLane) {
retryLane = requestRetryLane(boundaryFiber);
}
var eventTime = requestEventTime();
var root = markUpdateLaneFromFiberToRoot(boundaryFiber, retryLane);
if (root !== null) {
markRootUpdated(root, retryLane, eventTime);
ensureRootIsScheduled(root, eventTime);
schedulePendingInteractions(root, retryLane);
}
}
function resolveRetryWakeable(boundaryFiber, wakeable) {
var retryLane = NoLane;
var retryCache;
{
retryCache = boundaryFiber.stateNode;
}
if (retryCache !== null) {
retryCache.delete(wakeable);
}
retryTimedOutBoundary(boundaryFiber, retryLane);
}
function jnd(timeElapsed) {
return timeElapsed < 120 ? 120 : timeElapsed < 480 ? 480 : timeElapsed < 1080 ? 1080 : timeElapsed < 1920 ? 1920 : timeElapsed < 3000 ? 3000 : timeElapsed < 4320 ? 4320 : ceil(timeElapsed / 1960) * 1960;
}
function checkForNestedUpdates() {
if (nestedUpdateCount > NESTED_UPDATE_LIMIT) {
nestedUpdateCount = 0;
rootWithNestedUpdates = null;
{
{
throw Error( "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." );
}
}
}
{
if (nestedPassiveUpdateCount > NESTED_PASSIVE_UPDATE_LIMIT) {
nestedPassiveUpdateCount = 0;
error('Maximum update depth exceeded. This can happen when a component ' + "calls setState inside useEffect, but useEffect either doesn't " + 'have a dependency array, or one of the dependencies changes on ' + 'every render.');
}
}
}
function flushRenderPhaseStrictModeWarningsInDEV() {
{
ReactStrictModeWarnings.flushLegacyContextWarning();
{
ReactStrictModeWarnings.flushPendingUnsafeLifecycleWarnings();
}
}
}
var didWarnStateUpdateForNotYetMountedComponent = null;
function warnAboutUpdateOnNotYetMountedFiberInDEV(fiber) {
{
if ((executionContext & RenderContext) !== NoContext) {
return;
}
if (!(fiber.mode & (BlockingMode | ConcurrentMode))) {
return;
}
var tag = fiber.tag;
if (tag !== IndeterminateComponent && tag !== HostRoot && tag !== ClassComponent && tag !== FunctionComponent && tag !== ForwardRef && tag !== MemoComponent && tag !== SimpleMemoComponent && tag !== Block) {
return;
}
var componentName = getComponentName(fiber.type) || 'ReactComponent';
if (didWarnStateUpdateForNotYetMountedComponent !== null) {
if (didWarnStateUpdateForNotYetMountedComponent.has(componentName)) {
return;
}
didWarnStateUpdateForNotYetMountedComponent.add(componentName);
} else {
didWarnStateUpdateForNotYetMountedComponent = new Set([componentName]);
}
var previousFiber = current;
try {
setCurrentFiber(fiber);
error("Can't perform a React state update on a component that hasn't mounted yet. " + 'This indicates that you have a side-effect in your render function that ' + 'asynchronously later calls tries to update the component. Move this work to ' + 'useEffect instead.');
} finally {
if (previousFiber) {
setCurrentFiber(fiber);
} else {
resetCurrentFiber();
}
}
}
}
var didWarnStateUpdateForUnmountedComponent = null;
function warnAboutUpdateOnUnmountedFiberInDEV(fiber) {
{
var tag = fiber.tag;
if (tag !== HostRoot && tag !== ClassComponent && tag !== FunctionComponent && tag !== ForwardRef && tag !== MemoComponent && tag !== SimpleMemoComponent && tag !== Block) {
return;
}
if ((fiber.flags & PassiveUnmountPendingDev) !== NoFlags) {
return;
}
var componentName = getComponentName(fiber.type) || 'ReactComponent';
if (didWarnStateUpdateForUnmountedComponent !== null) {
if (didWarnStateUpdateForUnmountedComponent.has(componentName)) {
return;
}
didWarnStateUpdateForUnmountedComponent.add(componentName);
} else {
didWarnStateUpdateForUnmountedComponent = new Set([componentName]);
}
if (isFlushingPassiveEffects) ; else {
var previousFiber = current;
try {
setCurrentFiber(fiber);
error("Can't perform a React state update on an unmounted component. This " + 'is a no-op, but it indicates a memory leak in your application. To ' + 'fix, cancel all subscriptions and asynchronous tasks in %s.', tag === ClassComponent ? 'the componentWillUnmount method' : 'a useEffect cleanup function');
} finally {
if (previousFiber) {
setCurrentFiber(fiber);
} else {
resetCurrentFiber();
}
}
}
}
}
var beginWork$1;
{
var dummyFiber = null;
beginWork$1 = function (current, unitOfWork, lanes) {
var originalWorkInProgressCopy = assignFiberPropertiesInDEV(dummyFiber, unitOfWork);
try {
return beginWork(current, unitOfWork, lanes);
} catch (originalError) {
if (originalError !== null && typeof originalError === 'object' && typeof originalError.then === 'function') {
throw originalError;
}
resetContextDependencies();
resetHooksAfterThrow();
unwindInterruptedWork(unitOfWork);
assignFiberPropertiesInDEV(unitOfWork, originalWorkInProgressCopy);
if ( unitOfWork.mode & ProfileMode) {
startProfilerTimer(unitOfWork);
}
invokeGuardedCallback(null, beginWork, null, current, unitOfWork, lanes);
if (hasCaughtError()) {
var replayError = clearCaughtError();
throw replayError;
} else {
throw originalError;
}
}
};
}
var didWarnAboutUpdateInRender = false;
var didWarnAboutUpdateInRenderForAnotherComponent;
{
didWarnAboutUpdateInRenderForAnotherComponent = new Set();
}
function warnAboutRenderPhaseUpdatesInDEV(fiber) {
{
if (isRendering && (executionContext & RenderContext) !== NoContext && !getIsUpdatingOpaqueValueInRenderPhaseInDEV()) {
switch (fiber.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent:
{
var renderingComponentName = workInProgress && getComponentName(workInProgress.type) || 'Unknown';
var dedupeKey = renderingComponentName;
if (!didWarnAboutUpdateInRenderForAnotherComponent.has(dedupeKey)) {
didWarnAboutUpdateInRenderForAnotherComponent.add(dedupeKey);
var setStateComponentName = getComponentName(fiber.type) || 'Unknown';
error('Cannot update a component (`%s`) while rendering a ' + 'different component (`%s`). To locate the bad setState() call inside `%s`, ' + 'follow the stack trace as described in https://reactjs.org/link/setstate-in-render', setStateComponentName, renderingComponentName, renderingComponentName);
}
break;
}
case ClassComponent:
{
if (!didWarnAboutUpdateInRender) {
error('Cannot update during an existing state transition (such as ' + 'within `render`). Render methods should be a pure ' + 'function of props and state.');
didWarnAboutUpdateInRender = true;
}
break;
}
}
}
}
}
var IsThisRendererActing = {
current: false
};
function warnIfNotScopedWithMatchingAct(fiber) {
{
if ( IsSomeRendererActing.current === true && IsThisRendererActing.current !== true) {
var previousFiber = current;
try {
setCurrentFiber(fiber);
error("It looks like you're using the wrong act() around your test interactions.\n" + 'Be sure to use the matching version of act() corresponding to your renderer:\n\n' + '// for react-dom:\n' +
'import {act} fr' + "om 'react-dom/test-utils';\n" + '// ...\n' + 'act(() => ...);\n\n' + '// for react-test-renderer:\n' +
'import TestRenderer fr' + "om react-test-renderer';\n" + 'const {act} = TestRenderer;\n' + '// ...\n' + 'act(() => ...);');
} finally {
if (previousFiber) {
setCurrentFiber(fiber);
} else {
resetCurrentFiber();
}
}
}
}
}
function warnIfNotCurrentlyActingEffectsInDEV(fiber) {
{
if ( (fiber.mode & StrictMode) !== NoMode && IsSomeRendererActing.current === false && IsThisRendererActing.current === false) {
error('An update to %s ran an effect, but was not wrapped in act(...).\n\n' + 'When testing, code that causes React state updates should be ' + 'wrapped into act(...):\n\n' + 'act(() => {\n' + ' /* fire events that update state */\n' + '});\n' + '/* assert on the output */\n\n' + "This ensures that you're testing the behavior the user would see " + 'in the browser.' + ' Learn more at https://reactjs.org/link/wrap-tests-with-act', getComponentName(fiber.type));
}
}
}
function warnIfNotCurrentlyActingUpdatesInDEV(fiber) {
{
if ( executionContext === NoContext && IsSomeRendererActing.current === false && IsThisRendererActing.current === false) {
var previousFiber = current;
try {
setCurrentFiber(fiber);
error('An update to %s inside a test was not wrapped in act(...).\n\n' + 'When testing, code that causes React state updates should be ' + 'wrapped into act(...):\n\n' + 'act(() => {\n' + ' /* fire events that update state */\n' + '});\n' + '/* assert on the output */\n\n' + "This ensures that you're testing the behavior the user would see " + 'in the browser.' + ' Learn more at https://reactjs.org/link/wrap-tests-with-act', getComponentName(fiber.type));
} finally {
if (previousFiber) {
setCurrentFiber(fiber);
} else {
resetCurrentFiber();
}
}
}
}
}
var warnIfNotCurrentlyActingUpdatesInDev = warnIfNotCurrentlyActingUpdatesInDEV;
var didWarnAboutUnmockedScheduler = false;
function warnIfUnmockedScheduler(fiber) {
{
if (didWarnAboutUnmockedScheduler === false && Scheduler.unstable_flushAllWithoutAsserting === undefined) {
if (fiber.mode & BlockingMode || fiber.mode & ConcurrentMode) {
didWarnAboutUnmockedScheduler = true;
error('In Concurrent or Sync modes, the "scheduler" module needs to be mocked ' + 'to guarantee consistent behaviour across tests and browsers. ' + 'For example, with jest: \n' +
"jest.mock('scheduler', () => require" + "('scheduler/unstable_mock'));\n\n" + 'For more info, visit https://reactjs.org/link/mock-scheduler');
}
}
}
}
function computeThreadID(root, lane) {
return lane * 1000 + root.interactionThreadID;
}
function markSpawnedWork(lane) {
if (spawnedWorkDuringRender === null) {
spawnedWorkDuringRender = [lane];
} else {
spawnedWorkDuringRender.push(lane);
}
}
function scheduleInteractions(root, lane, interactions) {
if (interactions.size > 0) {
var pendingInteractionMap = root.pendingInteractionMap;
var pendingInteractions = pendingInteractionMap.get(lane);
if (pendingInteractions != null) {
interactions.forEach(function (interaction) {
if (!pendingInteractions.has(interaction)) {
interaction.__count++;
}
pendingInteractions.add(interaction);
});
} else {
pendingInteractionMap.set(lane, new Set(interactions));
interactions.forEach(function (interaction) {
interaction.__count++;
});
}
var subscriber = tracing$1.__subscriberRef.current;
if (subscriber !== null) {
var threadID = computeThreadID(root, lane);
subscriber.onWorkScheduled(interactions, threadID);
}
}
}
function schedulePendingInteractions(root, lane) {
scheduleInteractions(root, lane, tracing$1.__interactionsRef.current);
}
function startWorkOnPendingInteractions(root, lanes) {
var interactions = new Set();
root.pendingInteractionMap.forEach(function (scheduledInteractions, scheduledLane) {
if (includesSomeLane(lanes, scheduledLane)) {
scheduledInteractions.forEach(function (interaction) {
return interactions.add(interaction);
});
}
});
root.memoizedInteractions = interactions;
if (interactions.size > 0) {
var subscriber = tracing$1.__subscriberRef.current;
if (subscriber !== null) {
var threadID = computeThreadID(root, lanes);
try {
subscriber.onWorkStarted(interactions, threadID);
} catch (error) {
scheduleCallback(ImmediatePriority$1, function () {
throw error;
});
}
}
}
}
function finishPendingInteractions(root, committedLanes) {
var remainingLanesAfterCommit = root.pendingLanes;
var subscriber;
try {
subscriber = tracing$1.__subscriberRef.current;
if (subscriber !== null && root.memoizedInteractions.size > 0) {
var threadID = computeThreadID(root, committedLanes);
subscriber.onWorkStopped(root.memoizedInteractions, threadID);
}
} catch (error) {
scheduleCallback(ImmediatePriority$1, function () {
throw error;
});
} finally {
var pendingInteractionMap = root.pendingInteractionMap;
pendingInteractionMap.forEach(function (scheduledInteractions, lane) {
if (!includesSomeLane(remainingLanesAfterCommit, lane)) {
pendingInteractionMap.delete(lane);
scheduledInteractions.forEach(function (interaction) {
interaction.__count--;
if (subscriber !== null && interaction.__count === 0) {
try {
subscriber.onInteractionScheduledWorkCompleted(interaction);
} catch (error) {
scheduleCallback(ImmediatePriority$1, function () {
throw error;
});
}
}
});
}
});
}
}
function shouldForceFlushFallbacksInDEV() {
return actingUpdatesScopeDepth > 0;
}
var actingUpdatesScopeDepth = 0;
function detachFiberAfterEffects(fiber) {
fiber.sibling = null;
fiber.stateNode = null;
}
var resolveFamily = null;
var failedBoundaries = null;
var setRefreshHandler = function (handler) {
{
resolveFamily = handler;
}
};
function resolveFunctionForHotReloading(type) {
{
if (resolveFamily === null) {
return type;
}
var family = resolveFamily(type);
if (family === undefined) {
return type;
}
return family.current;
}
}
function resolveClassForHotReloading(type) {
return resolveFunctionForHotReloading(type);
}
function resolveForwardRefForHotReloading(type) {
{
if (resolveFamily === null) {
return type;
}
var family = resolveFamily(type);
if (family === undefined) {
if (type !== null && type !== undefined && typeof type.render === 'function') {
var currentRender = resolveFunctionForHotReloading(type.render);
if (type.render !== currentRender) {
var syntheticType = {
$$typeof: REACT_FORWARD_REF_TYPE,
render: currentRender
};
if (type.displayName !== undefined) {
syntheticType.displayName = type.displayName;
}
return syntheticType;
}
}
return type;
}
return family.current;
}
}
function isCompatibleFamilyForHotReloading(fiber, element) {
{
if (resolveFamily === null) {
return false;
}
var prevType = fiber.elementType;
var nextType = element.type;
var needsCompareFamilies = false;
var $$typeofNextType = typeof nextType === 'object' && nextType !== null ? nextType.$$typeof : null;
switch (fiber.tag) {
case ClassComponent:
{
if (typeof nextType === 'function') {
needsCompareFamilies = true;
}
break;
}
case FunctionComponent:
{
if (typeof nextType === 'function') {
needsCompareFamilies = true;
} else if ($$typeofNextType === REACT_LAZY_TYPE) {
needsCompareFamilies = true;
}
break;
}
case ForwardRef:
{
if ($$typeofNextType === REACT_FORWARD_REF_TYPE) {
needsCompareFamilies = true;
} else if ($$typeofNextType === REACT_LAZY_TYPE) {
needsCompareFamilies = true;
}
break;
}
case MemoComponent:
case SimpleMemoComponent:
{
if ($$typeofNextType === REACT_MEMO_TYPE) {
needsCompareFamilies = true;
} else if ($$typeofNextType === REACT_LAZY_TYPE) {
needsCompareFamilies = true;
}
break;
}
default:
return false;
}
if (needsCompareFamilies) {
var prevFamily = resolveFamily(prevType);
if (prevFamily !== undefined && prevFamily === resolveFamily(nextType)) {
return true;
}
}
return false;
}
}
function markFailedErrorBoundaryForHotReloading(fiber) {
{
if (resolveFamily === null) {
return;
}
if (typeof WeakSet !== 'function') {
return;
}
if (failedBoundaries === null) {
failedBoundaries = new WeakSet();
}
failedBoundaries.add(fiber);
}
}
var scheduleRefresh = function (root, update) {
{
if (resolveFamily === null) {
return;
}
var staleFamilies = update.staleFamilies,
updatedFamilies = update.updatedFamilies;
flushPassiveEffects();
flushSync(function () {
scheduleFibersWithFamiliesRecursively(root.current, updatedFamilies, staleFamilies);
});
}
};
var scheduleRoot = function (root, element) {
{
if (root.context !== emptyContextObject) {
return;
}
flushPassiveEffects();
flushSync(function () {
updateContainer(element, root, null, null);
});
}
};
function scheduleFibersWithFamiliesRecursively(fiber, updatedFamilies, staleFamilies) {
{
var alternate = fiber.alternate,
child = fiber.child,
sibling = fiber.sibling,
tag = fiber.tag,
type = fiber.type;
var candidateType = null;
switch (tag) {
case FunctionComponent:
case SimpleMemoComponent:
case ClassComponent:
candidateType = type;
break;
case ForwardRef:
candidateType = type.render;
break;
}
if (resolveFamily === null) {
throw new Error('Expected resolveFamily to be set during hot reload.');
}
var needsRender = false;
var needsRemount = false;
if (candidateType !== null) {
var family = resolveFamily(candidateType);
if (family !== undefined) {
if (staleFamilies.has(family)) {
needsRemount = true;
} else if (updatedFamilies.has(family)) {
if (tag === ClassComponent) {
needsRemount = true;
} else {
needsRender = true;
}
}
}
}
if (failedBoundaries !== null) {
if (failedBoundaries.has(fiber) || alternate !== null && failedBoundaries.has(alternate)) {
needsRemount = true;
}
}
if (needsRemount) {
fiber._debugNeedsRemount = true;
}
if (needsRemount || needsRender) {
scheduleUpdateOnFiber(fiber, SyncLane, NoTimestamp);
}
if (child !== null && !needsRemount) {
scheduleFibersWithFamiliesRecursively(child, updatedFamilies, staleFamilies);
}
if (sibling !== null) {
scheduleFibersWithFamiliesRecursively(sibling, updatedFamilies, staleFamilies);
}
}
}
var findHostInstancesForRefresh = function (root, families) {
{
var hostInstances = new Set();
var types = new Set(families.map(function (family) {
return family.current;
}));
findHostInstancesForMatchingFibersRecursively(root.current, types, hostInstances);
return hostInstances;
}
};
function findHostInstancesForMatchingFibersRecursively(fiber, types, hostInstances) {
{
var child = fiber.child,
sibling = fiber.sibling,
tag = fiber.tag,
type = fiber.type;
var candidateType = null;
switch (tag) {
case FunctionComponent:
case SimpleMemoComponent:
case ClassComponent:
candidateType = type;
break;
case ForwardRef:
candidateType = type.render;
break;
}
var didMatch = false;
if (candidateType !== null) {
if (types.has(candidateType)) {
didMatch = true;
}
}
if (didMatch) {
findHostInstancesForFiberShallowly(fiber, hostInstances);
} else {
if (child !== null) {
findHostInstancesForMatchingFibersRecursively(child, types, hostInstances);
}
}
if (sibling !== null) {
findHostInstancesForMatchingFibersRecursively(sibling, types, hostInstances);
}
}
}
function findHostInstancesForFiberShallowly(fiber, hostInstances) {
{
var foundHostInstances = findChildHostInstancesForFiberShallowly(fiber, hostInstances);
if (foundHostInstances) {
return;
}
var node = fiber;
while (true) {
switch (node.tag) {
case HostComponent:
hostInstances.add(node.stateNode);
return;
case HostPortal:
hostInstances.add(node.stateNode.containerInfo);
return;
case HostRoot:
hostInstances.add(node.stateNode.containerInfo);
return;
}
if (node.return === null) {
throw new Error('Expected to reach root first.');
}
node = node.return;
}
}
}
function findChildHostInstancesForFiberShallowly(fiber, hostInstances) {
{
var node = fiber;
var foundHostInstances = false;
while (true) {
if (node.tag === HostComponent) {
foundHostInstances = true;
hostInstances.add(node.stateNode);
} else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === fiber) {
return foundHostInstances;
}
while (node.sibling === null) {
if (node.return === null || node.return === fiber) {
return foundHostInstances;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
}
return false;
}
var hasBadMapPolyfill;
{
hasBadMapPolyfill = false;
try {
var nonExtensibleObject = Object.preventExtensions({});
new Map([[nonExtensibleObject, null]]);
new Set([nonExtensibleObject]);
} catch (e) {
hasBadMapPolyfill = true;
}
}
var debugCounter = 1;
function FiberNode(tag, pendingProps, key, mode) {
this.tag = tag;
this.key = key;
this.elementType = null;
this.type = null;
this.stateNode = null;
this.return = null;
this.child = null;
this.sibling = null;
this.index = 0;
this.ref = null;
this.pendingProps = pendingProps;
this.memoizedProps = null;
this.updateQueue = null;
this.memoizedState = null;
this.dependencies = null;
this.mode = mode;
this.flags = NoFlags;
this.nextEffect = null;
this.firstEffect = null;
this.lastEffect = null;
this.lanes = NoLanes;
this.childLanes = NoLanes;
this.alternate = null;
{
this.actualDuration = Number.NaN;
this.actualStartTime = Number.NaN;
this.selfBaseDuration = Number.NaN;
this.treeBaseDuration = Number.NaN;
this.actualDuration = 0;
this.actualStartTime = -1;
this.selfBaseDuration = 0;
this.treeBaseDuration = 0;
}
{
this._debugID = debugCounter++;
this._debugSource = null;
this._debugOwner = null;
this._debugNeedsRemount = false;
this._debugHookTypes = null;
if (!hasBadMapPolyfill && typeof Object.preventExtensions === 'function') {
Object.preventExtensions(this);
}
}
}
var createFiber = function (tag, pendingProps, key, mode) {
return new FiberNode(tag, pendingProps, key, mode);
};
function shouldConstruct$1(Component) {
var prototype = Component.prototype;
return !!(prototype && prototype.isReactComponent);
}
function isSimpleFunctionComponent(type) {
return typeof type === 'function' && !shouldConstruct$1(type) && type.defaultProps === undefined;
}
function resolveLazyComponentTag(Component) {
if (typeof Component === 'function') {
return shouldConstruct$1(Component) ? ClassComponent : FunctionComponent;
} else if (Component !== undefined && Component !== null) {
var $$typeof = Component.$$typeof;
if ($$typeof === REACT_FORWARD_REF_TYPE) {
return ForwardRef;
}
if ($$typeof === REACT_MEMO_TYPE) {
return MemoComponent;
}
}
return IndeterminateComponent;
}
function createWorkInProgress(current, pendingProps) {
var workInProgress = current.alternate;
if (workInProgress === null) {
workInProgress = createFiber(current.tag, pendingProps, current.key, current.mode);
workInProgress.elementType = current.elementType;
workInProgress.type = current.type;
workInProgress.stateNode = current.stateNode;
{
workInProgress._debugID = current._debugID;
workInProgress._debugSource = current._debugSource;
workInProgress._debugOwner = current._debugOwner;
workInProgress._debugHookTypes = current._debugHookTypes;
}
workInProgress.alternate = current;
current.alternate = workInProgress;
} else {
workInProgress.pendingProps = pendingProps;
workInProgress.type = current.type;
workInProgress.flags = NoFlags;
workInProgress.nextEffect = null;
workInProgress.firstEffect = null;
workInProgress.lastEffect = null;
{
workInProgress.actualDuration = 0;
workInProgress.actualStartTime = -1;
}
}
workInProgress.childLanes = current.childLanes;
workInProgress.lanes = current.lanes;
workInProgress.child = current.child;
workInProgress.memoizedProps = current.memoizedProps;
workInProgress.memoizedState = current.memoizedState;
workInProgress.updateQueue = current.updateQueue;
var currentDependencies = current.dependencies;
workInProgress.dependencies = currentDependencies === null ? null : {
lanes: currentDependencies.lanes,
firstContext: currentDependencies.firstContext
};
workInProgress.sibling = current.sibling;
workInProgress.index = current.index;
workInProgress.ref = current.ref;
{
workInProgress.selfBaseDuration = current.selfBaseDuration;
workInProgress.treeBaseDuration = current.treeBaseDuration;
}
{
workInProgress._debugNeedsRemount = current._debugNeedsRemount;
switch (workInProgress.tag) {
case IndeterminateComponent:
case FunctionComponent:
case SimpleMemoComponent:
workInProgress.type = resolveFunctionForHotReloading(current.type);
break;
case ClassComponent:
workInProgress.type = resolveClassForHotReloading(current.type);
break;
case ForwardRef:
workInProgress.type = resolveForwardRefForHotReloading(current.type);
break;
}
}
return workInProgress;
}
function resetWorkInProgress(workInProgress, renderLanes) {
workInProgress.flags &= Placement;
workInProgress.nextEffect = null;
workInProgress.firstEffect = null;
workInProgress.lastEffect = null;
var current = workInProgress.alternate;
if (current === null) {
workInProgress.childLanes = NoLanes;
workInProgress.lanes = renderLanes;
workInProgress.child = null;
workInProgress.memoizedProps = null;
workInProgress.memoizedState = null;
workInProgress.updateQueue = null;
workInProgress.dependencies = null;
workInProgress.stateNode = null;
{
workInProgress.selfBaseDuration = 0;
workInProgress.treeBaseDuration = 0;
}
} else {
workInProgress.childLanes = current.childLanes;
workInProgress.lanes = current.lanes;
workInProgress.child = current.child;
workInProgress.memoizedProps = current.memoizedProps;
workInProgress.memoizedState = current.memoizedState;
workInProgress.updateQueue = current.updateQueue;
workInProgress.type = current.type;
var currentDependencies = current.dependencies;
workInProgress.dependencies = currentDependencies === null ? null : {
lanes: currentDependencies.lanes,
firstContext: currentDependencies.firstContext
};
{
workInProgress.selfBaseDuration = current.selfBaseDuration;
workInProgress.treeBaseDuration = current.treeBaseDuration;
}
}
return workInProgress;
}
function createHostRootFiber(tag) {
var mode;
if (tag === ConcurrentRoot) {
mode = ConcurrentMode | BlockingMode | StrictMode;
} else if (tag === BlockingRoot) {
mode = BlockingMode | StrictMode;
} else {
mode = NoMode;
}
if ( isDevToolsPresent) {
mode |= ProfileMode;
}
return createFiber(HostRoot, null, null, mode);
}
function createFiberFromTypeAndProps(type,
key, pendingProps, owner, mode, lanes) {
var fiberTag = IndeterminateComponent;
var resolvedType = type;
if (typeof type === 'function') {
if (shouldConstruct$1(type)) {
fiberTag = ClassComponent;
{
resolvedType = resolveClassForHotReloading(resolvedType);
}
} else {
{
resolvedType = resolveFunctionForHotReloading(resolvedType);
}
}
} else if (typeof type === 'string') {
fiberTag = HostComponent;
} else {
getTag: switch (type) {
case REACT_FRAGMENT_TYPE:
return createFiberFromFragment(pendingProps.children, mode, lanes, key);
case REACT_DEBUG_TRACING_MODE_TYPE:
fiberTag = Mode;
mode |= DebugTracingMode;
break;
case REACT_STRICT_MODE_TYPE:
fiberTag = Mode;
mode |= StrictMode;
break;
case REACT_PROFILER_TYPE:
return createFiberFromProfiler(pendingProps, mode, lanes, key);
case REACT_SUSPENSE_TYPE:
return createFiberFromSuspense(pendingProps, mode, lanes, key);
case REACT_SUSPENSE_LIST_TYPE:
return createFiberFromSuspenseList(pendingProps, mode, lanes, key);
case REACT_OFFSCREEN_TYPE:
return createFiberFromOffscreen(pendingProps, mode, lanes, key);
case REACT_LEGACY_HIDDEN_TYPE:
return createFiberFromLegacyHidden(pendingProps, mode, lanes, key);
case REACT_SCOPE_TYPE:
default:
{
if (typeof type === 'object' && type !== null) {
switch (type.$$typeof) {
case REACT_PROVIDER_TYPE:
fiberTag = ContextProvider;
break getTag;
case REACT_CONTEXT_TYPE:
fiberTag = ContextConsumer;
break getTag;
case REACT_FORWARD_REF_TYPE:
fiberTag = ForwardRef;
{
resolvedType = resolveForwardRefForHotReloading(resolvedType);
}
break getTag;
case REACT_MEMO_TYPE:
fiberTag = MemoComponent;
break getTag;
case REACT_LAZY_TYPE:
fiberTag = LazyComponent;
resolvedType = null;
break getTag;
case REACT_BLOCK_TYPE:
fiberTag = Block;
break getTag;
}
}
var info = '';
{
if (type === undefined || typeof type === 'object' && type !== null && Object.keys(type).length === 0) {
info += ' You likely forgot to export your component from the file ' + "it's defined in, or you might have mixed up default and " + 'named imports.';
}
var ownerName = owner ? getComponentName(owner.type) : null;
if (ownerName) {
info += '\n\nCheck the render method of `' + ownerName + '`.';
}
}
{
{
throw Error( "Element type is invalid: expected a string (for built-in components) or a class/function (for composite components) but got: " + (type == null ? type : typeof type) + "." + info );
}
}
}
}
}
var fiber = createFiber(fiberTag, pendingProps, key, mode);
fiber.elementType = type;
fiber.type = resolvedType;
fiber.lanes = lanes;
{
fiber._debugOwner = owner;
}
return fiber;
}
function createFiberFromElement(element, mode, lanes) {
var owner = null;
{
owner = element._owner;
}
var type = element.type;
var key = element.key;
var pendingProps = element.props;
var fiber = createFiberFromTypeAndProps(type, key, pendingProps, owner, mode, lanes);
{
fiber._debugSource = element._source;
fiber._debugOwner = element._owner;
}
return fiber;
}
function createFiberFromFragment(elements, mode, lanes, key) {
var fiber = createFiber(Fragment, elements, key, mode);
fiber.lanes = lanes;
return fiber;
}
function createFiberFromProfiler(pendingProps, mode, lanes, key) {
{
if (typeof pendingProps.id !== 'string') {
error('Profiler must specify an "id" as a prop');
}
}
var fiber = createFiber(Profiler, pendingProps, key, mode | ProfileMode);
fiber.elementType = REACT_PROFILER_TYPE;
fiber.type = REACT_PROFILER_TYPE;
fiber.lanes = lanes;
{
fiber.stateNode = {
effectDuration: 0,
passiveEffectDuration: 0
};
}
return fiber;
}
function createFiberFromSuspense(pendingProps, mode, lanes, key) {
var fiber = createFiber(SuspenseComponent, pendingProps, key, mode);
fiber.type = REACT_SUSPENSE_TYPE;
fiber.elementType = REACT_SUSPENSE_TYPE;
fiber.lanes = lanes;
return fiber;
}
function createFiberFromSuspenseList(pendingProps, mode, lanes, key) {
var fiber = createFiber(SuspenseListComponent, pendingProps, key, mode);
{
fiber.type = REACT_SUSPENSE_LIST_TYPE;
}
fiber.elementType = REACT_SUSPENSE_LIST_TYPE;
fiber.lanes = lanes;
return fiber;
}
function createFiberFromOffscreen(pendingProps, mode, lanes, key) {
var fiber = createFiber(OffscreenComponent, pendingProps, key, mode);
{
fiber.type = REACT_OFFSCREEN_TYPE;
}
fiber.elementType = REACT_OFFSCREEN_TYPE;
fiber.lanes = lanes;
return fiber;
}
function createFiberFromLegacyHidden(pendingProps, mode, lanes, key) {
var fiber = createFiber(LegacyHiddenComponent, pendingProps, key, mode);
{
fiber.type = REACT_LEGACY_HIDDEN_TYPE;
}
fiber.elementType = REACT_LEGACY_HIDDEN_TYPE;
fiber.lanes = lanes;
return fiber;
}
function createFiberFromText(content, mode, lanes) {
var fiber = createFiber(HostText, content, null, mode);
fiber.lanes = lanes;
return fiber;
}
function createFiberFromHostInstanceForDeletion() {
var fiber = createFiber(HostComponent, null, null, NoMode);
fiber.elementType = 'DELETED';
fiber.type = 'DELETED';
return fiber;
}
function createFiberFromPortal(portal, mode, lanes) {
var pendingProps = portal.children !== null ? portal.children : [];
var fiber = createFiber(HostPortal, pendingProps, portal.key, mode);
fiber.lanes = lanes;
fiber.stateNode = {
containerInfo: portal.containerInfo,
pendingChildren: null,
implementation: portal.implementation
};
return fiber;
}
function assignFiberPropertiesInDEV(target, source) {
if (target === null) {
target = createFiber(IndeterminateComponent, null, null, NoMode);
}
target.tag = source.tag;
target.key = source.key;
target.elementType = source.elementType;
target.type = source.type;
target.stateNode = source.stateNode;
target.return = source.return;
target.child = source.child;
target.sibling = source.sibling;
target.index = source.index;
target.ref = source.ref;
target.pendingProps = source.pendingProps;
target.memoizedProps = source.memoizedProps;
target.updateQueue = source.updateQueue;
target.memoizedState = source.memoizedState;
target.dependencies = source.dependencies;
target.mode = source.mode;
target.flags = source.flags;
target.nextEffect = source.nextEffect;
target.firstEffect = source.firstEffect;
target.lastEffect = source.lastEffect;
target.lanes = source.lanes;
target.childLanes = source.childLanes;
target.alternate = source.alternate;
{
target.actualDuration = source.actualDuration;
target.actualStartTime = source.actualStartTime;
target.selfBaseDuration = source.selfBaseDuration;
target.treeBaseDuration = source.treeBaseDuration;
}
target._debugID = source._debugID;
target._debugSource = source._debugSource;
target._debugOwner = source._debugOwner;
target._debugNeedsRemount = source._debugNeedsRemount;
target._debugHookTypes = source._debugHookTypes;
return target;
}
function FiberRootNode(containerInfo, tag, hydrate) {
this.tag = tag;
this.containerInfo = containerInfo;
this.pendingChildren = null;
this.current = null;
this.pingCache = null;
this.finishedWork = null;
this.timeoutHandle = noTimeout;
this.context = null;
this.pendingContext = null;
this.hydrate = hydrate;
this.callbackNode = null;
this.callbackPriority = NoLanePriority;
this.eventTimes = createLaneMap(NoLanes);
this.expirationTimes = createLaneMap(NoTimestamp);
this.pendingLanes = NoLanes;
this.suspendedLanes = NoLanes;
this.pingedLanes = NoLanes;
this.expiredLanes = NoLanes;
this.mutableReadLanes = NoLanes;
this.finishedLanes = NoLanes;
this.entangledLanes = NoLanes;
this.entanglements = createLaneMap(NoLanes);
{
this.mutableSourceEagerHydrationData = null;
}
{
this.interactionThreadID = tracing$1.unstable_getThreadID();
this.memoizedInteractions = new Set();
this.pendingInteractionMap = new Map();
}
{
switch (tag) {
case BlockingRoot:
this._debugRootType = 'createBlockingRoot()';
break;
case ConcurrentRoot:
this._debugRootType = 'createRoot()';
break;
case LegacyRoot:
this._debugRootType = 'createLegacyRoot()';
break;
}
}
}
function createFiberRoot(containerInfo, tag, hydrate, hydrationCallbacks) {
var root = new FiberRootNode(containerInfo, tag, hydrate);
var uninitializedFiber = createHostRootFiber(tag);
root.current = uninitializedFiber;
uninitializedFiber.stateNode = root;
initializeUpdateQueue(uninitializedFiber);
return root;
}
function registerMutableSourceForHydration(root, mutableSource) {
var getVersion = mutableSource._getVersion;
var version = getVersion(mutableSource._source);
if (root.mutableSourceEagerHydrationData == null) {
root.mutableSourceEagerHydrationData = [mutableSource, version];
} else {
root.mutableSourceEagerHydrationData.push(mutableSource, version);
}
}
function createPortal(children, containerInfo,
implementation) {
var key = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : null;
return {
$$typeof: REACT_PORTAL_TYPE,
key: key == null ? null : '' + key,
children: children,
containerInfo: containerInfo,
implementation: implementation
};
}
var didWarnAboutNestedUpdates;
var didWarnAboutFindNodeInStrictMode;
{
didWarnAboutNestedUpdates = false;
didWarnAboutFindNodeInStrictMode = {};
}
function getContextForSubtree(parentComponent) {
if (!parentComponent) {
return emptyContextObject;
}
var fiber = get(parentComponent);
var parentContext = findCurrentUnmaskedContext(fiber);
if (fiber.tag === ClassComponent) {
var Component = fiber.type;
if (isContextProvider(Component)) {
return processChildContext(fiber, Component, parentContext);
}
}
return parentContext;
}
function findHostInstanceWithWarning(component, methodName) {
{
var fiber = get(component);
if (fiber === undefined) {
if (typeof component.render === 'function') {
{
{
throw Error( "Unable to find node on an unmounted component." );
}
}
} else {
{
{
throw Error( "Argument appears to not be a ReactComponent. Keys: " + Object.keys(component) );
}
}
}
}
var hostFiber = findCurrentHostFiber(fiber);
if (hostFiber === null) {
return null;
}
if (hostFiber.mode & StrictMode) {
var componentName = getComponentName(fiber.type) || 'Component';
if (!didWarnAboutFindNodeInStrictMode[componentName]) {
didWarnAboutFindNodeInStrictMode[componentName] = true;
var previousFiber = current;
try {
setCurrentFiber(hostFiber);
if (fiber.mode & StrictMode) {
error('%s is deprecated in StrictMode. ' + '%s was passed an instance of %s which is inside StrictMode. ' + 'Instead, add a ref directly to the element you want to reference. ' + 'Learn more about using refs safely here: ' + 'https://reactjs.org/link/strict-mode-find-node', methodName, methodName, componentName);
} else {
error('%s is deprecated in StrictMode. ' + '%s was passed an instance of %s which renders StrictMode children. ' + 'Instead, add a ref directly to the element you want to reference. ' + 'Learn more about using refs safely here: ' + 'https://reactjs.org/link/strict-mode-find-node', methodName, methodName, componentName);
}
} finally {
if (previousFiber) {
setCurrentFiber(previousFiber);
} else {
resetCurrentFiber();
}
}
}
}
return hostFiber.stateNode;
}
}
function createContainer(containerInfo, tag, hydrate, hydrationCallbacks) {
return createFiberRoot(containerInfo, tag, hydrate);
}
function updateContainer(element, container, parentComponent, callback) {
{
onScheduleRoot(container, element);
}
var current$1 = container.current;
var eventTime = requestEventTime();
{
if ('undefined' !== typeof jest) {
warnIfUnmockedScheduler(current$1);
warnIfNotScopedWithMatchingAct(current$1);
}
}
var lane = requestUpdateLane(current$1);
var context = getContextForSubtree(parentComponent);
if (container.context === null) {
container.context = context;
} else {
container.pendingContext = context;
}
{
if (isRendering && current !== null && !didWarnAboutNestedUpdates) {
didWarnAboutNestedUpdates = true;
error('Render methods should be a pure function of props and state; ' + 'triggering nested component updates from render is not allowed. ' + 'If necessary, trigger nested updates in componentDidUpdate.\n\n' + 'Check the render method of %s.', getComponentName(current.type) || 'Unknown');
}
}
var update = createUpdate(eventTime, lane);
update.payload = {
element: element
};
callback = callback === undefined ? null : callback;
if (callback !== null) {
{
if (typeof callback !== 'function') {
error('render(...): Expected the last optional `callback` argument to be a ' + 'function. Instead received: %s.', callback);
}
}
update.callback = callback;
}
enqueueUpdate(current$1, update);
scheduleUpdateOnFiber(current$1, lane, eventTime);
return lane;
}
function getPublicRootInstance(container) {
var containerFiber = container.current;
if (!containerFiber.child) {
return null;
}
switch (containerFiber.child.tag) {
case HostComponent:
return getPublicInstance(containerFiber.child.stateNode);
default:
return containerFiber.child.stateNode;
}
}
function markRetryLaneImpl(fiber, retryLane) {
var suspenseState = fiber.memoizedState;
if (suspenseState !== null && suspenseState.dehydrated !== null) {
suspenseState.retryLane = higherPriorityLane(suspenseState.retryLane, retryLane);
}
}
function markRetryLaneIfNotHydrated(fiber, retryLane) {
markRetryLaneImpl(fiber, retryLane);
var alternate = fiber.alternate;
if (alternate) {
markRetryLaneImpl(alternate, retryLane);
}
}
function attemptUserBlockingHydration$1(fiber) {
if (fiber.tag !== SuspenseComponent) {
return;
}
var eventTime = requestEventTime();
var lane = InputDiscreteHydrationLane;
scheduleUpdateOnFiber(fiber, lane, eventTime);
markRetryLaneIfNotHydrated(fiber, lane);
}
function attemptContinuousHydration$1(fiber) {
if (fiber.tag !== SuspenseComponent) {
return;
}
var eventTime = requestEventTime();
var lane = SelectiveHydrationLane;
scheduleUpdateOnFiber(fiber, lane, eventTime);
markRetryLaneIfNotHydrated(fiber, lane);
}
function attemptHydrationAtCurrentPriority$1(fiber) {
if (fiber.tag !== SuspenseComponent) {
return;
}
var eventTime = requestEventTime();
var lane = requestUpdateLane(fiber);
scheduleUpdateOnFiber(fiber, lane, eventTime);
markRetryLaneIfNotHydrated(fiber, lane);
}
function runWithPriority$2(priority, fn) {
try {
setCurrentUpdateLanePriority(priority);
return fn();
} finally {
}
}
function findHostInstanceWithNoPortals(fiber) {
var hostFiber = findCurrentHostFiberWithNoPortals(fiber);
if (hostFiber === null) {
return null;
}
if (hostFiber.tag === FundamentalComponent) {
return hostFiber.stateNode.instance;
}
return hostFiber.stateNode;
}
var shouldSuspendImpl = function (fiber) {
return false;
};
function shouldSuspend(fiber) {
return shouldSuspendImpl(fiber);
}
var overrideHookState = null;
var overrideHookStateDeletePath = null;
var overrideHookStateRenamePath = null;
var overrideProps = null;
var overridePropsDeletePath = null;
var overridePropsRenamePath = null;
var scheduleUpdate = null;
var setSuspenseHandler = null;
{
var copyWithDeleteImpl = function (obj, path, index) {
var key = path[index];
var updated = Array.isArray(obj) ? obj.slice() : _assign({}, obj);
if (index + 1 === path.length) {
if (Array.isArray(updated)) {
updated.splice(key, 1);
} else {
delete updated[key];
}
return updated;
}
updated[key] = copyWithDeleteImpl(obj[key], path, index + 1);
return updated;
};
var copyWithDelete = function (obj, path) {
return copyWithDeleteImpl(obj, path, 0);
};
var copyWithRenameImpl = function (obj, oldPath, newPath, index) {
var oldKey = oldPath[index];
var updated = Array.isArray(obj) ? obj.slice() : _assign({}, obj);
if (index + 1 === oldPath.length) {
var newKey = newPath[index];
updated[newKey] = updated[oldKey];
if (Array.isArray(updated)) {
updated.splice(oldKey, 1);
} else {
delete updated[oldKey];
}
} else {
updated[oldKey] = copyWithRenameImpl(
obj[oldKey], oldPath, newPath, index + 1);
}
return updated;
};
var copyWithRename = function (obj, oldPath, newPath) {
if (oldPath.length !== newPath.length) {
warn('copyWithRename() expects paths of the same length');
return;
} else {
for (var i = 0; i < newPath.length - 1; i++) {
if (oldPath[i] !== newPath[i]) {
warn('copyWithRename() expects paths to be the same except for the deepest key');
return;
}
}
}
return copyWithRenameImpl(obj, oldPath, newPath, 0);
};
var copyWithSetImpl = function (obj, path, index, value) {
if (index >= path.length) {
return value;
}
var key = path[index];
var updated = Array.isArray(obj) ? obj.slice() : _assign({}, obj);
updated[key] = copyWithSetImpl(obj[key], path, index + 1, value);
return updated;
};
var copyWithSet = function (obj, path, value) {
return copyWithSetImpl(obj, path, 0, value);
};
var findHook = function (fiber, id) {
var currentHook = fiber.memoizedState;
while (currentHook !== null && id > 0) {
currentHook = currentHook.next;
id--;
}
return currentHook;
};
overrideHookState = function (fiber, id, path, value) {
var hook = findHook(fiber, id);
if (hook !== null) {
var newState = copyWithSet(hook.memoizedState, path, value);
hook.memoizedState = newState;
hook.baseState = newState;
fiber.memoizedProps = _assign({}, fiber.memoizedProps);
scheduleUpdateOnFiber(fiber, SyncLane, NoTimestamp);
}
};
overrideHookStateDeletePath = function (fiber, id, path) {
var hook = findHook(fiber, id);
if (hook !== null) {
var newState = copyWithDelete(hook.memoizedState, path);
hook.memoizedState = newState;
hook.baseState = newState;
fiber.memoizedProps = _assign({}, fiber.memoizedProps);
scheduleUpdateOnFiber(fiber, SyncLane, NoTimestamp);
}
};
overrideHookStateRenamePath = function (fiber, id, oldPath, newPath) {
var hook = findHook(fiber, id);
if (hook !== null) {
var newState = copyWithRename(hook.memoizedState, oldPath, newPath);
hook.memoizedState = newState;
hook.baseState = newState;
fiber.memoizedProps = _assign({}, fiber.memoizedProps);
scheduleUpdateOnFiber(fiber, SyncLane, NoTimestamp);
}
};
overrideProps = function (fiber, path, value) {
fiber.pendingProps = copyWithSet(fiber.memoizedProps, path, value);
if (fiber.alternate) {
fiber.alternate.pendingProps = fiber.pendingProps;
}
scheduleUpdateOnFiber(fiber, SyncLane, NoTimestamp);
};
overridePropsDeletePath = function (fiber, path) {
fiber.pendingProps = copyWithDelete(fiber.memoizedProps, path);
if (fiber.alternate) {
fiber.alternate.pendingProps = fiber.pendingProps;
}
scheduleUpdateOnFiber(fiber, SyncLane, NoTimestamp);
};
overridePropsRenamePath = function (fiber, oldPath, newPath) {
fiber.pendingProps = copyWithRename(fiber.memoizedProps, oldPath, newPath);
if (fiber.alternate) {
fiber.alternate.pendingProps = fiber.pendingProps;
}
scheduleUpdateOnFiber(fiber, SyncLane, NoTimestamp);
};
scheduleUpdate = function (fiber) {
scheduleUpdateOnFiber(fiber, SyncLane, NoTimestamp);
};
setSuspenseHandler = function (newShouldSuspendImpl) {
shouldSuspendImpl = newShouldSuspendImpl;
};
}
function findHostInstanceByFiber(fiber) {
var hostFiber = findCurrentHostFiber(fiber);
if (hostFiber === null) {
return null;
}
return hostFiber.stateNode;
}
function emptyFindFiberByHostInstance(instance) {
return null;
}
function getCurrentFiberForDevTools() {
return current;
}
function injectIntoDevTools(devToolsConfig) {
var findFiberByHostInstance = devToolsConfig.findFiberByHostInstance;
var ReactCurrentDispatcher = ReactSharedInternals.ReactCurrentDispatcher;
return injectInternals({
bundleType: devToolsConfig.bundleType,
version: devToolsConfig.version,
rendererPackageName: devToolsConfig.rendererPackageName,
rendererConfig: devToolsConfig.rendererConfig,
overrideHookState: overrideHookState,
overrideHookStateDeletePath: overrideHookStateDeletePath,
overrideHookStateRenamePath: overrideHookStateRenamePath,
overrideProps: overrideProps,
overridePropsDeletePath: overridePropsDeletePath,
overridePropsRenamePath: overridePropsRenamePath,
setSuspenseHandler: setSuspenseHandler,
scheduleUpdate: scheduleUpdate,
currentDispatcherRef: ReactCurrentDispatcher,
findHostInstanceByFiber: findHostInstanceByFiber,
findFiberByHostInstance: findFiberByHostInstance || emptyFindFiberByHostInstance,
findHostInstancesForRefresh: findHostInstancesForRefresh ,
scheduleRefresh: scheduleRefresh ,
scheduleRoot: scheduleRoot ,
setRefreshHandler: setRefreshHandler ,
getCurrentFiber: getCurrentFiberForDevTools
});
}
function ReactDOMBlockingRoot(container, tag, options) {
this._internalRoot = createRootImpl(container, tag, options);
}
ReactDOMBlockingRoot.prototype.render = function (children) {
var root = this._internalRoot;
{
if (typeof arguments[1] === 'function') {
error('render(...): does not support the second callback argument. ' + 'To execute a side effect after rendering, declare it in a component body with useEffect().');
}
var container = root.containerInfo;
if (container.nodeType !== COMMENT_NODE) {
var hostInstance = findHostInstanceWithNoPortals(root.current);
if (hostInstance) {
if (hostInstance.parentNode !== container) {
error('render(...): It looks like the React-rendered content of the ' + 'root container was removed without using React. This is not ' + 'supported and will cause errors. Instead, call ' + "root.unmount() to empty a root's container.");
}
}
}
}
updateContainer(children, root, null, null);
};
ReactDOMBlockingRoot.prototype.unmount = function () {
{
if (typeof arguments[0] === 'function') {
error('unmount(...): does not support a callback argument. ' + 'To execute a side effect after rendering, declare it in a component body with useEffect().');
}
}
var root = this._internalRoot;
var container = root.containerInfo;
updateContainer(null, root, null, function () {
unmarkContainerAsRoot(container);
});
};
function createRootImpl(container, tag, options) {
var hydrate = options != null && options.hydrate === true;
options != null && options.hydrationOptions || null;
var mutableSources = options != null && options.hydrationOptions != null && options.hydrationOptions.mutableSources || null;
var root = createContainer(container, tag, hydrate);
markContainerAsRoot(root.current, container);
container.nodeType;
{
var rootContainerElement = container.nodeType === COMMENT_NODE ? container.parentNode : container;
listenToAllSupportedEvents(rootContainerElement);
}
if (mutableSources) {
for (var i = 0; i < mutableSources.length; i++) {
var mutableSource = mutableSources[i];
registerMutableSourceForHydration(root, mutableSource);
}
}
return root;
}
function createLegacyRoot(container, options) {
return new ReactDOMBlockingRoot(container, LegacyRoot, options);
}
function isValidContainer(node) {
return !!(node && (node.nodeType === ELEMENT_NODE || node.nodeType === DOCUMENT_NODE || node.nodeType === DOCUMENT_FRAGMENT_NODE || node.nodeType === COMMENT_NODE && node.nodeValue === ' react-mount-point-unstable '));
}
var ReactCurrentOwner$3 = ReactSharedInternals.ReactCurrentOwner;
var topLevelUpdateWarnings;
var warnedAboutHydrateAPI = false;
{
topLevelUpdateWarnings = function (container) {
if (container._reactRootContainer && container.nodeType !== COMMENT_NODE) {
var hostInstance = findHostInstanceWithNoPortals(container._reactRootContainer._internalRoot.current);
if (hostInstance) {
if (hostInstance.parentNode !== container) {
error('render(...): It looks like the React-rendered content of this ' + 'container was removed without using React. This is not ' + 'supported and will cause errors. Instead, call ' + 'ReactDOM.unmountComponentAtNode to empty a container.');
}
}
}
var isRootRenderedBySomeReact = !!container._reactRootContainer;
var rootEl = getReactRootElementInContainer(container);
var hasNonRootReactChild = !!(rootEl && getInstanceFromNode(rootEl));
if (hasNonRootReactChild && !isRootRenderedBySomeReact) {
error('render(...): Replacing React-rendered children with a new root ' + 'component. If you intended to update the children of this node, ' + 'you should instead have the existing children update their state ' + 'and render the new components instead of calling ReactDOM.render.');
}
if (container.nodeType === ELEMENT_NODE && container.tagName && container.tagName.toUpperCase() === 'BODY') {
error('render(): Rendering components directly into document.body is ' + 'discouraged, since its children are often manipulated by third-party ' + 'scripts and browser extensions. This may lead to subtle ' + 'reconciliation issues. Try rendering into a container element created ' + 'for your app.');
}
};
}
function getReactRootElementInContainer(container) {
if (!container) {
return null;
}
if (container.nodeType === DOCUMENT_NODE) {
return container.documentElement;
} else {
return container.firstChild;
}
}
function shouldHydrateDueToLegacyHeuristic(container) {
var rootElement = getReactRootElementInContainer(container);
return !!(rootElement && rootElement.nodeType === ELEMENT_NODE && rootElement.hasAttribute(ROOT_ATTRIBUTE_NAME));
}
function legacyCreateRootFromDOMContainer(container, forceHydrate) {
var shouldHydrate = forceHydrate || shouldHydrateDueToLegacyHeuristic(container);
if (!shouldHydrate) {
var warned = false;
var rootSibling;
while (rootSibling = container.lastChild) {
{
if (!warned && rootSibling.nodeType === ELEMENT_NODE && rootSibling.hasAttribute(ROOT_ATTRIBUTE_NAME)) {
warned = true;
error('render(): Target node has markup rendered by React, but there ' + 'are unrelated nodes as well. This is most commonly caused by ' + 'white-space inserted around server-rendered markup.');
}
}
container.removeChild(rootSibling);
}
}
{
if (shouldHydrate && !forceHydrate && !warnedAboutHydrateAPI) {
warnedAboutHydrateAPI = true;
warn('render(): Calling ReactDOM.render() to hydrate server-rendered markup ' + 'will stop working in React v18. Replace the ReactDOM.render() call ' + 'with ReactDOM.hydrate() if you want React to attach to the server HTML.');
}
}
return createLegacyRoot(container, shouldHydrate ? {
hydrate: true
} : undefined);
}
function warnOnInvalidCallback$1(callback, callerName) {
{
if (callback !== null && typeof callback !== 'function') {
error('%s(...): Expected the last optional `callback` argument to be a ' + 'function. Instead received: %s.', callerName, callback);
}
}
}
function legacyRenderSubtreeIntoContainer(parentComponent, children, container, forceHydrate, callback) {
{
topLevelUpdateWarnings(container);
warnOnInvalidCallback$1(callback === undefined ? null : callback, 'render');
}
var root = container._reactRootContainer;
var fiberRoot;
if (!root) {
root = container._reactRootContainer = legacyCreateRootFromDOMContainer(container, forceHydrate);
fiberRoot = root._internalRoot;
if (typeof callback === 'function') {
var originalCallback = callback;
callback = function () {
var instance = getPublicRootInstance(fiberRoot);
originalCallback.call(instance);
};
}
unbatchedUpdates(function () {
updateContainer(children, fiberRoot, parentComponent, callback);
});
} else {
fiberRoot = root._internalRoot;
if (typeof callback === 'function') {
var _originalCallback = callback;
callback = function () {
var instance = getPublicRootInstance(fiberRoot);
_originalCallback.call(instance);
};
}
updateContainer(children, fiberRoot, parentComponent, callback);
}
return getPublicRootInstance(fiberRoot);
}
function findDOMNode(componentOrElement) {
{
var owner = ReactCurrentOwner$3.current;
if (owner !== null && owner.stateNode !== null) {
var warnedAboutRefsInRender = owner.stateNode._warnedAboutRefsInRender;
if (!warnedAboutRefsInRender) {
error('%s is accessing findDOMNode inside its render(). ' + 'render() should be a pure function of props and state. It should ' + 'never access something that requires stale data from the previous ' + 'render, such as refs. Move this logic to componentDidMount and ' + 'componentDidUpdate instead.', getComponentName(owner.type) || 'A component');
}
owner.stateNode._warnedAboutRefsInRender = true;
}
}
if (componentOrElement == null) {
return null;
}
if (componentOrElement.nodeType === ELEMENT_NODE) {
return componentOrElement;
}
{
return findHostInstanceWithWarning(componentOrElement, 'findDOMNode');
}
}
function hydrate(element, container, callback) {
if (!isValidContainer(container)) {
{
throw Error( "Target container is not a DOM element." );
}
}
{
var isModernRoot = isContainerMarkedAsRoot(container) && container._reactRootContainer === undefined;
if (isModernRoot) {
error('You are calling ReactDOM.hydrate() on a container that was previously ' + 'passed to ReactDOM.createRoot(). This is not supported. ' + 'Did you mean to call createRoot(container, {hydrate: true}).render(element)?');
}
}
return legacyRenderSubtreeIntoContainer(null, element, container, true, callback);
}
function render(element, container, callback) {
if (!isValidContainer(container)) {
{
throw Error( "Target container is not a DOM element." );
}
}
{
var isModernRoot = isContainerMarkedAsRoot(container) && container._reactRootContainer === undefined;
if (isModernRoot) {
error('You are calling ReactDOM.render() on a container that was previously ' + 'passed to ReactDOM.createRoot(). This is not supported. ' + 'Did you mean to call root.render(element)?');
}
}
return legacyRenderSubtreeIntoContainer(null, element, container, false, callback);
}
function unstable_renderSubtreeIntoContainer(parentComponent, element, containerNode, callback) {
if (!isValidContainer(containerNode)) {
{
throw Error( "Target container is not a DOM element." );
}
}
if (!(parentComponent != null && has(parentComponent))) {
{
throw Error( "parentComponent must be a valid React Component" );
}
}
return legacyRenderSubtreeIntoContainer(parentComponent, element, containerNode, false, callback);
}
function unmountComponentAtNode(container) {
if (!isValidContainer(container)) {
{
throw Error( "unmountComponentAtNode(...): Target container is not a DOM element." );
}
}
{
var isModernRoot = isContainerMarkedAsRoot(container) && container._reactRootContainer === undefined;
if (isModernRoot) {
error('You are calling ReactDOM.unmountComponentAtNode() on a container that was previously ' + 'passed to ReactDOM.createRoot(). This is not supported. Did you mean to call root.unmount()?');
}
}
if (container._reactRootContainer) {
{
var rootEl = getReactRootElementInContainer(container);
var renderedByDifferentReact = rootEl && !getInstanceFromNode(rootEl);
if (renderedByDifferentReact) {
error("unmountComponentAtNode(): The node you're attempting to unmount " + 'was rendered by another copy of React.');
}
}
unbatchedUpdates(function () {
legacyRenderSubtreeIntoContainer(null, null, container, false, function () {
container._reactRootContainer = null;
unmarkContainerAsRoot(container);
});
});
return true;
} else {
{
var _rootEl = getReactRootElementInContainer(container);
var hasNonRootReactChild = !!(_rootEl && getInstanceFromNode(_rootEl));
var isContainerReactRoot = container.nodeType === ELEMENT_NODE && isValidContainer(container.parentNode) && !!container.parentNode._reactRootContainer;
if (hasNonRootReactChild) {
error("unmountComponentAtNode(): The node you're attempting to unmount " + 'was rendered by React and is not a top-level container. %s', isContainerReactRoot ? 'You may have accidentally passed in a React root node instead ' + 'of its container.' : 'Instead, have the parent component update its state and ' + 'rerender in order to remove this component.');
}
}
return false;
}
}
setAttemptUserBlockingHydration(attemptUserBlockingHydration$1);
setAttemptContinuousHydration(attemptContinuousHydration$1);
setAttemptHydrationAtCurrentPriority(attemptHydrationAtCurrentPriority$1);
setAttemptHydrationAtPriority(runWithPriority$2);
var didWarnAboutUnstableCreatePortal = false;
{
if (typeof Map !== 'function' ||
Map.prototype == null || typeof Map.prototype.forEach !== 'function' || typeof Set !== 'function' ||
Set.prototype == null || typeof Set.prototype.clear !== 'function' || typeof Set.prototype.forEach !== 'function') {
error('React depends on Map and Set built-in types. Make sure that you load a ' + 'polyfill in older browsers. https://reactjs.org/link/react-polyfills');
}
}
setRestoreImplementation(restoreControlledState$3);
setBatchingImplementation(batchedUpdates$1, discreteUpdates$1, flushDiscreteUpdates, batchedEventUpdates$1);
function createPortal$1(children, container) {
var key = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : null;
if (!isValidContainer(container)) {
{
throw Error( "Target container is not a DOM element." );
}
}
return createPortal(children, container, null, key);
}
function renderSubtreeIntoContainer(parentComponent, element, containerNode, callback) {
return unstable_renderSubtreeIntoContainer(parentComponent, element, containerNode, callback);
}
function unstable_createPortal(children, container) {
var key = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : null;
{
if (!didWarnAboutUnstableCreatePortal) {
didWarnAboutUnstableCreatePortal = true;
warn('The ReactDOM.unstable_createPortal() alias has been deprecated, ' + 'and will be removed in React 18+. Update your code to use ' + 'ReactDOM.createPortal() instead. It has the exact same API, ' + 'but without the "unstable_" prefix.');
}
}
return createPortal$1(children, container, key);
}
var Internals = {
Events: [getInstanceFromNode, getNodeFromInstance, getFiberCurrentPropsFromNode, enqueueStateRestore, restoreStateIfNeeded, flushPassiveEffects,
IsThisRendererActing]
};
var foundDevTools = injectIntoDevTools({
findFiberByHostInstance: getClosestInstanceFromNode,
bundleType: 1 ,
version: ReactVersion,
rendererPackageName: 'react-dom'
});
{
if (!foundDevTools && canUseDOM && window.top === window.self) {
if (navigator.userAgent.indexOf('Chrome') > -1 && navigator.userAgent.indexOf('Edge') === -1 || navigator.userAgent.indexOf('Firefox') > -1) {
var protocol = window.location.protocol;
if (/^(https?|file):$/.test(protocol)) {
console.info('%cDownload the React DevTools ' + 'for a better development experience: ' + 'https://reactjs.org/link/react-devtools' + (protocol === 'file:' ? '\nYou might need to use a local HTTP server (instead of file://): ' + 'https://reactjs.org/link/react-devtools-faq' : ''), 'font-weight:bold');
}
}
}
}
__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED = reactDom_development.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED = Internals;
createPortal_1 = reactDom_development.createPortal = createPortal$1;
findDOMNode_1 = reactDom_development.findDOMNode = findDOMNode;
flushSync_1 = reactDom_development.flushSync = flushSync;
hydrate_1 = reactDom_development.hydrate = hydrate;
render_1 = reactDom_development.render = render;
unmountComponentAtNode_1 = reactDom_development.unmountComponentAtNode = unmountComponentAtNode;
unstable_batchedUpdates = reactDom_development.unstable_batchedUpdates = batchedUpdates$1;
unstable_createPortal_1 = reactDom_development.unstable_createPortal = unstable_createPortal;
unstable_renderSubtreeIntoContainer_1 = reactDom_development.unstable_renderSubtreeIntoContainer = renderSubtreeIntoContainer;
version = reactDom_development.version = ReactVersion;
})();
}
export { __SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED, createPortal_1 as createPortal, reactDom_development as default, findDOMNode_1 as findDOMNode, flushSync_1 as flushSync, hydrate_1 as hydrate, render_1 as render, unmountComponentAtNode_1 as unmountComponentAtNode, unstable_batchedUpdates, unstable_createPortal_1 as unstable_createPortal, unstable_renderSubtreeIntoContainer_1 as unstable_renderSubtreeIntoContainer, version };