An advanced template manager for wplace.live
// ==UserScript==
// @name wplace.live Template Manager
// @namespace https://github.com/cedrickassen/wplace-overlay-manager
// @version 1.4
// @homepageURL https://github.com/CedricKassen/wplace-template-manager
// @supportURL https://github.com/CedricKassen/wplace-template-manager/issues
// @license MIT
// @description An advanced template manager for wplace.live
// @author Cedric Kassen
// @match *://*.wplace.live/*
// @run-at document-start
// @grant GM_getResourceText
// @grant GM_addStyle
// @grant GM.setValue
// @grant GM_getValue
// ==/UserScript==
(function() {
"use strict";
function getDefaultExportFromCjs(x) {
return x && x.__esModule && Object.prototype.hasOwnProperty.call(x, "default") ? x["default"] : x;
}
var react = { exports: {} };
var react_production = {};
/**
* @license React
* react.production.js
*
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
var hasRequiredReact_production;
function requireReact_production() {
if (hasRequiredReact_production) return react_production;
hasRequiredReact_production = 1;
var REACT_ELEMENT_TYPE = Symbol.for("react.transitional.element"), REACT_PORTAL_TYPE = Symbol.for("react.portal"), REACT_FRAGMENT_TYPE = Symbol.for("react.fragment"), REACT_STRICT_MODE_TYPE = Symbol.for("react.strict_mode"), REACT_PROFILER_TYPE = Symbol.for("react.profiler"), REACT_CONSUMER_TYPE = Symbol.for("react.consumer"), REACT_CONTEXT_TYPE = Symbol.for("react.context"), REACT_FORWARD_REF_TYPE = Symbol.for("react.forward_ref"), REACT_SUSPENSE_TYPE = Symbol.for("react.suspense"), REACT_MEMO_TYPE = Symbol.for("react.memo"), REACT_LAZY_TYPE = Symbol.for("react.lazy"), MAYBE_ITERATOR_SYMBOL = Symbol.iterator;
function getIteratorFn(maybeIterable) {
if (null === maybeIterable || "object" !== typeof maybeIterable) return null;
maybeIterable = MAYBE_ITERATOR_SYMBOL && maybeIterable[MAYBE_ITERATOR_SYMBOL] || maybeIterable["@@iterator"];
return "function" === typeof maybeIterable ? maybeIterable : null;
}
var ReactNoopUpdateQueue = {
isMounted: function() {
return false;
},
enqueueForceUpdate: function() {
},
enqueueReplaceState: function() {
},
enqueueSetState: function() {
}
}, assign = Object.assign, emptyObject = {};
function Component(props, context, updater) {
this.props = props;
this.context = context;
this.refs = emptyObject;
this.updater = updater || ReactNoopUpdateQueue;
}
Component.prototype.isReactComponent = {};
Component.prototype.setState = function(partialState, callback) {
if ("object" !== typeof partialState && "function" !== typeof partialState && null != partialState)
throw Error(
"takes an object of state variables to update or a function which returns an object of state variables."
);
this.updater.enqueueSetState(this, partialState, callback, "setState");
};
Component.prototype.forceUpdate = function(callback) {
this.updater.enqueueForceUpdate(this, callback, "forceUpdate");
};
function ComponentDummy() {
}
ComponentDummy.prototype = Component.prototype;
function PureComponent(props, context, updater) {
this.props = props;
this.context = context;
this.refs = emptyObject;
this.updater = updater || ReactNoopUpdateQueue;
}
var pureComponentPrototype = PureComponent.prototype = new ComponentDummy();
pureComponentPrototype.constructor = PureComponent;
assign(pureComponentPrototype, Component.prototype);
pureComponentPrototype.isPureReactComponent = true;
var isArrayImpl = Array.isArray, ReactSharedInternals = { H: null, A: null, T: null, S: null, V: null }, hasOwnProperty = Object.prototype.hasOwnProperty;
function ReactElement(type, key, self, source, owner, props) {
self = props.ref;
return {
$$typeof: REACT_ELEMENT_TYPE,
type,
key,
ref: void 0 !== self ? self : null,
props
};
}
function cloneAndReplaceKey(oldElement, newKey) {
return ReactElement(
oldElement.type,
newKey,
void 0,
void 0,
void 0,
oldElement.props
);
}
function isValidElement(object) {
return "object" === typeof object && null !== object && object.$$typeof === REACT_ELEMENT_TYPE;
}
function escape(key) {
var escaperLookup = { "=": "=0", ":": "=2" };
return "$" + key.replace(/[=:]/g, function(match) {
return escaperLookup[match];
});
}
var userProvidedKeyEscapeRegex = /\/+/g;
function getElementKey(element, index) {
return "object" === typeof element && null !== element && null != element.key ? escape("" + element.key) : index.toString(36);
}
function noop$1() {
}
function resolveThenable(thenable) {
switch (thenable.status) {
case "fulfilled":
return thenable.value;
case "rejected":
throw thenable.reason;
default:
switch ("string" === typeof thenable.status ? thenable.then(noop$1, noop$1) : (thenable.status = "pending", thenable.then(
function(fulfilledValue) {
"pending" === thenable.status && (thenable.status = "fulfilled", thenable.value = fulfilledValue);
},
function(error) {
"pending" === thenable.status && (thenable.status = "rejected", thenable.reason = error);
}
)), thenable.status) {
case "fulfilled":
return thenable.value;
case "rejected":
throw thenable.reason;
}
}
throw thenable;
}
function mapIntoArray(children, array, escapedPrefix, nameSoFar, callback) {
var type = typeof children;
if ("undefined" === type || "boolean" === type) children = null;
var invokeCallback = false;
if (null === children) invokeCallback = true;
else
switch (type) {
case "bigint":
case "string":
case "number":
invokeCallback = true;
break;
case "object":
switch (children.$$typeof) {
case REACT_ELEMENT_TYPE:
case REACT_PORTAL_TYPE:
invokeCallback = true;
break;
case REACT_LAZY_TYPE:
return invokeCallback = children._init, mapIntoArray(
invokeCallback(children._payload),
array,
escapedPrefix,
nameSoFar,
callback
);
}
}
if (invokeCallback)
return callback = callback(children), invokeCallback = "" === nameSoFar ? "." + getElementKey(children, 0) : nameSoFar, isArrayImpl(callback) ? (escapedPrefix = "", null != invokeCallback && (escapedPrefix = invokeCallback.replace(userProvidedKeyEscapeRegex, "$&/") + "/"), mapIntoArray(callback, array, escapedPrefix, "", function(c) {
return c;
})) : null != callback && (isValidElement(callback) && (callback = cloneAndReplaceKey(
callback,
escapedPrefix + (null == callback.key || children && children.key === callback.key ? "" : ("" + callback.key).replace(
userProvidedKeyEscapeRegex,
"$&/"
) + "/") + invokeCallback
)), array.push(callback)), 1;
invokeCallback = 0;
var nextNamePrefix = "" === nameSoFar ? "." : nameSoFar + ":";
if (isArrayImpl(children))
for (var i = 0; i < children.length; i++)
nameSoFar = children[i], type = nextNamePrefix + getElementKey(nameSoFar, i), invokeCallback += mapIntoArray(
nameSoFar,
array,
escapedPrefix,
type,
callback
);
else if (i = getIteratorFn(children), "function" === typeof i)
for (children = i.call(children), i = 0; !(nameSoFar = children.next()).done; )
nameSoFar = nameSoFar.value, type = nextNamePrefix + getElementKey(nameSoFar, i++), invokeCallback += mapIntoArray(
nameSoFar,
array,
escapedPrefix,
type,
callback
);
else if ("object" === type) {
if ("function" === typeof children.then)
return mapIntoArray(
resolveThenable(children),
array,
escapedPrefix,
nameSoFar,
callback
);
array = String(children);
throw Error(
"Objects are not valid as a React child (found: " + ("[object Object]" === array ? "object with keys {" + Object.keys(children).join(", ") + "}" : array) + "). If you meant to render a collection of children, use an array instead."
);
}
return invokeCallback;
}
function mapChildren(children, func, context) {
if (null == children) return children;
var result = [], count = 0;
mapIntoArray(children, result, "", "", function(child) {
return func.call(context, child, count++);
});
return result;
}
function lazyInitializer(payload) {
if (-1 === payload._status) {
var ctor = payload._result;
ctor = ctor();
ctor.then(
function(moduleObject) {
if (0 === payload._status || -1 === payload._status)
payload._status = 1, payload._result = moduleObject;
},
function(error) {
if (0 === payload._status || -1 === payload._status)
payload._status = 2, payload._result = error;
}
);
-1 === payload._status && (payload._status = 0, payload._result = ctor);
}
if (1 === payload._status) return payload._result.default;
throw payload._result;
}
var reportGlobalError = "function" === typeof reportError ? reportError : function(error) {
if ("object" === typeof window && "function" === typeof window.ErrorEvent) {
var event = new window.ErrorEvent("error", {
bubbles: true,
cancelable: true,
message: "object" === typeof error && null !== error && "string" === typeof error.message ? String(error.message) : String(error),
error
});
if (!window.dispatchEvent(event)) return;
} else if ("object" === typeof process && "function" === typeof process.emit) {
process.emit("uncaughtException", error);
return;
}
console.error(error);
};
function noop() {
}
react_production.Children = {
map: mapChildren,
forEach: function(children, forEachFunc, forEachContext) {
mapChildren(
children,
function() {
forEachFunc.apply(this, arguments);
},
forEachContext
);
},
count: function(children) {
var n = 0;
mapChildren(children, function() {
n++;
});
return n;
},
toArray: function(children) {
return mapChildren(children, function(child) {
return child;
}) || [];
},
only: function(children) {
if (!isValidElement(children))
throw Error(
"React.Children.only expected to receive a single React element child."
);
return children;
}
};
react_production.Component = Component;
react_production.Fragment = REACT_FRAGMENT_TYPE;
react_production.Profiler = REACT_PROFILER_TYPE;
react_production.PureComponent = PureComponent;
react_production.StrictMode = REACT_STRICT_MODE_TYPE;
react_production.Suspense = REACT_SUSPENSE_TYPE;
react_production.__CLIENT_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE = ReactSharedInternals;
react_production.__COMPILER_RUNTIME = {
__proto__: null,
c: function(size) {
return ReactSharedInternals.H.useMemoCache(size);
}
};
react_production.cache = function(fn) {
return function() {
return fn.apply(null, arguments);
};
};
react_production.cloneElement = function(element, config, children) {
if (null === element || void 0 === element)
throw Error(
"The argument must be a React element, but you passed " + element + "."
);
var props = assign({}, element.props), key = element.key, owner = void 0;
if (null != config)
for (propName in void 0 !== config.ref && (owner = void 0), void 0 !== config.key && (key = "" + config.key), config)
!hasOwnProperty.call(config, propName) || "key" === propName || "__self" === propName || "__source" === propName || "ref" === propName && void 0 === config.ref || (props[propName] = config[propName]);
var propName = arguments.length - 2;
if (1 === propName) props.children = children;
else if (1 < propName) {
for (var childArray = Array(propName), i = 0; i < propName; i++)
childArray[i] = arguments[i + 2];
props.children = childArray;
}
return ReactElement(element.type, key, void 0, void 0, owner, props);
};
react_production.createContext = function(defaultValue) {
defaultValue = {
$$typeof: REACT_CONTEXT_TYPE,
_currentValue: defaultValue,
_currentValue2: defaultValue,
_threadCount: 0,
Provider: null,
Consumer: null
};
defaultValue.Provider = defaultValue;
defaultValue.Consumer = {
$$typeof: REACT_CONSUMER_TYPE,
_context: defaultValue
};
return defaultValue;
};
react_production.createElement = function(type, config, children) {
var propName, props = {}, key = null;
if (null != config)
for (propName in void 0 !== config.key && (key = "" + config.key), config)
hasOwnProperty.call(config, propName) && "key" !== propName && "__self" !== propName && "__source" !== propName && (props[propName] = config[propName]);
var childrenLength = arguments.length - 2;
if (1 === childrenLength) props.children = children;
else if (1 < childrenLength) {
for (var childArray = Array(childrenLength), i = 0; i < childrenLength; i++)
childArray[i] = arguments[i + 2];
props.children = childArray;
}
if (type && type.defaultProps)
for (propName in childrenLength = type.defaultProps, childrenLength)
void 0 === props[propName] && (props[propName] = childrenLength[propName]);
return ReactElement(type, key, void 0, void 0, null, props);
};
react_production.createRef = function() {
return { current: null };
};
react_production.forwardRef = function(render) {
return { $$typeof: REACT_FORWARD_REF_TYPE, render };
};
react_production.isValidElement = isValidElement;
react_production.lazy = function(ctor) {
return {
$$typeof: REACT_LAZY_TYPE,
_payload: { _status: -1, _result: ctor },
_init: lazyInitializer
};
};
react_production.memo = function(type, compare) {
return {
$$typeof: REACT_MEMO_TYPE,
type,
compare: void 0 === compare ? null : compare
};
};
react_production.startTransition = function(scope) {
var prevTransition = ReactSharedInternals.T, currentTransition = {};
ReactSharedInternals.T = currentTransition;
try {
var returnValue = scope(), onStartTransitionFinish = ReactSharedInternals.S;
null !== onStartTransitionFinish && onStartTransitionFinish(currentTransition, returnValue);
"object" === typeof returnValue && null !== returnValue && "function" === typeof returnValue.then && returnValue.then(noop, reportGlobalError);
} catch (error) {
reportGlobalError(error);
} finally {
ReactSharedInternals.T = prevTransition;
}
};
react_production.unstable_useCacheRefresh = function() {
return ReactSharedInternals.H.useCacheRefresh();
};
react_production.use = function(usable) {
return ReactSharedInternals.H.use(usable);
};
react_production.useActionState = function(action, initialState, permalink) {
return ReactSharedInternals.H.useActionState(action, initialState, permalink);
};
react_production.useCallback = function(callback, deps) {
return ReactSharedInternals.H.useCallback(callback, deps);
};
react_production.useContext = function(Context) {
return ReactSharedInternals.H.useContext(Context);
};
react_production.useDebugValue = function() {
};
react_production.useDeferredValue = function(value, initialValue) {
return ReactSharedInternals.H.useDeferredValue(value, initialValue);
};
react_production.useEffect = function(create, createDeps, update) {
var dispatcher = ReactSharedInternals.H;
if ("function" === typeof update)
throw Error(
"useEffect CRUD overload is not enabled in this build of React."
);
return dispatcher.useEffect(create, createDeps);
};
react_production.useId = function() {
return ReactSharedInternals.H.useId();
};
react_production.useImperativeHandle = function(ref, create, deps) {
return ReactSharedInternals.H.useImperativeHandle(ref, create, deps);
};
react_production.useInsertionEffect = function(create, deps) {
return ReactSharedInternals.H.useInsertionEffect(create, deps);
};
react_production.useLayoutEffect = function(create, deps) {
return ReactSharedInternals.H.useLayoutEffect(create, deps);
};
react_production.useMemo = function(create, deps) {
return ReactSharedInternals.H.useMemo(create, deps);
};
react_production.useOptimistic = function(passthrough, reducer) {
return ReactSharedInternals.H.useOptimistic(passthrough, reducer);
};
react_production.useReducer = function(reducer, initialArg, init) {
return ReactSharedInternals.H.useReducer(reducer, initialArg, init);
};
react_production.useRef = function(initialValue) {
return ReactSharedInternals.H.useRef(initialValue);
};
react_production.useState = function(initialState) {
return ReactSharedInternals.H.useState(initialState);
};
react_production.useSyncExternalStore = function(subscribe, getSnapshot, getServerSnapshot) {
return ReactSharedInternals.H.useSyncExternalStore(
subscribe,
getSnapshot,
getServerSnapshot
);
};
react_production.useTransition = function() {
return ReactSharedInternals.H.useTransition();
};
react_production.version = "19.1.1";
return react_production;
}
var hasRequiredReact;
function requireReact() {
if (hasRequiredReact) return react.exports;
hasRequiredReact = 1;
{
react.exports = requireReact_production();
}
return react.exports;
}
var reactExports = requireReact();
const React = /* @__PURE__ */ getDefaultExportFromCjs(reactExports);
var client = { exports: {} };
var reactDomClient_production = {};
var scheduler = { exports: {} };
var scheduler_production = {};
/**
* @license React
* scheduler.production.js
*
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
var hasRequiredScheduler_production;
function requireScheduler_production() {
if (hasRequiredScheduler_production) return scheduler_production;
hasRequiredScheduler_production = 1;
(function(exports) {
function push(heap, node) {
var index = heap.length;
heap.push(node);
a: for (; 0 < index; ) {
var parentIndex = index - 1 >>> 1, parent = heap[parentIndex];
if (0 < compare(parent, node))
heap[parentIndex] = node, heap[index] = parent, index = parentIndex;
else break a;
}
}
function peek(heap) {
return 0 === heap.length ? null : heap[0];
}
function pop(heap) {
if (0 === heap.length) return null;
var first = heap[0], last = heap.pop();
if (last !== first) {
heap[0] = last;
a: for (var index = 0, length = heap.length, halfLength = length >>> 1; index < halfLength; ) {
var leftIndex = 2 * (index + 1) - 1, left = heap[leftIndex], rightIndex = leftIndex + 1, right = heap[rightIndex];
if (0 > compare(left, last))
rightIndex < length && 0 > compare(right, left) ? (heap[index] = right, heap[rightIndex] = last, index = rightIndex) : (heap[index] = left, heap[leftIndex] = last, index = leftIndex);
else if (rightIndex < length && 0 > compare(right, last))
heap[index] = right, heap[rightIndex] = last, index = rightIndex;
else break a;
}
}
return first;
}
function compare(a, b) {
var diff = a.sortIndex - b.sortIndex;
return 0 !== diff ? diff : a.id - b.id;
}
exports.unstable_now = void 0;
if ("object" === typeof performance && "function" === typeof performance.now) {
var localPerformance = performance;
exports.unstable_now = function() {
return localPerformance.now();
};
} else {
var localDate = Date, initialTime = localDate.now();
exports.unstable_now = function() {
return localDate.now() - initialTime;
};
}
var taskQueue = [], timerQueue = [], taskIdCounter = 1, currentTask = null, currentPriorityLevel = 3, isPerformingWork = false, isHostCallbackScheduled = false, isHostTimeoutScheduled = false, needsPaint = false, localSetTimeout = "function" === typeof setTimeout ? setTimeout : null, localClearTimeout = "function" === typeof clearTimeout ? clearTimeout : null, localSetImmediate = "undefined" !== typeof setImmediate ? setImmediate : null;
function advanceTimers(currentTime) {
for (var timer = peek(timerQueue); null !== timer; ) {
if (null === timer.callback) pop(timerQueue);
else if (timer.startTime <= currentTime)
pop(timerQueue), timer.sortIndex = timer.expirationTime, push(taskQueue, timer);
else break;
timer = peek(timerQueue);
}
}
function handleTimeout(currentTime) {
isHostTimeoutScheduled = false;
advanceTimers(currentTime);
if (!isHostCallbackScheduled)
if (null !== peek(taskQueue))
isHostCallbackScheduled = true, isMessageLoopRunning || (isMessageLoopRunning = true, schedulePerformWorkUntilDeadline());
else {
var firstTimer = peek(timerQueue);
null !== firstTimer && requestHostTimeout(handleTimeout, firstTimer.startTime - currentTime);
}
}
var isMessageLoopRunning = false, taskTimeoutID = -1, frameInterval = 5, startTime = -1;
function shouldYieldToHost() {
return needsPaint ? true : exports.unstable_now() - startTime < frameInterval ? false : true;
}
function performWorkUntilDeadline() {
needsPaint = false;
if (isMessageLoopRunning) {
var currentTime = exports.unstable_now();
startTime = currentTime;
var hasMoreWork = true;
try {
a: {
isHostCallbackScheduled = false;
isHostTimeoutScheduled && (isHostTimeoutScheduled = false, localClearTimeout(taskTimeoutID), taskTimeoutID = -1);
isPerformingWork = true;
var previousPriorityLevel = currentPriorityLevel;
try {
b: {
advanceTimers(currentTime);
for (currentTask = peek(taskQueue); null !== currentTask && !(currentTask.expirationTime > currentTime && shouldYieldToHost()); ) {
var callback = currentTask.callback;
if ("function" === typeof callback) {
currentTask.callback = null;
currentPriorityLevel = currentTask.priorityLevel;
var continuationCallback = callback(
currentTask.expirationTime <= currentTime
);
currentTime = exports.unstable_now();
if ("function" === typeof continuationCallback) {
currentTask.callback = continuationCallback;
advanceTimers(currentTime);
hasMoreWork = true;
break b;
}
currentTask === peek(taskQueue) && pop(taskQueue);
advanceTimers(currentTime);
} else pop(taskQueue);
currentTask = peek(taskQueue);
}
if (null !== currentTask) hasMoreWork = true;
else {
var firstTimer = peek(timerQueue);
null !== firstTimer && requestHostTimeout(
handleTimeout,
firstTimer.startTime - currentTime
);
hasMoreWork = false;
}
}
break a;
} finally {
currentTask = null, currentPriorityLevel = previousPriorityLevel, isPerformingWork = false;
}
hasMoreWork = void 0;
}
} finally {
hasMoreWork ? schedulePerformWorkUntilDeadline() : isMessageLoopRunning = false;
}
}
}
var schedulePerformWorkUntilDeadline;
if ("function" === typeof localSetImmediate)
schedulePerformWorkUntilDeadline = function() {
localSetImmediate(performWorkUntilDeadline);
};
else if ("undefined" !== typeof MessageChannel) {
var channel = new MessageChannel(), port = channel.port2;
channel.port1.onmessage = performWorkUntilDeadline;
schedulePerformWorkUntilDeadline = function() {
port.postMessage(null);
};
} else
schedulePerformWorkUntilDeadline = function() {
localSetTimeout(performWorkUntilDeadline, 0);
};
function requestHostTimeout(callback, ms) {
taskTimeoutID = localSetTimeout(function() {
callback(exports.unstable_now());
}, ms);
}
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(task) {
task.callback = null;
};
exports.unstable_forceFrameRate = function(fps) {
0 > fps || 125 < fps ? console.error(
"forceFrameRate takes a positive int between 0 and 125, forcing frame rates higher than 125 fps is not supported"
) : frameInterval = 0 < fps ? Math.floor(1e3 / fps) : 5;
};
exports.unstable_getCurrentPriorityLevel = function() {
return currentPriorityLevel;
};
exports.unstable_next = function(eventHandler) {
switch (currentPriorityLevel) {
case 1:
case 2:
case 3:
var priorityLevel = 3;
break;
default:
priorityLevel = currentPriorityLevel;
}
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = priorityLevel;
try {
return eventHandler();
} finally {
currentPriorityLevel = previousPriorityLevel;
}
};
exports.unstable_requestPaint = function() {
needsPaint = true;
};
exports.unstable_runWithPriority = function(priorityLevel, eventHandler) {
switch (priorityLevel) {
case 1:
case 2:
case 3:
case 4:
case 5:
break;
default:
priorityLevel = 3;
}
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = priorityLevel;
try {
return eventHandler();
} finally {
currentPriorityLevel = previousPriorityLevel;
}
};
exports.unstable_scheduleCallback = function(priorityLevel, callback, options) {
var currentTime = exports.unstable_now();
"object" === typeof options && null !== options ? (options = options.delay, options = "number" === typeof options && 0 < options ? currentTime + options : currentTime) : options = currentTime;
switch (priorityLevel) {
case 1:
var timeout = -1;
break;
case 2:
timeout = 250;
break;
case 5:
timeout = 1073741823;
break;
case 4:
timeout = 1e4;
break;
default:
timeout = 5e3;
}
timeout = options + timeout;
priorityLevel = {
id: taskIdCounter++,
callback,
priorityLevel,
startTime: options,
expirationTime: timeout,
sortIndex: -1
};
options > currentTime ? (priorityLevel.sortIndex = options, push(timerQueue, priorityLevel), null === peek(taskQueue) && priorityLevel === peek(timerQueue) && (isHostTimeoutScheduled ? (localClearTimeout(taskTimeoutID), taskTimeoutID = -1) : isHostTimeoutScheduled = true, requestHostTimeout(handleTimeout, options - currentTime))) : (priorityLevel.sortIndex = timeout, push(taskQueue, priorityLevel), isHostCallbackScheduled || isPerformingWork || (isHostCallbackScheduled = true, isMessageLoopRunning || (isMessageLoopRunning = true, schedulePerformWorkUntilDeadline())));
return priorityLevel;
};
exports.unstable_shouldYield = shouldYieldToHost;
exports.unstable_wrapCallback = function(callback) {
var parentPriorityLevel = currentPriorityLevel;
return function() {
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = parentPriorityLevel;
try {
return callback.apply(this, arguments);
} finally {
currentPriorityLevel = previousPriorityLevel;
}
};
};
})(scheduler_production);
return scheduler_production;
}
var hasRequiredScheduler;
function requireScheduler() {
if (hasRequiredScheduler) return scheduler.exports;
hasRequiredScheduler = 1;
{
scheduler.exports = requireScheduler_production();
}
return scheduler.exports;
}
var reactDom = { exports: {} };
var reactDom_production = {};
/**
* @license React
* react-dom.production.js
*
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
var hasRequiredReactDom_production;
function requireReactDom_production() {
if (hasRequiredReactDom_production) return reactDom_production;
hasRequiredReactDom_production = 1;
var React2 = requireReact();
function formatProdErrorMessage(code) {
var url = "https://react.dev/errors/" + code;
if (1 < arguments.length) {
url += "?args[]=" + encodeURIComponent(arguments[1]);
for (var i = 2; i < arguments.length; i++)
url += "&args[]=" + encodeURIComponent(arguments[i]);
}
return "Minified React error #" + code + "; visit " + url + " for the full message or use the non-minified dev environment for full errors and additional helpful warnings.";
}
function noop() {
}
var Internals = {
d: {
f: noop,
r: function() {
throw Error(formatProdErrorMessage(522));
},
D: noop,
C: noop,
L: noop,
m: noop,
X: noop,
S: noop,
M: noop
},
p: 0,
findDOMNode: null
}, REACT_PORTAL_TYPE = Symbol.for("react.portal");
function createPortal$1(children, containerInfo, implementation) {
var key = 3 < arguments.length && void 0 !== arguments[3] ? arguments[3] : null;
return {
$$typeof: REACT_PORTAL_TYPE,
key: null == key ? null : "" + key,
children,
containerInfo,
implementation
};
}
var ReactSharedInternals = React2.__CLIENT_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE;
function getCrossOriginStringAs(as, input) {
if ("font" === as) return "";
if ("string" === typeof input)
return "use-credentials" === input ? input : "";
}
reactDom_production.__DOM_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE = Internals;
reactDom_production.createPortal = function(children, container) {
var key = 2 < arguments.length && void 0 !== arguments[2] ? arguments[2] : null;
if (!container || 1 !== container.nodeType && 9 !== container.nodeType && 11 !== container.nodeType)
throw Error(formatProdErrorMessage(299));
return createPortal$1(children, container, null, key);
};
reactDom_production.flushSync = function(fn) {
var previousTransition = ReactSharedInternals.T, previousUpdatePriority = Internals.p;
try {
if (ReactSharedInternals.T = null, Internals.p = 2, fn) return fn();
} finally {
ReactSharedInternals.T = previousTransition, Internals.p = previousUpdatePriority, Internals.d.f();
}
};
reactDom_production.preconnect = function(href, options) {
"string" === typeof href && (options ? (options = options.crossOrigin, options = "string" === typeof options ? "use-credentials" === options ? options : "" : void 0) : options = null, Internals.d.C(href, options));
};
reactDom_production.prefetchDNS = function(href) {
"string" === typeof href && Internals.d.D(href);
};
reactDom_production.preinit = function(href, options) {
if ("string" === typeof href && options && "string" === typeof options.as) {
var as = options.as, crossOrigin = getCrossOriginStringAs(as, options.crossOrigin), integrity = "string" === typeof options.integrity ? options.integrity : void 0, fetchPriority = "string" === typeof options.fetchPriority ? options.fetchPriority : void 0;
"style" === as ? Internals.d.S(
href,
"string" === typeof options.precedence ? options.precedence : void 0,
{
crossOrigin,
integrity,
fetchPriority
}
) : "script" === as && Internals.d.X(href, {
crossOrigin,
integrity,
fetchPriority,
nonce: "string" === typeof options.nonce ? options.nonce : void 0
});
}
};
reactDom_production.preinitModule = function(href, options) {
if ("string" === typeof href)
if ("object" === typeof options && null !== options) {
if (null == options.as || "script" === options.as) {
var crossOrigin = getCrossOriginStringAs(
options.as,
options.crossOrigin
);
Internals.d.M(href, {
crossOrigin,
integrity: "string" === typeof options.integrity ? options.integrity : void 0,
nonce: "string" === typeof options.nonce ? options.nonce : void 0
});
}
} else null == options && Internals.d.M(href);
};
reactDom_production.preload = function(href, options) {
if ("string" === typeof href && "object" === typeof options && null !== options && "string" === typeof options.as) {
var as = options.as, crossOrigin = getCrossOriginStringAs(as, options.crossOrigin);
Internals.d.L(href, as, {
crossOrigin,
integrity: "string" === typeof options.integrity ? options.integrity : void 0,
nonce: "string" === typeof options.nonce ? options.nonce : void 0,
type: "string" === typeof options.type ? options.type : void 0,
fetchPriority: "string" === typeof options.fetchPriority ? options.fetchPriority : void 0,
referrerPolicy: "string" === typeof options.referrerPolicy ? options.referrerPolicy : void 0,
imageSrcSet: "string" === typeof options.imageSrcSet ? options.imageSrcSet : void 0,
imageSizes: "string" === typeof options.imageSizes ? options.imageSizes : void 0,
media: "string" === typeof options.media ? options.media : void 0
});
}
};
reactDom_production.preloadModule = function(href, options) {
if ("string" === typeof href)
if (options) {
var crossOrigin = getCrossOriginStringAs(options.as, options.crossOrigin);
Internals.d.m(href, {
as: "string" === typeof options.as && "script" !== options.as ? options.as : void 0,
crossOrigin,
integrity: "string" === typeof options.integrity ? options.integrity : void 0
});
} else Internals.d.m(href);
};
reactDom_production.requestFormReset = function(form) {
Internals.d.r(form);
};
reactDom_production.unstable_batchedUpdates = function(fn, a) {
return fn(a);
};
reactDom_production.useFormState = function(action, initialState, permalink) {
return ReactSharedInternals.H.useFormState(action, initialState, permalink);
};
reactDom_production.useFormStatus = function() {
return ReactSharedInternals.H.useHostTransitionStatus();
};
reactDom_production.version = "19.1.1";
return reactDom_production;
}
var hasRequiredReactDom;
function requireReactDom() {
if (hasRequiredReactDom) return reactDom.exports;
hasRequiredReactDom = 1;
function checkDCE() {
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ === "undefined" || typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.checkDCE !== "function") {
return;
}
try {
__REACT_DEVTOOLS_GLOBAL_HOOK__.checkDCE(checkDCE);
} catch (err) {
console.error(err);
}
}
{
checkDCE();
reactDom.exports = requireReactDom_production();
}
return reactDom.exports;
}
/**
* @license React
* react-dom-client.production.js
*
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
var hasRequiredReactDomClient_production;
function requireReactDomClient_production() {
if (hasRequiredReactDomClient_production) return reactDomClient_production;
hasRequiredReactDomClient_production = 1;
var Scheduler = requireScheduler(), React2 = requireReact(), ReactDOM = requireReactDom();
function formatProdErrorMessage(code) {
var url = "https://react.dev/errors/" + code;
if (1 < arguments.length) {
url += "?args[]=" + encodeURIComponent(arguments[1]);
for (var i = 2; i < arguments.length; i++)
url += "&args[]=" + encodeURIComponent(arguments[i]);
}
return "Minified React error #" + code + "; visit " + url + " for the full message or use the non-minified dev environment for full errors and additional helpful warnings.";
}
function isValidContainer(node) {
return !(!node || 1 !== node.nodeType && 9 !== node.nodeType && 11 !== node.nodeType);
}
function getNearestMountedFiber(fiber) {
var node = fiber, nearestMounted = fiber;
if (fiber.alternate) for (; node.return; ) node = node.return;
else {
fiber = node;
do
node = fiber, 0 !== (node.flags & 4098) && (nearestMounted = node.return), fiber = node.return;
while (fiber);
}
return 3 === node.tag ? nearestMounted : null;
}
function getSuspenseInstanceFromFiber(fiber) {
if (13 === fiber.tag) {
var suspenseState = fiber.memoizedState;
null === suspenseState && (fiber = fiber.alternate, null !== fiber && (suspenseState = fiber.memoizedState));
if (null !== suspenseState) return suspenseState.dehydrated;
}
return null;
}
function assertIsMounted(fiber) {
if (getNearestMountedFiber(fiber) !== fiber)
throw Error(formatProdErrorMessage(188));
}
function findCurrentFiberUsingSlowPath(fiber) {
var alternate = fiber.alternate;
if (!alternate) {
alternate = getNearestMountedFiber(fiber);
if (null === alternate) throw Error(formatProdErrorMessage(188));
return alternate !== fiber ? null : fiber;
}
for (var a = fiber, b = alternate; ; ) {
var parentA = a.return;
if (null === parentA) break;
var parentB = parentA.alternate;
if (null === parentB) {
b = parentA.return;
if (null !== b) {
a = b;
continue;
}
break;
}
if (parentA.child === parentB.child) {
for (parentB = parentA.child; parentB; ) {
if (parentB === a) return assertIsMounted(parentA), fiber;
if (parentB === b) return assertIsMounted(parentA), alternate;
parentB = parentB.sibling;
}
throw Error(formatProdErrorMessage(188));
}
if (a.return !== b.return) a = parentA, b = parentB;
else {
for (var didFindChild = false, child$0 = parentA.child; child$0; ) {
if (child$0 === a) {
didFindChild = true;
a = parentA;
b = parentB;
break;
}
if (child$0 === b) {
didFindChild = true;
b = parentA;
a = parentB;
break;
}
child$0 = child$0.sibling;
}
if (!didFindChild) {
for (child$0 = parentB.child; child$0; ) {
if (child$0 === a) {
didFindChild = true;
a = parentB;
b = parentA;
break;
}
if (child$0 === b) {
didFindChild = true;
b = parentB;
a = parentA;
break;
}
child$0 = child$0.sibling;
}
if (!didFindChild) throw Error(formatProdErrorMessage(189));
}
}
if (a.alternate !== b) throw Error(formatProdErrorMessage(190));
}
if (3 !== a.tag) throw Error(formatProdErrorMessage(188));
return a.stateNode.current === a ? fiber : alternate;
}
function findCurrentHostFiberImpl(node) {
var tag = node.tag;
if (5 === tag || 26 === tag || 27 === tag || 6 === tag) return node;
for (node = node.child; null !== node; ) {
tag = findCurrentHostFiberImpl(node);
if (null !== tag) return tag;
node = node.sibling;
}
return null;
}
var assign = Object.assign, REACT_LEGACY_ELEMENT_TYPE = Symbol.for("react.element"), REACT_ELEMENT_TYPE = Symbol.for("react.transitional.element"), REACT_PORTAL_TYPE = Symbol.for("react.portal"), REACT_FRAGMENT_TYPE = Symbol.for("react.fragment"), REACT_STRICT_MODE_TYPE = Symbol.for("react.strict_mode"), REACT_PROFILER_TYPE = Symbol.for("react.profiler"), REACT_PROVIDER_TYPE = Symbol.for("react.provider"), REACT_CONSUMER_TYPE = Symbol.for("react.consumer"), REACT_CONTEXT_TYPE = Symbol.for("react.context"), REACT_FORWARD_REF_TYPE = Symbol.for("react.forward_ref"), REACT_SUSPENSE_TYPE = Symbol.for("react.suspense"), REACT_SUSPENSE_LIST_TYPE = Symbol.for("react.suspense_list"), REACT_MEMO_TYPE = Symbol.for("react.memo"), REACT_LAZY_TYPE = Symbol.for("react.lazy");
var REACT_ACTIVITY_TYPE = Symbol.for("react.activity");
var REACT_MEMO_CACHE_SENTINEL = Symbol.for("react.memo_cache_sentinel");
var MAYBE_ITERATOR_SYMBOL = Symbol.iterator;
function getIteratorFn(maybeIterable) {
if (null === maybeIterable || "object" !== typeof maybeIterable) return null;
maybeIterable = MAYBE_ITERATOR_SYMBOL && maybeIterable[MAYBE_ITERATOR_SYMBOL] || maybeIterable["@@iterator"];
return "function" === typeof maybeIterable ? maybeIterable : null;
}
var REACT_CLIENT_REFERENCE = Symbol.for("react.client.reference");
function getComponentNameFromType(type) {
if (null == type) return null;
if ("function" === typeof type)
return type.$$typeof === REACT_CLIENT_REFERENCE ? null : type.displayName || type.name || null;
if ("string" === typeof type) return type;
switch (type) {
case REACT_FRAGMENT_TYPE:
return "Fragment";
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";
case REACT_ACTIVITY_TYPE:
return "Activity";
}
if ("object" === typeof type)
switch (type.$$typeof) {
case REACT_PORTAL_TYPE:
return "Portal";
case REACT_CONTEXT_TYPE:
return (type.displayName || "Context") + ".Provider";
case REACT_CONSUMER_TYPE:
return (type._context.displayName || "Context") + ".Consumer";
case REACT_FORWARD_REF_TYPE:
var innerType = type.render;
type = type.displayName;
type || (type = innerType.displayName || innerType.name || "", type = "" !== type ? "ForwardRef(" + type + ")" : "ForwardRef");
return type;
case REACT_MEMO_TYPE:
return innerType = type.displayName || null, null !== innerType ? innerType : getComponentNameFromType(type.type) || "Memo";
case REACT_LAZY_TYPE:
innerType = type._payload;
type = type._init;
try {
return getComponentNameFromType(type(innerType));
} catch (x) {
}
}
return null;
}
var isArrayImpl = Array.isArray, ReactSharedInternals = React2.__CLIENT_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE, ReactDOMSharedInternals = ReactDOM.__DOM_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE, sharedNotPendingObject = {
pending: false,
data: null,
method: null,
action: null
}, valueStack = [], index = -1;
function createCursor(defaultValue) {
return { current: defaultValue };
}
function pop(cursor) {
0 > index || (cursor.current = valueStack[index], valueStack[index] = null, index--);
}
function push(cursor, value) {
index++;
valueStack[index] = cursor.current;
cursor.current = value;
}
var contextStackCursor = createCursor(null), contextFiberStackCursor = createCursor(null), rootInstanceStackCursor = createCursor(null), hostTransitionProviderCursor = createCursor(null);
function pushHostContainer(fiber, nextRootInstance) {
push(rootInstanceStackCursor, nextRootInstance);
push(contextFiberStackCursor, fiber);
push(contextStackCursor, null);
switch (nextRootInstance.nodeType) {
case 9:
case 11:
fiber = (fiber = nextRootInstance.documentElement) ? (fiber = fiber.namespaceURI) ? getOwnHostContext(fiber) : 0 : 0;
break;
default:
if (fiber = nextRootInstance.tagName, nextRootInstance = nextRootInstance.namespaceURI)
nextRootInstance = getOwnHostContext(nextRootInstance), fiber = getChildHostContextProd(nextRootInstance, fiber);
else
switch (fiber) {
case "svg":
fiber = 1;
break;
case "math":
fiber = 2;
break;
default:
fiber = 0;
}
}
pop(contextStackCursor);
push(contextStackCursor, fiber);
}
function popHostContainer() {
pop(contextStackCursor);
pop(contextFiberStackCursor);
pop(rootInstanceStackCursor);
}
function pushHostContext(fiber) {
null !== fiber.memoizedState && push(hostTransitionProviderCursor, fiber);
var context = contextStackCursor.current;
var JSCompiler_inline_result = getChildHostContextProd(context, fiber.type);
context !== JSCompiler_inline_result && (push(contextFiberStackCursor, fiber), push(contextStackCursor, JSCompiler_inline_result));
}
function popHostContext(fiber) {
contextFiberStackCursor.current === fiber && (pop(contextStackCursor), pop(contextFiberStackCursor));
hostTransitionProviderCursor.current === fiber && (pop(hostTransitionProviderCursor), HostTransitionContext._currentValue = sharedNotPendingObject);
}
var hasOwnProperty = Object.prototype.hasOwnProperty, scheduleCallback$3 = Scheduler.unstable_scheduleCallback, cancelCallback$1 = Scheduler.unstable_cancelCallback, shouldYield = Scheduler.unstable_shouldYield, requestPaint = Scheduler.unstable_requestPaint, now = Scheduler.unstable_now, getCurrentPriorityLevel = Scheduler.unstable_getCurrentPriorityLevel, ImmediatePriority = Scheduler.unstable_ImmediatePriority, UserBlockingPriority = Scheduler.unstable_UserBlockingPriority, NormalPriority$1 = Scheduler.unstable_NormalPriority, LowPriority = Scheduler.unstable_LowPriority, IdlePriority = Scheduler.unstable_IdlePriority, log$1 = Scheduler.log, unstable_setDisableYieldValue = Scheduler.unstable_setDisableYieldValue, rendererID = null, injectedHook = null;
function setIsStrictModeForDevtools(newIsStrictMode) {
"function" === typeof log$1 && unstable_setDisableYieldValue(newIsStrictMode);
if (injectedHook && "function" === typeof injectedHook.setStrictMode)
try {
injectedHook.setStrictMode(rendererID, newIsStrictMode);
} catch (err) {
}
}
var clz32 = Math.clz32 ? Math.clz32 : clz32Fallback, log2 = Math.log, LN2 = Math.LN2;
function clz32Fallback(x) {
x >>>= 0;
return 0 === x ? 32 : 31 - (log2(x) / LN2 | 0) | 0;
}
var nextTransitionLane = 256, nextRetryLane = 4194304;
function getHighestPriorityLanes(lanes) {
var pendingSyncLanes = lanes & 42;
if (0 !== pendingSyncLanes) return pendingSyncLanes;
switch (lanes & -lanes) {
case 1:
return 1;
case 2:
return 2;
case 4:
return 4;
case 8:
return 8;
case 16:
return 16;
case 32:
return 32;
case 64:
return 64;
case 128:
return 128;
case 256:
case 512:
case 1024:
case 2048:
case 4096:
case 8192:
case 16384:
case 32768:
case 65536:
case 131072:
case 262144:
case 524288:
case 1048576:
case 2097152:
return lanes & 4194048;
case 4194304:
case 8388608:
case 16777216:
case 33554432:
return lanes & 62914560;
case 67108864:
return 67108864;
case 134217728:
return 134217728;
case 268435456:
return 268435456;
case 536870912:
return 536870912;
case 1073741824:
return 0;
default:
return lanes;
}
}
function getNextLanes(root2, wipLanes, rootHasPendingCommit) {
var pendingLanes = root2.pendingLanes;
if (0 === pendingLanes) return 0;
var nextLanes = 0, suspendedLanes = root2.suspendedLanes, pingedLanes = root2.pingedLanes;
root2 = root2.warmLanes;
var nonIdlePendingLanes = pendingLanes & 134217727;
0 !== nonIdlePendingLanes ? (pendingLanes = nonIdlePendingLanes & ~suspendedLanes, 0 !== pendingLanes ? nextLanes = getHighestPriorityLanes(pendingLanes) : (pingedLanes &= nonIdlePendingLanes, 0 !== pingedLanes ? nextLanes = getHighestPriorityLanes(pingedLanes) : rootHasPendingCommit || (rootHasPendingCommit = nonIdlePendingLanes & ~root2, 0 !== rootHasPendingCommit && (nextLanes = getHighestPriorityLanes(rootHasPendingCommit))))) : (nonIdlePendingLanes = pendingLanes & ~suspendedLanes, 0 !== nonIdlePendingLanes ? nextLanes = getHighestPriorityLanes(nonIdlePendingLanes) : 0 !== pingedLanes ? nextLanes = getHighestPriorityLanes(pingedLanes) : rootHasPendingCommit || (rootHasPendingCommit = pendingLanes & ~root2, 0 !== rootHasPendingCommit && (nextLanes = getHighestPriorityLanes(rootHasPendingCommit))));
return 0 === nextLanes ? 0 : 0 !== wipLanes && wipLanes !== nextLanes && 0 === (wipLanes & suspendedLanes) && (suspendedLanes = nextLanes & -nextLanes, rootHasPendingCommit = wipLanes & -wipLanes, suspendedLanes >= rootHasPendingCommit || 32 === suspendedLanes && 0 !== (rootHasPendingCommit & 4194048)) ? wipLanes : nextLanes;
}
function checkIfRootIsPrerendering(root2, renderLanes2) {
return 0 === (root2.pendingLanes & ~(root2.suspendedLanes & ~root2.pingedLanes) & renderLanes2);
}
function computeExpirationTime(lane, currentTime) {
switch (lane) {
case 1:
case 2:
case 4:
case 8:
case 64:
return currentTime + 250;
case 16:
case 32:
case 128:
case 256:
case 512:
case 1024:
case 2048:
case 4096:
case 8192:
case 16384:
case 32768:
case 65536:
case 131072:
case 262144:
case 524288:
case 1048576:
case 2097152:
return currentTime + 5e3;
case 4194304:
case 8388608:
case 16777216:
case 33554432:
return -1;
case 67108864:
case 134217728:
case 268435456:
case 536870912:
case 1073741824:
return -1;
default:
return -1;
}
}
function claimNextTransitionLane() {
var lane = nextTransitionLane;
nextTransitionLane <<= 1;
0 === (nextTransitionLane & 4194048) && (nextTransitionLane = 256);
return lane;
}
function claimNextRetryLane() {
var lane = nextRetryLane;
nextRetryLane <<= 1;
0 === (nextRetryLane & 62914560) && (nextRetryLane = 4194304);
return lane;
}
function createLaneMap(initial) {
for (var laneMap = [], i = 0; 31 > i; i++) laneMap.push(initial);
return laneMap;
}
function markRootUpdated$1(root2, updateLane) {
root2.pendingLanes |= updateLane;
268435456 !== updateLane && (root2.suspendedLanes = 0, root2.pingedLanes = 0, root2.warmLanes = 0);
}
function markRootFinished(root2, finishedLanes, remainingLanes, spawnedLane, updatedLanes, suspendedRetryLanes) {
var previouslyPendingLanes = root2.pendingLanes;
root2.pendingLanes = remainingLanes;
root2.suspendedLanes = 0;
root2.pingedLanes = 0;
root2.warmLanes = 0;
root2.expiredLanes &= remainingLanes;
root2.entangledLanes &= remainingLanes;
root2.errorRecoveryDisabledLanes &= remainingLanes;
root2.shellSuspendCounter = 0;
var entanglements = root2.entanglements, expirationTimes = root2.expirationTimes, hiddenUpdates = root2.hiddenUpdates;
for (remainingLanes = previouslyPendingLanes & ~remainingLanes; 0 < remainingLanes; ) {
var index$5 = 31 - clz32(remainingLanes), lane = 1 << index$5;
entanglements[index$5] = 0;
expirationTimes[index$5] = -1;
var hiddenUpdatesForLane = hiddenUpdates[index$5];
if (null !== hiddenUpdatesForLane)
for (hiddenUpdates[index$5] = null, index$5 = 0; index$5 < hiddenUpdatesForLane.length; index$5++) {
var update = hiddenUpdatesForLane[index$5];
null !== update && (update.lane &= -536870913);
}
remainingLanes &= ~lane;
}
0 !== spawnedLane && markSpawnedDeferredLane(root2, spawnedLane, 0);
0 !== suspendedRetryLanes && 0 === updatedLanes && 0 !== root2.tag && (root2.suspendedLanes |= suspendedRetryLanes & ~(previouslyPendingLanes & ~finishedLanes));
}
function markSpawnedDeferredLane(root2, spawnedLane, entangledLanes) {
root2.pendingLanes |= spawnedLane;
root2.suspendedLanes &= ~spawnedLane;
var spawnedLaneIndex = 31 - clz32(spawnedLane);
root2.entangledLanes |= spawnedLane;
root2.entanglements[spawnedLaneIndex] = root2.entanglements[spawnedLaneIndex] | 1073741824 | entangledLanes & 4194090;
}
function markRootEntangled(root2, entangledLanes) {
var rootEntangledLanes = root2.entangledLanes |= entangledLanes;
for (root2 = root2.entanglements; rootEntangledLanes; ) {
var index$6 = 31 - clz32(rootEntangledLanes), lane = 1 << index$6;
lane & entangledLanes | root2[index$6] & entangledLanes && (root2[index$6] |= entangledLanes);
rootEntangledLanes &= ~lane;
}
}
function getBumpedLaneForHydrationByLane(lane) {
switch (lane) {
case 2:
lane = 1;
break;
case 8:
lane = 4;
break;
case 32:
lane = 16;
break;
case 256:
case 512:
case 1024:
case 2048:
case 4096:
case 8192:
case 16384:
case 32768:
case 65536:
case 131072:
case 262144:
case 524288:
case 1048576:
case 2097152:
case 4194304:
case 8388608:
case 16777216:
case 33554432:
lane = 128;
break;
case 268435456:
lane = 134217728;
break;
default:
lane = 0;
}
return lane;
}
function lanesToEventPriority(lanes) {
lanes &= -lanes;
return 2 < lanes ? 8 < lanes ? 0 !== (lanes & 134217727) ? 32 : 268435456 : 8 : 2;
}
function resolveUpdatePriority() {
var updatePriority = ReactDOMSharedInternals.p;
if (0 !== updatePriority) return updatePriority;
updatePriority = window.event;
return void 0 === updatePriority ? 32 : getEventPriority(updatePriority.type);
}
function runWithPriority(priority, fn) {
var previousPriority = ReactDOMSharedInternals.p;
try {
return ReactDOMSharedInternals.p = priority, fn();
} finally {
ReactDOMSharedInternals.p = previousPriority;
}
}
var randomKey = Math.random().toString(36).slice(2), internalInstanceKey = "__reactFiber$" + randomKey, internalPropsKey = "__reactProps$" + randomKey, internalContainerInstanceKey = "__reactContainer$" + randomKey, internalEventHandlersKey = "__reactEvents$" + randomKey, internalEventHandlerListenersKey = "__reactListeners$" + randomKey, internalEventHandlesSetKey = "__reactHandles$" + randomKey, internalRootNodeResourcesKey = "__reactResources$" + randomKey, internalHoistableMarker = "__reactMarker$" + randomKey;
function detachDeletedInstance(node) {
delete node[internalInstanceKey];
delete node[internalPropsKey];
delete node[internalEventHandlersKey];
delete node[internalEventHandlerListenersKey];
delete node[internalEventHandlesSetKey];
}
function getClosestInstanceFromNode(targetNode) {
var targetInst = targetNode[internalInstanceKey];
if (targetInst) return targetInst;
for (var parentNode = targetNode.parentNode; parentNode; ) {
if (targetInst = parentNode[internalContainerInstanceKey] || parentNode[internalInstanceKey]) {
parentNode = targetInst.alternate;
if (null !== targetInst.child || null !== parentNode && null !== parentNode.child)
for (targetNode = getParentSuspenseInstance(targetNode); null !== targetNode; ) {
if (parentNode = targetNode[internalInstanceKey]) return parentNode;
targetNode = getParentSuspenseInstance(targetNode);
}
return targetInst;
}
targetNode = parentNode;
parentNode = targetNode.parentNode;
}
return null;
}
function getInstanceFromNode(node) {
if (node = node[internalInstanceKey] || node[internalContainerInstanceKey]) {
var tag = node.tag;
if (5 === tag || 6 === tag || 13 === tag || 26 === tag || 27 === tag || 3 === tag)
return node;
}
return null;
}
function getNodeFromInstance(inst) {
var tag = inst.tag;
if (5 === tag || 26 === tag || 27 === tag || 6 === tag) return inst.stateNode;
throw Error(formatProdErrorMessage(33));
}
function getResourcesFromRoot(root2) {
var resources = root2[internalRootNodeResourcesKey];
resources || (resources = root2[internalRootNodeResourcesKey] = { hoistableStyles: /* @__PURE__ */ new Map(), hoistableScripts: /* @__PURE__ */ new Map() });
return resources;
}
function markNodeAsHoistable(node) {
node[internalHoistableMarker] = true;
}
var allNativeEvents = /* @__PURE__ */ new Set(), registrationNameDependencies = {};
function registerTwoPhaseEvent(registrationName, dependencies) {
registerDirectEvent(registrationName, dependencies);
registerDirectEvent(registrationName + "Capture", dependencies);
}
function registerDirectEvent(registrationName, dependencies) {
registrationNameDependencies[registrationName] = dependencies;
for (registrationName = 0; registrationName < dependencies.length; registrationName++)
allNativeEvents.add(dependencies[registrationName]);
}
var VALID_ATTRIBUTE_NAME_REGEX = RegExp(
"^[: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][: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\\-.0-9\\u00B7\\u0300-\\u036F\\u203F-\\u2040]*$"
), illegalAttributeNameCache = {}, 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))
return validatedAttributeNameCache[attributeName] = true;
illegalAttributeNameCache[attributeName] = true;
return false;
}
function setValueForAttribute(node, name, value) {
if (isAttributeNameSafe(name))
if (null === value) node.removeAttribute(name);
else {
switch (typeof value) {
case "undefined":
case "function":
case "symbol":
node.removeAttribute(name);
return;
case "boolean":
var prefix$8 = name.toLowerCase().slice(0, 5);
if ("data-" !== prefix$8 && "aria-" !== prefix$8) {
node.removeAttribute(name);
return;
}
}
node.setAttribute(name, "" + value);
}
}
function setValueForKnownAttribute(node, name, value) {
if (null === value) node.removeAttribute(name);
else {
switch (typeof value) {
case "undefined":
case "function":
case "symbol":
case "boolean":
node.removeAttribute(name);
return;
}
node.setAttribute(name, "" + value);
}
}
function setValueForNamespacedAttribute(node, namespace, name, value) {
if (null === value) node.removeAttribute(name);
else {
switch (typeof value) {
case "undefined":
case "function":
case "symbol":
case "boolean":
node.removeAttribute(name);
return;
}
node.setAttributeNS(namespace, name, "" + value);
}
}
var prefix, suffix;
function describeBuiltInComponentFrame(name) {
if (void 0 === prefix)
try {
throw Error();
} catch (x) {
var match = x.stack.trim().match(/\n( *(at )?)/);
prefix = match && match[1] || "";
suffix = -1 < x.stack.indexOf("\n at") ? " (<anonymous>)" : -1 < x.stack.indexOf("@") ? "@unknown:0:0" : "";
}
return "\n" + prefix + name + suffix;
}
var reentry = false;
function describeNativeComponentFrame(fn, construct) {
if (!fn || reentry) return "";
reentry = true;
var previousPrepareStackTrace = Error.prepareStackTrace;
Error.prepareStackTrace = void 0;
try {
var RunInRootFrame = {
DetermineComponentFrameRoot: function() {
try {
if (construct) {
var Fake = function() {
throw Error();
};
Object.defineProperty(Fake.prototype, "props", {
set: function() {
throw Error();
}
});
if ("object" === typeof Reflect && Reflect.construct) {
try {
Reflect.construct(Fake, []);
} catch (x) {
var control = x;
}
Reflect.construct(fn, [], Fake);
} else {
try {
Fake.call();
} catch (x$9) {
control = x$9;
}
fn.call(Fake.prototype);
}
} else {
try {
throw Error();
} catch (x$10) {
control = x$10;
}
(Fake = fn()) && "function" === typeof Fake.catch && Fake.catch(function() {
});
}
} catch (sample) {
if (sample && control && "string" === typeof sample.stack)
return [sample.stack, control.stack];
}
return [null, null];
}
};
RunInRootFrame.DetermineComponentFrameRoot.displayName = "DetermineComponentFrameRoot";
var namePropDescriptor = Object.getOwnPropertyDescriptor(
RunInRootFrame.DetermineComponentFrameRoot,
"name"
);
namePropDescriptor && namePropDescriptor.configurable && Object.defineProperty(
RunInRootFrame.DetermineComponentFrameRoot,
"name",
{ value: "DetermineComponentFrameRoot" }
);
var _RunInRootFrame$Deter = RunInRootFrame.DetermineComponentFrameRoot(), sampleStack = _RunInRootFrame$Deter[0], controlStack = _RunInRootFrame$Deter[1];
if (sampleStack && controlStack) {
var sampleLines = sampleStack.split("\n"), controlLines = controlStack.split("\n");
for (namePropDescriptor = RunInRootFrame = 0; RunInRootFrame < sampleLines.length && !sampleLines[RunInRootFrame].includes("DetermineComponentFrameRoot"); )
RunInRootFrame++;
for (; namePropDescriptor < controlLines.length && !controlLines[namePropDescriptor].includes(
"DetermineComponentFrameRoot"
); )
namePropDescriptor++;
if (RunInRootFrame === sampleLines.length || namePropDescriptor === controlLines.length)
for (RunInRootFrame = sampleLines.length - 1, namePropDescriptor = controlLines.length - 1; 1 <= RunInRootFrame && 0 <= namePropDescriptor && sampleLines[RunInRootFrame] !== controlLines[namePropDescriptor]; )
namePropDescriptor--;
for (; 1 <= RunInRootFrame && 0 <= namePropDescriptor; RunInRootFrame--, namePropDescriptor--)
if (sampleLines[RunInRootFrame] !== controlLines[namePropDescriptor]) {
if (1 !== RunInRootFrame || 1 !== namePropDescriptor) {
do
if (RunInRootFrame--, namePropDescriptor--, 0 > namePropDescriptor || sampleLines[RunInRootFrame] !== controlLines[namePropDescriptor]) {
var frame = "\n" + sampleLines[RunInRootFrame].replace(" at new ", " at ");
fn.displayName && frame.includes("<anonymous>") && (frame = frame.replace("<anonymous>", fn.displayName));
return frame;
}
while (1 <= RunInRootFrame && 0 <= namePropDescriptor);
}
break;
}
}
} finally {
reentry = false, Error.prepareStackTrace = previousPrepareStackTrace;
}
return (previousPrepareStackTrace = fn ? fn.displayName || fn.name : "") ? describeBuiltInComponentFrame(previousPrepareStackTrace) : "";
}
function describeFiber(fiber) {
switch (fiber.tag) {
case 26:
case 27:
case 5:
return describeBuiltInComponentFrame(fiber.type);
case 16:
return describeBuiltInComponentFrame("Lazy");
case 13:
return describeBuiltInComponentFrame("Suspense");
case 19:
return describeBuiltInComponentFrame("SuspenseList");
case 0:
case 15:
return describeNativeComponentFrame(fiber.type, false);
case 11:
return describeNativeComponentFrame(fiber.type.render, false);
case 1:
return describeNativeComponentFrame(fiber.type, true);
case 31:
return describeBuiltInComponentFrame("Activity");
default:
return "";
}
}
function getStackByFiberInDevAndProd(workInProgress2) {
try {
var info = "";
do
info += describeFiber(workInProgress2), workInProgress2 = workInProgress2.return;
while (workInProgress2);
return info;
} catch (x) {
return "\nError generating stack: " + x.message + "\n" + x.stack;
}
}
function getToStringValue(value) {
switch (typeof value) {
case "bigint":
case "boolean":
case "number":
case "string":
case "undefined":
return value;
case "object":
return value;
default:
return "";
}
}
function isCheckable(elem) {
var type = elem.type;
return (elem = elem.nodeName) && "input" === elem.toLowerCase() && ("checkbox" === type || "radio" === type);
}
function trackValueOnNode(node) {
var valueField = isCheckable(node) ? "checked" : "value", descriptor = Object.getOwnPropertyDescriptor(
node.constructor.prototype,
valueField
), currentValue = "" + node[valueField];
if (!node.hasOwnProperty(valueField) && "undefined" !== typeof descriptor && "function" === typeof descriptor.get && "function" === typeof descriptor.set) {
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
});
return {
getValue: function() {
return currentValue;
},
setValue: function(value) {
currentValue = "" + value;
},
stopTracking: function() {
node._valueTracker = null;
delete node[valueField];
}
};
}
}
function track(node) {
node._valueTracker || (node._valueTracker = trackValueOnNode(node));
}
function updateValueIfChanged(node) {
if (!node) return false;
var tracker = node._valueTracker;
if (!tracker) return true;
var lastValue = tracker.getValue();
var value = "";
node && (value = isCheckable(node) ? node.checked ? "true" : "false" : node.value);
node = value;
return node !== lastValue ? (tracker.setValue(node), true) : false;
}
function getActiveElement(doc) {
doc = doc || ("undefined" !== typeof document ? document : void 0);
if ("undefined" === typeof doc) return null;
try {
return doc.activeElement || doc.body;
} catch (e) {
return doc.body;
}
}
var escapeSelectorAttributeValueInsideDoubleQuotesRegex = /[\n"\\]/g;
function escapeSelectorAttributeValueInsideDoubleQuotes(value) {
return value.replace(
escapeSelectorAttributeValueInsideDoubleQuotesRegex,
function(ch) {
return "\\" + ch.charCodeAt(0).toString(16) + " ";
}
);
}
function updateInput(element, value, defaultValue, lastDefaultValue, checked, defaultChecked, type, name) {
element.name = "";
null != type && "function" !== typeof type && "symbol" !== typeof type && "boolean" !== typeof type ? element.type = type : element.removeAttribute("type");
if (null != value)
if ("number" === type) {
if (0 === value && "" === element.value || element.value != value)
element.value = "" + getToStringValue(value);
} else
element.value !== "" + getToStringValue(value) && (element.value = "" + getToStringValue(value));
else
"submit" !== type && "reset" !== type || element.removeAttribute("value");
null != value ? setDefaultValue(element, type, getToStringValue(value)) : null != defaultValue ? setDefaultValue(element, type, getToStringValue(defaultValue)) : null != lastDefaultValue && element.removeAttribute("value");
null == checked && null != defaultChecked && (element.defaultChecked = !!defaultChecked);
null != checked && (element.checked = checked && "function" !== typeof checked && "symbol" !== typeof checked);
null != name && "function" !== typeof name && "symbol" !== typeof name && "boolean" !== typeof name ? element.name = "" + getToStringValue(name) : element.removeAttribute("name");
}
function initInput(element, value, defaultValue, checked, defaultChecked, type, name, isHydrating2) {
null != type && "function" !== typeof type && "symbol" !== typeof type && "boolean" !== typeof type && (element.type = type);
if (null != value || null != defaultValue) {
if (!("submit" !== type && "reset" !== type || void 0 !== value && null !== value))
return;
defaultValue = null != defaultValue ? "" + getToStringValue(defaultValue) : "";
value = null != value ? "" + getToStringValue(value) : defaultValue;
isHydrating2 || value === element.value || (element.value = value);
element.defaultValue = value;
}
checked = null != checked ? checked : defaultChecked;
checked = "function" !== typeof checked && "symbol" !== typeof checked && !!checked;
element.checked = isHydrating2 ? element.checked : !!checked;
element.defaultChecked = !!checked;
null != name && "function" !== typeof name && "symbol" !== typeof name && "boolean" !== typeof name && (element.name = name);
}
function setDefaultValue(node, type, value) {
"number" === type && getActiveElement(node.ownerDocument) === node || node.defaultValue === "" + value || (node.defaultValue = "" + value);
}
function updateOptions(node, multiple, propValue, setDefaultSelected) {
node = node.options;
if (multiple) {
multiple = {};
for (var i = 0; i < propValue.length; i++)
multiple["$" + propValue[i]] = true;
for (propValue = 0; propValue < node.length; propValue++)
i = multiple.hasOwnProperty("$" + node[propValue].value), node[propValue].selected !== i && (node[propValue].selected = i), i && setDefaultSelected && (node[propValue].defaultSelected = true);
} else {
propValue = "" + getToStringValue(propValue);
multiple = null;
for (i = 0; i < node.length; i++) {
if (node[i].value === propValue) {
node[i].selected = true;
setDefaultSelected && (node[i].defaultSelected = true);
return;
}
null !== multiple || node[i].disabled || (multiple = node[i]);
}
null !== multiple && (multiple.selected = true);
}
}
function updateTextarea(element, value, defaultValue) {
if (null != value && (value = "" + getToStringValue(value), value !== element.value && (element.value = value), null == defaultValue)) {
element.defaultValue !== value && (element.defaultValue = value);
return;
}
element.defaultValue = null != defaultValue ? "" + getToStringValue(defaultValue) : "";
}
function initTextarea(element, value, defaultValue, children) {
if (null == value) {
if (null != children) {
if (null != defaultValue) throw Error(formatProdErrorMessage(92));
if (isArrayImpl(children)) {
if (1 < children.length) throw Error(formatProdErrorMessage(93));
children = children[0];
}
defaultValue = children;
}
null == defaultValue && (defaultValue = "");
value = defaultValue;
}
defaultValue = getToStringValue(value);
element.defaultValue = defaultValue;
children = element.textContent;
children === defaultValue && "" !== children && null !== children && (element.value = children);
}
function setTextContent(node, text2) {
if (text2) {
var firstChild = node.firstChild;
if (firstChild && firstChild === node.lastChild && 3 === firstChild.nodeType) {
firstChild.nodeValue = text2;
return;
}
}
node.textContent = text2;
}
var unitlessNumbers = new Set(
"animationIterationCount aspectRatio borderImageOutset borderImageSlice borderImageWidth boxFlex boxFlexGroup boxOrdinalGroup columnCount columns flex flexGrow flexPositive flexShrink flexNegative flexOrder gridArea gridRow gridRowEnd gridRowSpan gridRowStart gridColumn gridColumnEnd gridColumnSpan gridColumnStart fontWeight lineClamp lineHeight opacity order orphans scale tabSize widows zIndex zoom fillOpacity floodOpacity stopOpacity strokeDasharray strokeDashoffset strokeMiterlimit strokeOpacity strokeWidth MozAnimationIterationCount MozBoxFlex MozBoxFlexGroup MozLineClamp msAnimationIterationCount msFlex msZoom msFlexGrow msFlexNegative msFlexOrder msFlexPositive msFlexShrink msGridColumn msGridColumnSpan msGridRow msGridRowSpan WebkitAnimationIterationCount WebkitBoxFlex WebKitBoxFlexGroup WebkitBoxOrdinalGroup WebkitColumnCount WebkitColumns WebkitFlex WebkitFlexGrow WebkitFlexPositive WebkitFlexShrink WebkitLineClamp".split(
" "
)
);
function setValueForStyle(style2, styleName, value) {
var isCustomProperty = 0 === styleName.indexOf("--");
null == value || "boolean" === typeof value || "" === value ? isCustomProperty ? style2.setProperty(styleName, "") : "float" === styleName ? style2.cssFloat = "" : style2[styleName] = "" : isCustomProperty ? style2.setProperty(styleName, value) : "number" !== typeof value || 0 === value || unitlessNumbers.has(styleName) ? "float" === styleName ? style2.cssFloat = value : style2[styleName] = ("" + value).trim() : style2[styleName] = value + "px";
}
function setValueForStyles(node, styles, prevStyles) {
if (null != styles && "object" !== typeof styles)
throw Error(formatProdErrorMessage(62));
node = node.style;
if (null != prevStyles) {
for (var styleName in prevStyles)
!prevStyles.hasOwnProperty(styleName) || null != styles && styles.hasOwnProperty(styleName) || (0 === styleName.indexOf("--") ? node.setProperty(styleName, "") : "float" === styleName ? node.cssFloat = "" : node[styleName] = "");
for (var styleName$16 in styles)
styleName = styles[styleName$16], styles.hasOwnProperty(styleName$16) && prevStyles[styleName$16] !== styleName && setValueForStyle(node, styleName$16, styleName);
} else
for (var styleName$17 in styles)
styles.hasOwnProperty(styleName$17) && setValueForStyle(node, styleName$17, styles[styleName$17]);
}
function isCustomElement(tagName) {
if (-1 === tagName.indexOf("-")) return false;
switch (tagName) {
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;
}
}
var aliases = /* @__PURE__ */ new Map([
["acceptCharset", "accept-charset"],
["htmlFor", "for"],
["httpEquiv", "http-equiv"],
["crossOrigin", "crossorigin"],
["accentHeight", "accent-height"],
["alignmentBaseline", "alignment-baseline"],
["arabicForm", "arabic-form"],
["baselineShift", "baseline-shift"],
["capHeight", "cap-height"],
["clipPath", "clip-path"],
["clipRule", "clip-rule"],
["colorInterpolation", "color-interpolation"],
["colorInterpolationFilters", "color-interpolation-filters"],
["colorProfile", "color-profile"],
["colorRendering", "color-rendering"],
["dominantBaseline", "dominant-baseline"],
["enableBackground", "enable-background"],
["fillOpacity", "fill-opacity"],
["fillRule", "fill-rule"],
["floodColor", "flood-color"],
["floodOpacity", "flood-opacity"],
["fontFamily", "font-family"],
["fontSize", "font-size"],
["fontSizeAdjust", "font-size-adjust"],
["fontStretch", "font-stretch"],
["fontStyle", "font-style"],
["fontVariant", "font-variant"],
["fontWeight", "font-weight"],
["glyphName", "glyph-name"],
["glyphOrientationHorizontal", "glyph-orientation-horizontal"],
["glyphOrientationVertical", "glyph-orientation-vertical"],
["horizAdvX", "horiz-adv-x"],
["horizOriginX", "horiz-origin-x"],
["imageRendering", "image-rendering"],
["letterSpacing", "letter-spacing"],
["lightingColor", "lighting-color"],
["markerEnd", "marker-end"],
["markerMid", "marker-mid"],
["markerStart", "marker-start"],
["overlinePosition", "overline-position"],
["overlineThickness", "overline-thickness"],
["paintOrder", "paint-order"],
["panose-1", "panose-1"],
["pointerEvents", "pointer-events"],
["renderingIntent", "rendering-intent"],
["shapeRendering", "shape-rendering"],
["stopColor", "stop-color"],
["stopOpacity", "stop-opacity"],
["strikethroughPosition", "strikethrough-position"],
["strikethroughThickness", "strikethrough-thickness"],
["strokeDasharray", "stroke-dasharray"],
["strokeDashoffset", "stroke-dashoffset"],
["strokeLinecap", "stroke-linecap"],
["strokeLinejoin", "stroke-linejoin"],
["strokeMiterlimit", "stroke-miterlimit"],
["strokeOpacity", "stroke-opacity"],
["strokeWidth", "stroke-width"],
["textAnchor", "text-anchor"],
["textDecoration", "text-decoration"],
["textRendering", "text-rendering"],
["transformOrigin", "transform-origin"],
["underlinePosition", "underline-position"],
["underlineThickness", "underline-thickness"],
["unicodeBidi", "unicode-bidi"],
["unicodeRange", "unicode-range"],
["unitsPerEm", "units-per-em"],
["vAlphabetic", "v-alphabetic"],
["vHanging", "v-hanging"],
["vIdeographic", "v-ideographic"],
["vMathematical", "v-mathematical"],
["vectorEffect", "vector-effect"],
["vertAdvY", "vert-adv-y"],
["vertOriginX", "vert-origin-x"],
["vertOriginY", "vert-origin-y"],
["wordSpacing", "word-spacing"],
["writingMode", "writing-mode"],
["xmlnsXlink", "xmlns:xlink"],
["xHeight", "x-height"]
]), 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;
function sanitizeURL(url) {
return isJavaScriptProtocol.test("" + url) ? "javascript:throw new Error('React has blocked a javascript: URL as a security precaution.')" : url;
}
var currentReplayingEvent = null;
function getEventTarget(nativeEvent) {
nativeEvent = nativeEvent.target || nativeEvent.srcElement || window;
nativeEvent.correspondingUseElement && (nativeEvent = nativeEvent.correspondingUseElement);
return 3 === nativeEvent.nodeType ? nativeEvent.parentNode : nativeEvent;
}
var restoreTarget = null, restoreQueue = null;
function restoreStateOfTarget(target) {
var internalInstance = getInstanceFromNode(target);
if (internalInstance && (target = internalInstance.stateNode)) {
var props = target[internalPropsKey] || null;
a: switch (target = internalInstance.stateNode, internalInstance.type) {
case "input":
updateInput(
target,
props.value,
props.defaultValue,
props.defaultValue,
props.checked,
props.defaultChecked,
props.type,
props.name
);
internalInstance = props.name;
if ("radio" === props.type && null != internalInstance) {
for (props = target; props.parentNode; ) props = props.parentNode;
props = props.querySelectorAll(
'input[name="' + escapeSelectorAttributeValueInsideDoubleQuotes(
"" + internalInstance
) + '"][type="radio"]'
);
for (internalInstance = 0; internalInstance < props.length; internalInstance++) {
var otherNode = props[internalInstance];
if (otherNode !== target && otherNode.form === target.form) {
var otherProps = otherNode[internalPropsKey] || null;
if (!otherProps) throw Error(formatProdErrorMessage(90));
updateInput(
otherNode,
otherProps.value,
otherProps.defaultValue,
otherProps.defaultValue,
otherProps.checked,
otherProps.defaultChecked,
otherProps.type,
otherProps.name
);
}
}
for (internalInstance = 0; internalInstance < props.length; internalInstance++)
otherNode = props[internalInstance], otherNode.form === target.form && updateValueIfChanged(otherNode);
}
break a;
case "textarea":
updateTextarea(target, props.value, props.defaultValue);
break a;
case "select":
internalInstance = props.value, null != internalInstance && updateOptions(target, !!props.multiple, internalInstance, false);
}
}
}
var isInsideEventHandler = false;
function batchedUpdates$1(fn, a, b) {
if (isInsideEventHandler) return fn(a, b);
isInsideEventHandler = true;
try {
var JSCompiler_inline_result = fn(a);
return JSCompiler_inline_result;
} finally {
if (isInsideEventHandler = false, null !== restoreTarget || null !== restoreQueue) {
if (flushSyncWork$1(), restoreTarget && (a = restoreTarget, fn = restoreQueue, restoreQueue = restoreTarget = null, restoreStateOfTarget(a), fn))
for (a = 0; a < fn.length; a++) restoreStateOfTarget(fn[a]);
}
}
}
function getListener(inst, registrationName) {
var stateNode = inst.stateNode;
if (null === stateNode) return null;
var props = stateNode[internalPropsKey] || null;
if (null === props) return null;
stateNode = props[registrationName];
a: switch (registrationName) {
case "onClick":
case "onClickCapture":
case "onDoubleClick":
case "onDoubleClickCapture":
case "onMouseDown":
case "onMouseDownCapture":
case "onMouseMove":
case "onMouseMoveCapture":
case "onMouseUp":
case "onMouseUpCapture":
case "onMouseEnter":
(props = !props.disabled) || (inst = inst.type, props = !("button" === inst || "input" === inst || "select" === inst || "textarea" === inst));
inst = !props;
break a;
default:
inst = false;
}
if (inst) return null;
if (stateNode && "function" !== typeof stateNode)
throw Error(
formatProdErrorMessage(231, registrationName, typeof stateNode)
);
return stateNode;
}
var canUseDOM = !("undefined" === typeof window || "undefined" === typeof window.document || "undefined" === typeof window.document.createElement), passiveBrowserEventsSupported = false;
if (canUseDOM)
try {
var options = {};
Object.defineProperty(options, "passive", {
get: function() {
passiveBrowserEventsSupported = true;
}
});
window.addEventListener("test", options, options);
window.removeEventListener("test", options, options);
} catch (e) {
passiveBrowserEventsSupported = false;
}
var root = null, startText = null, fallbackText = null;
function getData() {
if (fallbackText) return fallbackText;
var start, startValue = startText, startLength = startValue.length, end, endValue = "value" in root ? root.value : root.textContent, endLength = endValue.length;
for (start = 0; start < startLength && startValue[start] === endValue[start]; start++) ;
var minEnd = startLength - start;
for (end = 1; end <= minEnd && startValue[startLength - end] === endValue[endLength - end]; end++) ;
return fallbackText = endValue.slice(start, 1 < end ? 1 - end : void 0);
}
function getEventCharCode(nativeEvent) {
var keyCode = nativeEvent.keyCode;
"charCode" in nativeEvent ? (nativeEvent = nativeEvent.charCode, 0 === nativeEvent && 13 === keyCode && (nativeEvent = 13)) : nativeEvent = keyCode;
10 === nativeEvent && (nativeEvent = 13);
return 32 <= nativeEvent || 13 === nativeEvent ? nativeEvent : 0;
}
function functionThatReturnsTrue() {
return true;
}
function functionThatReturnsFalse() {
return false;
}
function createSyntheticEvent(Interface) {
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)
Interface.hasOwnProperty(propName) && (reactName = Interface[propName], this[propName] = reactName ? reactName(nativeEvent) : nativeEvent[propName]);
this.isDefaultPrevented = (null != nativeEvent.defaultPrevented ? nativeEvent.defaultPrevented : false === nativeEvent.returnValue) ? functionThatReturnsTrue : functionThatReturnsFalse;
this.isPropagationStopped = functionThatReturnsFalse;
return this;
}
assign(SyntheticBaseEvent.prototype, {
preventDefault: function() {
this.defaultPrevented = true;
var event = this.nativeEvent;
event && (event.preventDefault ? event.preventDefault() : "unknown" !== typeof event.returnValue && (event.returnValue = false), this.isDefaultPrevented = functionThatReturnsTrue);
},
stopPropagation: function() {
var event = this.nativeEvent;
event && (event.stopPropagation ? event.stopPropagation() : "unknown" !== typeof event.cancelBubble && (event.cancelBubble = true), this.isPropagationStopped = functionThatReturnsTrue);
},
persist: function() {
},
isPersistent: functionThatReturnsTrue
});
return SyntheticBaseEvent;
}
var EventInterface = {
eventPhase: 0,
bubbles: 0,
cancelable: 0,
timeStamp: function(event) {
return event.timeStamp || Date.now();
},
defaultPrevented: 0,
isTrusted: 0
}, SyntheticEvent = createSyntheticEvent(EventInterface), UIEventInterface = assign({}, EventInterface, { view: 0, detail: 0 }), SyntheticUIEvent = createSyntheticEvent(UIEventInterface), lastMovementX, lastMovementY, lastMouseEvent, 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) {
return void 0 === event.relatedTarget ? event.fromElement === event.srcElement ? event.toElement : event.fromElement : event.relatedTarget;
},
movementX: function(event) {
if ("movementX" in event) return event.movementX;
event !== lastMouseEvent && (lastMouseEvent && "mousemove" === event.type ? (lastMovementX = event.screenX - lastMouseEvent.screenX, lastMovementY = event.screenY - lastMouseEvent.screenY) : lastMovementY = lastMovementX = 0, lastMouseEvent = event);
return lastMovementX;
},
movementY: function(event) {
return "movementY" in event ? event.movementY : lastMovementY;
}
}), SyntheticMouseEvent = createSyntheticEvent(MouseEventInterface), DragEventInterface = assign({}, MouseEventInterface, { dataTransfer: 0 }), SyntheticDragEvent = createSyntheticEvent(DragEventInterface), FocusEventInterface = assign({}, UIEventInterface, { relatedTarget: 0 }), SyntheticFocusEvent = createSyntheticEvent(FocusEventInterface), AnimationEventInterface = assign({}, EventInterface, {
animationName: 0,
elapsedTime: 0,
pseudoElement: 0
}), SyntheticAnimationEvent = createSyntheticEvent(AnimationEventInterface), ClipboardEventInterface = assign({}, EventInterface, {
clipboardData: function(event) {
return "clipboardData" in event ? event.clipboardData : window.clipboardData;
}
}), SyntheticClipboardEvent = createSyntheticEvent(ClipboardEventInterface), CompositionEventInterface = assign({}, EventInterface, { data: 0 }), SyntheticCompositionEvent = createSyntheticEvent(CompositionEventInterface), normalizeKey = {
Esc: "Escape",
Spacebar: " ",
Left: "ArrowLeft",
Up: "ArrowUp",
Right: "ArrowRight",
Down: "ArrowDown",
Del: "Delete",
Win: "OS",
Menu: "ContextMenu",
Apps: "ContextMenu",
Scroll: "ScrollLock",
MozPrintableKey: "Unidentified"
}, 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"
}, modifierKeyToProp = {
Alt: "altKey",
Control: "ctrlKey",
Meta: "metaKey",
Shift: "shiftKey"
};
function modifierStateGetter(keyArg) {
var nativeEvent = this.nativeEvent;
return nativeEvent.getModifierState ? nativeEvent.getModifierState(keyArg) : (keyArg = modifierKeyToProp[keyArg]) ? !!nativeEvent[keyArg] : false;
}
function getEventModifierState() {
return modifierStateGetter;
}
var KeyboardEventInterface = assign({}, UIEventInterface, {
key: function(nativeEvent) {
if (nativeEvent.key) {
var key = normalizeKey[nativeEvent.key] || nativeEvent.key;
if ("Unidentified" !== key) return key;
}
return "keypress" === nativeEvent.type ? (nativeEvent = getEventCharCode(nativeEvent), 13 === nativeEvent ? "Enter" : String.fromCharCode(nativeEvent)) : "keydown" === nativeEvent.type || "keyup" === nativeEvent.type ? translateToKey[nativeEvent.keyCode] || "Unidentified" : "";
},
code: 0,
location: 0,
ctrlKey: 0,
shiftKey: 0,
altKey: 0,
metaKey: 0,
repeat: 0,
locale: 0,
getModifierState: getEventModifierState,
charCode: function(event) {
return "keypress" === event.type ? getEventCharCode(event) : 0;
},
keyCode: function(event) {
return "keydown" === event.type || "keyup" === event.type ? event.keyCode : 0;
},
which: function(event) {
return "keypress" === event.type ? getEventCharCode(event) : "keydown" === event.type || "keyup" === event.type ? event.keyCode : 0;
}
}), SyntheticKeyboardEvent = createSyntheticEvent(KeyboardEventInterface), PointerEventInterface = assign({}, MouseEventInterface, {
pointerId: 0,
width: 0,
height: 0,
pressure: 0,
tangentialPressure: 0,
tiltX: 0,
tiltY: 0,
twist: 0,
pointerType: 0,
isPrimary: 0
}), SyntheticPointerEvent = createSyntheticEvent(PointerEventInterface), TouchEventInterface = assign({}, UIEventInterface, {
touches: 0,
targetTouches: 0,
changedTouches: 0,
altKey: 0,
metaKey: 0,
ctrlKey: 0,
shiftKey: 0,
getModifierState: getEventModifierState
}), SyntheticTouchEvent = createSyntheticEvent(TouchEventInterface), TransitionEventInterface = assign({}, EventInterface, {
propertyName: 0,
elapsedTime: 0,
pseudoElement: 0
}), SyntheticTransitionEvent = createSyntheticEvent(TransitionEventInterface), WheelEventInterface = assign({}, MouseEventInterface, {
deltaX: function(event) {
return "deltaX" in event ? event.deltaX : "wheelDeltaX" in event ? -event.wheelDeltaX : 0;
},
deltaY: function(event) {
return "deltaY" in event ? event.deltaY : "wheelDeltaY" in event ? -event.wheelDeltaY : "wheelDelta" in event ? -event.wheelDelta : 0;
},
deltaZ: 0,
deltaMode: 0
}), SyntheticWheelEvent = createSyntheticEvent(WheelEventInterface), ToggleEventInterface = assign({}, EventInterface, {
newState: 0,
oldState: 0
}), SyntheticToggleEvent = createSyntheticEvent(ToggleEventInterface), END_KEYCODES = [9, 13, 27, 32], canUseCompositionEvent = canUseDOM && "CompositionEvent" in window, documentMode = null;
canUseDOM && "documentMode" in document && (documentMode = document.documentMode);
var canUseTextInputEvent = canUseDOM && "TextEvent" in window && !documentMode, useFallbackCompositionData = canUseDOM && (!canUseCompositionEvent || documentMode && 8 < documentMode && 11 >= documentMode), SPACEBAR_CHAR = String.fromCharCode(32), hasSpaceKeypress = false;
function isFallbackCompositionEnd(domEventName, nativeEvent) {
switch (domEventName) {
case "keyup":
return -1 !== END_KEYCODES.indexOf(nativeEvent.keyCode);
case "keydown":
return 229 !== nativeEvent.keyCode;
case "keypress":
case "mousedown":
case "focusout":
return true;
default:
return false;
}
}
function getDataFromCustomEvent(nativeEvent) {
nativeEvent = nativeEvent.detail;
return "object" === typeof nativeEvent && "data" in nativeEvent ? nativeEvent.data : null;
}
var isComposing = false;
function getNativeBeforeInputChars(domEventName, nativeEvent) {
switch (domEventName) {
case "compositionend":
return getDataFromCustomEvent(nativeEvent);
case "keypress":
if (32 !== nativeEvent.which) return null;
hasSpaceKeypress = true;
return SPACEBAR_CHAR;
case "textInput":
return domEventName = nativeEvent.data, domEventName === SPACEBAR_CHAR && hasSpaceKeypress ? null : domEventName;
default:
return null;
}
}
function getFallbackBeforeInputChars(domEventName, nativeEvent) {
if (isComposing)
return "compositionend" === domEventName || !canUseCompositionEvent && isFallbackCompositionEnd(domEventName, nativeEvent) ? (domEventName = getData(), fallbackText = startText = root = null, isComposing = false, domEventName) : null;
switch (domEventName) {
case "paste":
return null;
case "keypress":
if (!(nativeEvent.ctrlKey || nativeEvent.altKey || nativeEvent.metaKey) || nativeEvent.ctrlKey && nativeEvent.altKey) {
if (nativeEvent.char && 1 < nativeEvent.char.length)
return nativeEvent.char;
if (nativeEvent.which) return String.fromCharCode(nativeEvent.which);
}
return null;
case "compositionend":
return useFallbackCompositionData && "ko" !== nativeEvent.locale ? null : nativeEvent.data;
default:
return null;
}
}
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();
return "input" === nodeName ? !!supportedInputTypes[elem.type] : "textarea" === nodeName ? true : false;
}
function createAndAccumulateChangeEvent(dispatchQueue, inst, nativeEvent, target) {
restoreTarget ? restoreQueue ? restoreQueue.push(target) : restoreQueue = [target] : restoreTarget = target;
inst = accumulateTwoPhaseListeners(inst, "onChange");
0 < inst.length && (nativeEvent = new SyntheticEvent(
"onChange",
"change",
null,
nativeEvent,
target
), dispatchQueue.push({ event: nativeEvent, listeners: inst }));
}
var activeElement$1 = null, activeElementInst$1 = null;
function runEventInBatch(dispatchQueue) {
processDispatchQueue(dispatchQueue, 0);
}
function getInstIfValueChanged(targetInst) {
var targetNode = getNodeFromInstance(targetInst);
if (updateValueIfChanged(targetNode)) return targetInst;
}
function getTargetInstForChangeEvent(domEventName, targetInst) {
if ("change" === domEventName) return targetInst;
}
var isInputEventSupported = false;
if (canUseDOM) {
var JSCompiler_inline_result$jscomp$282;
if (canUseDOM) {
var isSupported$jscomp$inline_417 = "oninput" in document;
if (!isSupported$jscomp$inline_417) {
var element$jscomp$inline_418 = document.createElement("div");
element$jscomp$inline_418.setAttribute("oninput", "return;");
isSupported$jscomp$inline_417 = "function" === typeof element$jscomp$inline_418.oninput;
}
JSCompiler_inline_result$jscomp$282 = isSupported$jscomp$inline_417;
} else JSCompiler_inline_result$jscomp$282 = false;
isInputEventSupported = JSCompiler_inline_result$jscomp$282 && (!document.documentMode || 9 < document.documentMode);
}
function stopWatchingForValueChange() {
activeElement$1 && (activeElement$1.detachEvent("onpropertychange", handlePropertyChange), activeElementInst$1 = activeElement$1 = null);
}
function handlePropertyChange(nativeEvent) {
if ("value" === nativeEvent.propertyName && getInstIfValueChanged(activeElementInst$1)) {
var dispatchQueue = [];
createAndAccumulateChangeEvent(
dispatchQueue,
activeElementInst$1,
nativeEvent,
getEventTarget(nativeEvent)
);
batchedUpdates$1(runEventInBatch, dispatchQueue);
}
}
function handleEventsForInputEventPolyfill(domEventName, target, targetInst) {
"focusin" === domEventName ? (stopWatchingForValueChange(), activeElement$1 = target, activeElementInst$1 = targetInst, activeElement$1.attachEvent("onpropertychange", handlePropertyChange)) : "focusout" === domEventName && stopWatchingForValueChange();
}
function getTargetInstForInputEventPolyfill(domEventName) {
if ("selectionchange" === domEventName || "keyup" === domEventName || "keydown" === domEventName)
return getInstIfValueChanged(activeElementInst$1);
}
function getTargetInstForClickEvent(domEventName, targetInst) {
if ("click" === domEventName) return getInstIfValueChanged(targetInst);
}
function getTargetInstForInputOrChangeEvent(domEventName, targetInst) {
if ("input" === domEventName || "change" === domEventName)
return getInstIfValueChanged(targetInst);
}
function is(x, y) {
return x === y && (0 !== x || 1 / x === 1 / y) || x !== x && y !== y;
}
var objectIs = "function" === typeof Object.is ? Object.is : is;
function shallowEqual(objA, objB) {
if (objectIs(objA, objB)) return true;
if ("object" !== typeof objA || null === objA || "object" !== typeof objB || null === objB)
return false;
var keysA = Object.keys(objA), keysB = Object.keys(objB);
if (keysA.length !== keysB.length) return false;
for (keysB = 0; keysB < keysA.length; keysB++) {
var currentKey = keysA[keysB];
if (!hasOwnProperty.call(objB, currentKey) || !objectIs(objA[currentKey], objB[currentKey]))
return false;
}
return true;
}
function getLeafNode(node) {
for (; node && node.firstChild; ) node = node.firstChild;
return node;
}
function getNodeForCharacterOffset(root2, offset) {
var node = getLeafNode(root2);
root2 = 0;
for (var nodeEnd; node; ) {
if (3 === node.nodeType) {
nodeEnd = root2 + node.textContent.length;
if (root2 <= offset && nodeEnd >= offset)
return { node, offset: offset - root2 };
root2 = nodeEnd;
}
a: {
for (; node; ) {
if (node.nextSibling) {
node = node.nextSibling;
break a;
}
node = node.parentNode;
}
node = void 0;
}
node = getLeafNode(node);
}
}
function containsNode(outerNode, innerNode) {
return outerNode && innerNode ? outerNode === innerNode ? true : outerNode && 3 === outerNode.nodeType ? false : innerNode && 3 === innerNode.nodeType ? containsNode(outerNode, innerNode.parentNode) : "contains" in outerNode ? outerNode.contains(innerNode) : outerNode.compareDocumentPosition ? !!(outerNode.compareDocumentPosition(innerNode) & 16) : false : false;
}
function getActiveElementDeep(containerInfo) {
containerInfo = null != containerInfo && null != containerInfo.ownerDocument && null != containerInfo.ownerDocument.defaultView ? containerInfo.ownerDocument.defaultView : window;
for (var element = getActiveElement(containerInfo.document); element instanceof containerInfo.HTMLIFrameElement; ) {
try {
var JSCompiler_inline_result = "string" === typeof element.contentWindow.location.href;
} catch (err) {
JSCompiler_inline_result = false;
}
if (JSCompiler_inline_result) containerInfo = element.contentWindow;
else break;
element = getActiveElement(containerInfo.document);
}
return element;
}
function hasSelectionCapabilities(elem) {
var nodeName = elem && elem.nodeName && elem.nodeName.toLowerCase();
return nodeName && ("input" === nodeName && ("text" === elem.type || "search" === elem.type || "tel" === elem.type || "url" === elem.type || "password" === elem.type) || "textarea" === nodeName || "true" === elem.contentEditable);
}
var skipSelectionChangeEvent = canUseDOM && "documentMode" in document && 11 >= document.documentMode, activeElement = null, activeElementInst = null, lastSelection = null, mouseDown = false;
function constructSelectEvent(dispatchQueue, nativeEvent, nativeEventTarget) {
var doc = nativeEventTarget.window === nativeEventTarget ? nativeEventTarget.document : 9 === nativeEventTarget.nodeType ? nativeEventTarget : nativeEventTarget.ownerDocument;
mouseDown || null == activeElement || activeElement !== getActiveElement(doc) || (doc = activeElement, "selectionStart" in doc && hasSelectionCapabilities(doc) ? doc = { start: doc.selectionStart, end: doc.selectionEnd } : (doc = (doc.ownerDocument && doc.ownerDocument.defaultView || window).getSelection(), doc = {
anchorNode: doc.anchorNode,
anchorOffset: doc.anchorOffset,
focusNode: doc.focusNode,
focusOffset: doc.focusOffset
}), lastSelection && shallowEqual(lastSelection, doc) || (lastSelection = doc, doc = accumulateTwoPhaseListeners(activeElementInst, "onSelect"), 0 < doc.length && (nativeEvent = new SyntheticEvent(
"onSelect",
"select",
null,
nativeEvent,
nativeEventTarget
), dispatchQueue.push({ event: nativeEvent, listeners: doc }), nativeEvent.target = activeElement)));
}
function makePrefixMap(styleProp, eventName) {
var prefixes = {};
prefixes[styleProp.toLowerCase()] = eventName.toLowerCase();
prefixes["Webkit" + styleProp] = "webkit" + eventName;
prefixes["Moz" + styleProp] = "moz" + eventName;
return prefixes;
}
var vendorPrefixes = {
animationend: makePrefixMap("Animation", "AnimationEnd"),
animationiteration: makePrefixMap("Animation", "AnimationIteration"),
animationstart: makePrefixMap("Animation", "AnimationStart"),
transitionrun: makePrefixMap("Transition", "TransitionRun"),
transitionstart: makePrefixMap("Transition", "TransitionStart"),
transitioncancel: makePrefixMap("Transition", "TransitionCancel"),
transitionend: makePrefixMap("Transition", "TransitionEnd")
}, prefixedEventNames = {}, style = {};
canUseDOM && (style = document.createElement("div").style, "AnimationEvent" in window || (delete vendorPrefixes.animationend.animation, delete vendorPrefixes.animationiteration.animation, delete vendorPrefixes.animationstart.animation), "TransitionEvent" in window || delete vendorPrefixes.transitionend.transition);
function getVendorPrefixedEventName(eventName) {
if (prefixedEventNames[eventName]) return prefixedEventNames[eventName];
if (!vendorPrefixes[eventName]) return eventName;
var prefixMap = vendorPrefixes[eventName], styleProp;
for (styleProp in prefixMap)
if (prefixMap.hasOwnProperty(styleProp) && styleProp in style)
return prefixedEventNames[eventName] = prefixMap[styleProp];
return eventName;
}
var ANIMATION_END = getVendorPrefixedEventName("animationend"), ANIMATION_ITERATION = getVendorPrefixedEventName("animationiteration"), ANIMATION_START = getVendorPrefixedEventName("animationstart"), TRANSITION_RUN = getVendorPrefixedEventName("transitionrun"), TRANSITION_START = getVendorPrefixedEventName("transitionstart"), TRANSITION_CANCEL = getVendorPrefixedEventName("transitioncancel"), TRANSITION_END = getVendorPrefixedEventName("transitionend"), topLevelEventsToReactNames = /* @__PURE__ */ new Map(), simpleEventPluginEvents = "abort auxClick beforeToggle cancel canPlay canPlayThrough click close contextMenu copy cut drag dragEnd dragEnter dragExit dragLeave dragOver dragStart drop durationChange emptied encrypted ended error gotPointerCapture input invalid keyDown keyPress keyUp load loadedData loadedMetadata loadStart lostPointerCapture mouseDown mouseMove mouseOut mouseOver mouseUp paste pause play playing pointerCancel pointerDown pointerMove pointerOut pointerOver pointerUp progress rateChange reset resize seeked seeking stalled submit suspend timeUpdate touchCancel touchEnd touchStart volumeChange scroll toggle touchMove waiting wheel".split(
" "
);
simpleEventPluginEvents.push("scrollEnd");
function registerSimpleEvent(domEventName, reactName) {
topLevelEventsToReactNames.set(domEventName, reactName);
registerTwoPhaseEvent(reactName, [domEventName]);
}
var CapturedStacks = /* @__PURE__ */ new WeakMap();
function createCapturedValueAtFiber(value, source) {
if ("object" === typeof value && null !== value) {
var existing = CapturedStacks.get(value);
if (void 0 !== existing) return existing;
source = {
value,
source,
stack: getStackByFiberInDevAndProd(source)
};
CapturedStacks.set(value, source);
return source;
}
return {
value,
source,
stack: getStackByFiberInDevAndProd(source)
};
}
var concurrentQueues = [], concurrentQueuesIndex = 0, concurrentlyUpdatedLanes = 0;
function finishQueueingConcurrentUpdates() {
for (var endIndex = concurrentQueuesIndex, i = concurrentlyUpdatedLanes = concurrentQueuesIndex = 0; i < endIndex; ) {
var fiber = concurrentQueues[i];
concurrentQueues[i++] = null;
var queue = concurrentQueues[i];
concurrentQueues[i++] = null;
var update = concurrentQueues[i];
concurrentQueues[i++] = null;
var lane = concurrentQueues[i];
concurrentQueues[i++] = null;
if (null !== queue && null !== update) {
var pending = queue.pending;
null === pending ? update.next = update : (update.next = pending.next, pending.next = update);
queue.pending = update;
}
0 !== lane && markUpdateLaneFromFiberToRoot(fiber, update, lane);
}
}
function enqueueUpdate$1(fiber, queue, update, lane) {
concurrentQueues[concurrentQueuesIndex++] = fiber;
concurrentQueues[concurrentQueuesIndex++] = queue;
concurrentQueues[concurrentQueuesIndex++] = update;
concurrentQueues[concurrentQueuesIndex++] = lane;
concurrentlyUpdatedLanes |= lane;
fiber.lanes |= lane;
fiber = fiber.alternate;
null !== fiber && (fiber.lanes |= lane);
}
function enqueueConcurrentHookUpdate(fiber, queue, update, lane) {
enqueueUpdate$1(fiber, queue, update, lane);
return getRootForUpdatedFiber(fiber);
}
function enqueueConcurrentRenderForLane(fiber, lane) {
enqueueUpdate$1(fiber, null, null, lane);
return getRootForUpdatedFiber(fiber);
}
function markUpdateLaneFromFiberToRoot(sourceFiber, update, lane) {
sourceFiber.lanes |= lane;
var alternate = sourceFiber.alternate;
null !== alternate && (alternate.lanes |= lane);
for (var isHidden = false, parent = sourceFiber.return; null !== parent; )
parent.childLanes |= lane, alternate = parent.alternate, null !== alternate && (alternate.childLanes |= lane), 22 === parent.tag && (sourceFiber = parent.stateNode, null === sourceFiber || sourceFiber._visibility & 1 || (isHidden = true)), sourceFiber = parent, parent = parent.return;
return 3 === sourceFiber.tag ? (parent = sourceFiber.stateNode, isHidden && null !== update && (isHidden = 31 - clz32(lane), sourceFiber = parent.hiddenUpdates, alternate = sourceFiber[isHidden], null === alternate ? sourceFiber[isHidden] = [update] : alternate.push(update), update.lane = lane | 536870912), parent) : null;
}
function getRootForUpdatedFiber(sourceFiber) {
if (50 < nestedUpdateCount)
throw nestedUpdateCount = 0, rootWithNestedUpdates = null, Error(formatProdErrorMessage(185));
for (var parent = sourceFiber.return; null !== parent; )
sourceFiber = parent, parent = sourceFiber.return;
return 3 === sourceFiber.tag ? sourceFiber.stateNode : null;
}
var emptyContextObject = {};
function FiberNode(tag, pendingProps, key, mode) {
this.tag = tag;
this.key = key;
this.sibling = this.child = this.return = this.stateNode = this.type = this.elementType = null;
this.index = 0;
this.refCleanup = this.ref = null;
this.pendingProps = pendingProps;
this.dependencies = this.memoizedState = this.updateQueue = this.memoizedProps = null;
this.mode = mode;
this.subtreeFlags = this.flags = 0;
this.deletions = null;
this.childLanes = this.lanes = 0;
this.alternate = null;
}
function createFiberImplClass(tag, pendingProps, key, mode) {
return new FiberNode(tag, pendingProps, key, mode);
}
function shouldConstruct(Component) {
Component = Component.prototype;
return !(!Component || !Component.isReactComponent);
}
function createWorkInProgress(current, pendingProps) {
var workInProgress2 = current.alternate;
null === workInProgress2 ? (workInProgress2 = createFiberImplClass(
current.tag,
pendingProps,
current.key,
current.mode
), workInProgress2.elementType = current.elementType, workInProgress2.type = current.type, workInProgress2.stateNode = current.stateNode, workInProgress2.alternate = current, current.alternate = workInProgress2) : (workInProgress2.pendingProps = pendingProps, workInProgress2.type = current.type, workInProgress2.flags = 0, workInProgress2.subtreeFlags = 0, workInProgress2.deletions = null);
workInProgress2.flags = current.flags & 65011712;
workInProgress2.childLanes = current.childLanes;
workInProgress2.lanes = current.lanes;
workInProgress2.child = current.child;
workInProgress2.memoizedProps = current.memoizedProps;
workInProgress2.memoizedState = current.memoizedState;
workInProgress2.updateQueue = current.updateQueue;
pendingProps = current.dependencies;
workInProgress2.dependencies = null === pendingProps ? null : { lanes: pendingProps.lanes, firstContext: pendingProps.firstContext };
workInProgress2.sibling = current.sibling;
workInProgress2.index = current.index;
workInProgress2.ref = current.ref;
workInProgress2.refCleanup = current.refCleanup;
return workInProgress2;
}
function resetWorkInProgress(workInProgress2, renderLanes2) {
workInProgress2.flags &= 65011714;
var current = workInProgress2.alternate;
null === current ? (workInProgress2.childLanes = 0, workInProgress2.lanes = renderLanes2, workInProgress2.child = null, workInProgress2.subtreeFlags = 0, workInProgress2.memoizedProps = null, workInProgress2.memoizedState = null, workInProgress2.updateQueue = null, workInProgress2.dependencies = null, workInProgress2.stateNode = null) : (workInProgress2.childLanes = current.childLanes, workInProgress2.lanes = current.lanes, workInProgress2.child = current.child, workInProgress2.subtreeFlags = 0, workInProgress2.deletions = null, workInProgress2.memoizedProps = current.memoizedProps, workInProgress2.memoizedState = current.memoizedState, workInProgress2.updateQueue = current.updateQueue, workInProgress2.type = current.type, renderLanes2 = current.dependencies, workInProgress2.dependencies = null === renderLanes2 ? null : {
lanes: renderLanes2.lanes,
firstContext: renderLanes2.firstContext
});
return workInProgress2;
}
function createFiberFromTypeAndProps(type, key, pendingProps, owner, mode, lanes) {
var fiberTag = 0;
owner = type;
if ("function" === typeof type) shouldConstruct(type) && (fiberTag = 1);
else if ("string" === typeof type)
fiberTag = isHostHoistableType(
type,
pendingProps,
contextStackCursor.current
) ? 26 : "html" === type || "head" === type || "body" === type ? 27 : 5;
else
a: switch (type) {
case REACT_ACTIVITY_TYPE:
return type = createFiberImplClass(31, pendingProps, key, mode), type.elementType = REACT_ACTIVITY_TYPE, type.lanes = lanes, type;
case REACT_FRAGMENT_TYPE:
return createFiberFromFragment(pendingProps.children, mode, lanes, key);
case REACT_STRICT_MODE_TYPE:
fiberTag = 8;
mode |= 24;
break;
case REACT_PROFILER_TYPE:
return type = createFiberImplClass(12, pendingProps, key, mode | 2), type.elementType = REACT_PROFILER_TYPE, type.lanes = lanes, type;
case REACT_SUSPENSE_TYPE:
return type = createFiberImplClass(13, pendingProps, key, mode), type.elementType = REACT_SUSPENSE_TYPE, type.lanes = lanes, type;
case REACT_SUSPENSE_LIST_TYPE:
return type = createFiberImplClass(19, pendingProps, key, mode), type.elementType = REACT_SUSPENSE_LIST_TYPE, type.lanes = lanes, type;
default:
if ("object" === typeof type && null !== type)
switch (type.$$typeof) {
case REACT_PROVIDER_TYPE:
case REACT_CONTEXT_TYPE:
fiberTag = 10;
break a;
case REACT_CONSUMER_TYPE:
fiberTag = 9;
break a;
case REACT_FORWARD_REF_TYPE:
fiberTag = 11;
break a;
case REACT_MEMO_TYPE:
fiberTag = 14;
break a;
case REACT_LAZY_TYPE:
fiberTag = 16;
owner = null;
break a;
}
fiberTag = 29;
pendingProps = Error(
formatProdErrorMessage(130, null === type ? "null" : typeof type, "")
);
owner = null;
}
key = createFiberImplClass(fiberTag, pendingProps, key, mode);
key.elementType = type;
key.type = owner;
key.lanes = lanes;
return key;
}
function createFiberFromFragment(elements, mode, lanes, key) {
elements = createFiberImplClass(7, elements, key, mode);
elements.lanes = lanes;
return elements;
}
function createFiberFromText(content, mode, lanes) {
content = createFiberImplClass(6, content, null, mode);
content.lanes = lanes;
return content;
}
function createFiberFromPortal(portal, mode, lanes) {
mode = createFiberImplClass(
4,
null !== portal.children ? portal.children : [],
portal.key,
mode
);
mode.lanes = lanes;
mode.stateNode = {
containerInfo: portal.containerInfo,
pendingChildren: null,
implementation: portal.implementation
};
return mode;
}
var forkStack = [], forkStackIndex = 0, treeForkProvider = null, treeForkCount = 0, idStack = [], idStackIndex = 0, treeContextProvider = null, treeContextId = 1, treeContextOverflow = "";
function pushTreeFork(workInProgress2, totalChildren) {
forkStack[forkStackIndex++] = treeForkCount;
forkStack[forkStackIndex++] = treeForkProvider;
treeForkProvider = workInProgress2;
treeForkCount = totalChildren;
}
function pushTreeId(workInProgress2, totalChildren, index2) {
idStack[idStackIndex++] = treeContextId;
idStack[idStackIndex++] = treeContextOverflow;
idStack[idStackIndex++] = treeContextProvider;
treeContextProvider = workInProgress2;
var baseIdWithLeadingBit = treeContextId;
workInProgress2 = treeContextOverflow;
var baseLength = 32 - clz32(baseIdWithLeadingBit) - 1;
baseIdWithLeadingBit &= ~(1 << baseLength);
index2 += 1;
var length = 32 - clz32(totalChildren) + baseLength;
if (30 < length) {
var numberOfOverflowBits = baseLength - baseLength % 5;
length = (baseIdWithLeadingBit & (1 << numberOfOverflowBits) - 1).toString(32);
baseIdWithLeadingBit >>= numberOfOverflowBits;
baseLength -= numberOfOverflowBits;
treeContextId = 1 << 32 - clz32(totalChildren) + baseLength | index2 << baseLength | baseIdWithLeadingBit;
treeContextOverflow = length + workInProgress2;
} else
treeContextId = 1 << length | index2 << baseLength | baseIdWithLeadingBit, treeContextOverflow = workInProgress2;
}
function pushMaterializedTreeId(workInProgress2) {
null !== workInProgress2.return && (pushTreeFork(workInProgress2, 1), pushTreeId(workInProgress2, 1, 0));
}
function popTreeContext(workInProgress2) {
for (; workInProgress2 === treeForkProvider; )
treeForkProvider = forkStack[--forkStackIndex], forkStack[forkStackIndex] = null, treeForkCount = forkStack[--forkStackIndex], forkStack[forkStackIndex] = null;
for (; workInProgress2 === treeContextProvider; )
treeContextProvider = idStack[--idStackIndex], idStack[idStackIndex] = null, treeContextOverflow = idStack[--idStackIndex], idStack[idStackIndex] = null, treeContextId = idStack[--idStackIndex], idStack[idStackIndex] = null;
}
var hydrationParentFiber = null, nextHydratableInstance = null, isHydrating = false, hydrationErrors = null, rootOrSingletonContext = false, HydrationMismatchException = Error(formatProdErrorMessage(519));
function throwOnHydrationMismatch(fiber) {
var error = Error(formatProdErrorMessage(418, ""));
queueHydrationError(createCapturedValueAtFiber(error, fiber));
throw HydrationMismatchException;
}
function prepareToHydrateHostInstance(fiber) {
var instance = fiber.stateNode, type = fiber.type, props = fiber.memoizedProps;
instance[internalInstanceKey] = fiber;
instance[internalPropsKey] = props;
switch (type) {
case "dialog":
listenToNonDelegatedEvent("cancel", instance);
listenToNonDelegatedEvent("close", instance);
break;
case "iframe":
case "object":
case "embed":
listenToNonDelegatedEvent("load", instance);
break;
case "video":
case "audio":
for (type = 0; type < mediaEventTypes.length; type++)
listenToNonDelegatedEvent(mediaEventTypes[type], instance);
break;
case "source":
listenToNonDelegatedEvent("error", instance);
break;
case "img":
case "image":
case "link":
listenToNonDelegatedEvent("error", instance);
listenToNonDelegatedEvent("load", instance);
break;
case "details":
listenToNonDelegatedEvent("toggle", instance);
break;
case "input":
listenToNonDelegatedEvent("invalid", instance);
initInput(
instance,
props.value,
props.defaultValue,
props.checked,
props.defaultChecked,
props.type,
props.name,
true
);
track(instance);
break;
case "select":
listenToNonDelegatedEvent("invalid", instance);
break;
case "textarea":
listenToNonDelegatedEvent("invalid", instance), initTextarea(instance, props.value, props.defaultValue, props.children), track(instance);
}
type = props.children;
"string" !== typeof type && "number" !== typeof type && "bigint" !== typeof type || instance.textContent === "" + type || true === props.suppressHydrationWarning || checkForUnmatchedText(instance.textContent, type) ? (null != props.popover && (listenToNonDelegatedEvent("beforetoggle", instance), listenToNonDelegatedEvent("toggle", instance)), null != props.onScroll && listenToNonDelegatedEvent("scroll", instance), null != props.onScrollEnd && listenToNonDelegatedEvent("scrollend", instance), null != props.onClick && (instance.onclick = noop$1), instance = true) : instance = false;
instance || throwOnHydrationMismatch(fiber);
}
function popToNextHostParent(fiber) {
for (hydrationParentFiber = fiber.return; hydrationParentFiber; )
switch (hydrationParentFiber.tag) {
case 5:
case 13:
rootOrSingletonContext = false;
return;
case 27:
case 3:
rootOrSingletonContext = true;
return;
default:
hydrationParentFiber = hydrationParentFiber.return;
}
}
function popHydrationState(fiber) {
if (fiber !== hydrationParentFiber) return false;
if (!isHydrating) return popToNextHostParent(fiber), isHydrating = true, false;
var tag = fiber.tag, JSCompiler_temp;
if (JSCompiler_temp = 3 !== tag && 27 !== tag) {
if (JSCompiler_temp = 5 === tag)
JSCompiler_temp = fiber.type, JSCompiler_temp = !("form" !== JSCompiler_temp && "button" !== JSCompiler_temp) || shouldSetTextContent(fiber.type, fiber.memoizedProps);
JSCompiler_temp = !JSCompiler_temp;
}
JSCompiler_temp && nextHydratableInstance && throwOnHydrationMismatch(fiber);
popToNextHostParent(fiber);
if (13 === tag) {
fiber = fiber.memoizedState;
fiber = null !== fiber ? fiber.dehydrated : null;
if (!fiber) throw Error(formatProdErrorMessage(317));
a: {
fiber = fiber.nextSibling;
for (tag = 0; fiber; ) {
if (8 === fiber.nodeType)
if (JSCompiler_temp = fiber.data, "/$" === JSCompiler_temp) {
if (0 === tag) {
nextHydratableInstance = getNextHydratable(fiber.nextSibling);
break a;
}
tag--;
} else
"$" !== JSCompiler_temp && "$!" !== JSCompiler_temp && "$?" !== JSCompiler_temp || tag++;
fiber = fiber.nextSibling;
}
nextHydratableInstance = null;
}
} else
27 === tag ? (tag = nextHydratableInstance, isSingletonScope(fiber.type) ? (fiber = previousHydratableOnEnteringScopedSingleton, previousHydratableOnEnteringScopedSingleton = null, nextHydratableInstance = fiber) : nextHydratableInstance = tag) : nextHydratableInstance = hydrationParentFiber ? getNextHydratable(fiber.stateNode.nextSibling) : null;
return true;
}
function resetHydrationState() {
nextHydratableInstance = hydrationParentFiber = null;
isHydrating = false;
}
function upgradeHydrationErrorsToRecoverable() {
var queuedErrors = hydrationErrors;
null !== queuedErrors && (null === workInProgressRootRecoverableErrors ? workInProgressRootRecoverableErrors = queuedErrors : workInProgressRootRecoverableErrors.push.apply(
workInProgressRootRecoverableErrors,
queuedErrors
), hydrationErrors = null);
return queuedErrors;
}
function queueHydrationError(error) {
null === hydrationErrors ? hydrationErrors = [error] : hydrationErrors.push(error);
}
var valueCursor = createCursor(null), currentlyRenderingFiber$1 = null, lastContextDependency = null;
function pushProvider(providerFiber, context, nextValue) {
push(valueCursor, context._currentValue);
context._currentValue = nextValue;
}
function popProvider(context) {
context._currentValue = valueCursor.current;
pop(valueCursor);
}
function scheduleContextWorkOnParentPath(parent, renderLanes2, propagationRoot) {
for (; null !== parent; ) {
var alternate = parent.alternate;
(parent.childLanes & renderLanes2) !== renderLanes2 ? (parent.childLanes |= renderLanes2, null !== alternate && (alternate.childLanes |= renderLanes2)) : null !== alternate && (alternate.childLanes & renderLanes2) !== renderLanes2 && (alternate.childLanes |= renderLanes2);
if (parent === propagationRoot) break;
parent = parent.return;
}
}
function propagateContextChanges(workInProgress2, contexts, renderLanes2, forcePropagateEntireTree) {
var fiber = workInProgress2.child;
null !== fiber && (fiber.return = workInProgress2);
for (; null !== fiber; ) {
var list = fiber.dependencies;
if (null !== list) {
var nextFiber = fiber.child;
list = list.firstContext;
a: for (; null !== list; ) {
var dependency = list;
list = fiber;
for (var i = 0; i < contexts.length; i++)
if (dependency.context === contexts[i]) {
list.lanes |= renderLanes2;
dependency = list.alternate;
null !== dependency && (dependency.lanes |= renderLanes2);
scheduleContextWorkOnParentPath(
list.return,
renderLanes2,
workInProgress2
);
forcePropagateEntireTree || (nextFiber = null);
break a;
}
list = dependency.next;
}
} else if (18 === fiber.tag) {
nextFiber = fiber.return;
if (null === nextFiber) throw Error(formatProdErrorMessage(341));
nextFiber.lanes |= renderLanes2;
list = nextFiber.alternate;
null !== list && (list.lanes |= renderLanes2);
scheduleContextWorkOnParentPath(nextFiber, renderLanes2, workInProgress2);
nextFiber = null;
} else nextFiber = fiber.child;
if (null !== nextFiber) nextFiber.return = fiber;
else
for (nextFiber = fiber; null !== nextFiber; ) {
if (nextFiber === workInProgress2) {
nextFiber = null;
break;
}
fiber = nextFiber.sibling;
if (null !== fiber) {
fiber.return = nextFiber.return;
nextFiber = fiber;
break;
}
nextFiber = nextFiber.return;
}
fiber = nextFiber;
}
}
function propagateParentContextChanges(current, workInProgress2, renderLanes2, forcePropagateEntireTree) {
current = null;
for (var parent = workInProgress2, isInsidePropagationBailout = false; null !== parent; ) {
if (!isInsidePropagationBailout) {
if (0 !== (parent.flags & 524288)) isInsidePropagationBailout = true;
else if (0 !== (parent.flags & 262144)) break;
}
if (10 === parent.tag) {
var currentParent = parent.alternate;
if (null === currentParent) throw Error(formatProdErrorMessage(387));
currentParent = currentParent.memoizedProps;
if (null !== currentParent) {
var context = parent.type;
objectIs(parent.pendingProps.value, currentParent.value) || (null !== current ? current.push(context) : current = [context]);
}
} else if (parent === hostTransitionProviderCursor.current) {
currentParent = parent.alternate;
if (null === currentParent) throw Error(formatProdErrorMessage(387));
currentParent.memoizedState.memoizedState !== parent.memoizedState.memoizedState && (null !== current ? current.push(HostTransitionContext) : current = [HostTransitionContext]);
}
parent = parent.return;
}
null !== current && propagateContextChanges(
workInProgress2,
current,
renderLanes2,
forcePropagateEntireTree
);
workInProgress2.flags |= 262144;
}
function checkIfContextChanged(currentDependencies) {
for (currentDependencies = currentDependencies.firstContext; null !== currentDependencies; ) {
if (!objectIs(
currentDependencies.context._currentValue,
currentDependencies.memoizedValue
))
return true;
currentDependencies = currentDependencies.next;
}
return false;
}
function prepareToReadContext(workInProgress2) {
currentlyRenderingFiber$1 = workInProgress2;
lastContextDependency = null;
workInProgress2 = workInProgress2.dependencies;
null !== workInProgress2 && (workInProgress2.firstContext = null);
}
function readContext(context) {
return readContextForConsumer(currentlyRenderingFiber$1, context);
}
function readContextDuringReconciliation(consumer, context) {
null === currentlyRenderingFiber$1 && prepareToReadContext(consumer);
return readContextForConsumer(consumer, context);
}
function readContextForConsumer(consumer, context) {
var value = context._currentValue;
context = { context, memoizedValue: value, next: null };
if (null === lastContextDependency) {
if (null === consumer) throw Error(formatProdErrorMessage(308));
lastContextDependency = context;
consumer.dependencies = { lanes: 0, firstContext: context };
consumer.flags |= 524288;
} else lastContextDependency = lastContextDependency.next = context;
return value;
}
var AbortControllerLocal = "undefined" !== typeof AbortController ? AbortController : function() {
var listeners = [], signal = this.signal = {
aborted: false,
addEventListener: function(type, listener) {
listeners.push(listener);
}
};
this.abort = function() {
signal.aborted = true;
listeners.forEach(function(listener) {
return listener();
});
};
}, scheduleCallback$2 = Scheduler.unstable_scheduleCallback, NormalPriority = Scheduler.unstable_NormalPriority, CacheContext = {
$$typeof: REACT_CONTEXT_TYPE,
Consumer: null,
Provider: null,
_currentValue: null,
_currentValue2: null,
_threadCount: 0
};
function createCache() {
return {
controller: new AbortControllerLocal(),
data: /* @__PURE__ */ new Map(),
refCount: 0
};
}
function releaseCache(cache) {
cache.refCount--;
0 === cache.refCount && scheduleCallback$2(NormalPriority, function() {
cache.controller.abort();
});
}
var currentEntangledListeners = null, currentEntangledPendingCount = 0, currentEntangledLane = 0, currentEntangledActionThenable = null;
function entangleAsyncAction(transition, thenable) {
if (null === currentEntangledListeners) {
var entangledListeners = currentEntangledListeners = [];
currentEntangledPendingCount = 0;
currentEntangledLane = requestTransitionLane();
currentEntangledActionThenable = {
status: "pending",
value: void 0,
then: function(resolve) {
entangledListeners.push(resolve);
}
};
}
currentEntangledPendingCount++;
thenable.then(pingEngtangledActionScope, pingEngtangledActionScope);
return thenable;
}
function pingEngtangledActionScope() {
if (0 === --currentEntangledPendingCount && null !== currentEntangledListeners) {
null !== currentEntangledActionThenable && (currentEntangledActionThenable.status = "fulfilled");
var listeners = currentEntangledListeners;
currentEntangledListeners = null;
currentEntangledLane = 0;
currentEntangledActionThenable = null;
for (var i = 0; i < listeners.length; i++) (0, listeners[i])();
}
}
function chainThenableValue(thenable, result) {
var listeners = [], thenableWithOverride = {
status: "pending",
value: null,
reason: null,
then: function(resolve) {
listeners.push(resolve);
}
};
thenable.then(
function() {
thenableWithOverride.status = "fulfilled";
thenableWithOverride.value = result;
for (var i = 0; i < listeners.length; i++) (0, listeners[i])(result);
},
function(error) {
thenableWithOverride.status = "rejected";
thenableWithOverride.reason = error;
for (error = 0; error < listeners.length; error++)
(0, listeners[error])(void 0);
}
);
return thenableWithOverride;
}
var prevOnStartTransitionFinish = ReactSharedInternals.S;
ReactSharedInternals.S = function(transition, returnValue) {
"object" === typeof returnValue && null !== returnValue && "function" === typeof returnValue.then && entangleAsyncAction(transition, returnValue);
null !== prevOnStartTransitionFinish && prevOnStartTransitionFinish(transition, returnValue);
};
var resumedCache = createCursor(null);
function peekCacheFromPool() {
var cacheResumedFromPreviousRender = resumedCache.current;
return null !== cacheResumedFromPreviousRender ? cacheResumedFromPreviousRender : workInProgressRoot.pooledCache;
}
function pushTransition(offscreenWorkInProgress, prevCachePool) {
null === prevCachePool ? push(resumedCache, resumedCache.current) : push(resumedCache, prevCachePool.pool);
}
function getSuspendedCache() {
var cacheFromPool = peekCacheFromPool();
return null === cacheFromPool ? null : { parent: CacheContext._currentValue, pool: cacheFromPool };
}
var SuspenseException = Error(formatProdErrorMessage(460)), SuspenseyCommitException = Error(formatProdErrorMessage(474)), SuspenseActionException = Error(formatProdErrorMessage(542)), noopSuspenseyCommitThenable = { then: function() {
} };
function isThenableResolved(thenable) {
thenable = thenable.status;
return "fulfilled" === thenable || "rejected" === thenable;
}
function noop$3() {
}
function trackUsedThenable(thenableState2, thenable, index2) {
index2 = thenableState2[index2];
void 0 === index2 ? thenableState2.push(thenable) : index2 !== thenable && (thenable.then(noop$3, noop$3), thenable = index2);
switch (thenable.status) {
case "fulfilled":
return thenable.value;
case "rejected":
throw thenableState2 = thenable.reason, checkIfUseWrappedInAsyncCatch(thenableState2), thenableState2;
default:
if ("string" === typeof thenable.status) thenable.then(noop$3, noop$3);
else {
thenableState2 = workInProgressRoot;
if (null !== thenableState2 && 100 < thenableState2.shellSuspendCounter)
throw Error(formatProdErrorMessage(482));
thenableState2 = thenable;
thenableState2.status = "pending";
thenableState2.then(
function(fulfilledValue) {
if ("pending" === thenable.status) {
var fulfilledThenable = thenable;
fulfilledThenable.status = "fulfilled";
fulfilledThenable.value = fulfilledValue;
}
},
function(error) {
if ("pending" === thenable.status) {
var rejectedThenable = thenable;
rejectedThenable.status = "rejected";
rejectedThenable.reason = error;
}
}
);
}
switch (thenable.status) {
case "fulfilled":
return thenable.value;
case "rejected":
throw thenableState2 = thenable.reason, checkIfUseWrappedInAsyncCatch(thenableState2), thenableState2;
}
suspendedThenable = thenable;
throw SuspenseException;
}
}
var suspendedThenable = null;
function getSuspendedThenable() {
if (null === suspendedThenable) throw Error(formatProdErrorMessage(459));
var thenable = suspendedThenable;
suspendedThenable = null;
return thenable;
}
function checkIfUseWrappedInAsyncCatch(rejectedReason) {
if (rejectedReason === SuspenseException || rejectedReason === SuspenseActionException)
throw Error(formatProdErrorMessage(483));
}
var hasForceUpdate = false;
function initializeUpdateQueue(fiber) {
fiber.updateQueue = {
baseState: fiber.memoizedState,
firstBaseUpdate: null,
lastBaseUpdate: null,
shared: { pending: null, lanes: 0, hiddenCallbacks: null },
callbacks: null
};
}
function cloneUpdateQueue(current, workInProgress2) {
current = current.updateQueue;
workInProgress2.updateQueue === current && (workInProgress2.updateQueue = {
baseState: current.baseState,
firstBaseUpdate: current.firstBaseUpdate,
lastBaseUpdate: current.lastBaseUpdate,
shared: current.shared,
callbacks: null
});
}
function createUpdate(lane) {
return { lane, tag: 0, payload: null, callback: null, next: null };
}
function enqueueUpdate(fiber, update, lane) {
var updateQueue = fiber.updateQueue;
if (null === updateQueue) return null;
updateQueue = updateQueue.shared;
if (0 !== (executionContext & 2)) {
var pending = updateQueue.pending;
null === pending ? update.next = update : (update.next = pending.next, pending.next = update);
updateQueue.pending = update;
update = getRootForUpdatedFiber(fiber);
markUpdateLaneFromFiberToRoot(fiber, null, lane);
return update;
}
enqueueUpdate$1(fiber, updateQueue, update, lane);
return getRootForUpdatedFiber(fiber);
}
function entangleTransitions(root2, fiber, lane) {
fiber = fiber.updateQueue;
if (null !== fiber && (fiber = fiber.shared, 0 !== (lane & 4194048))) {
var queueLanes = fiber.lanes;
queueLanes &= root2.pendingLanes;
lane |= queueLanes;
fiber.lanes = lane;
markRootEntangled(root2, lane);
}
}
function enqueueCapturedUpdate(workInProgress2, capturedUpdate) {
var queue = workInProgress2.updateQueue, current = workInProgress2.alternate;
if (null !== current && (current = current.updateQueue, queue === current)) {
var newFirst = null, newLast = null;
queue = queue.firstBaseUpdate;
if (null !== queue) {
do {
var clone = {
lane: queue.lane,
tag: queue.tag,
payload: queue.payload,
callback: null,
next: null
};
null === newLast ? newFirst = newLast = clone : newLast = newLast.next = clone;
queue = queue.next;
} while (null !== queue);
null === newLast ? newFirst = newLast = capturedUpdate : newLast = newLast.next = capturedUpdate;
} else newFirst = newLast = capturedUpdate;
queue = {
baseState: current.baseState,
firstBaseUpdate: newFirst,
lastBaseUpdate: newLast,
shared: current.shared,
callbacks: current.callbacks
};
workInProgress2.updateQueue = queue;
return;
}
workInProgress2 = queue.lastBaseUpdate;
null === workInProgress2 ? queue.firstBaseUpdate = capturedUpdate : workInProgress2.next = capturedUpdate;
queue.lastBaseUpdate = capturedUpdate;
}
var didReadFromEntangledAsyncAction = false;
function suspendIfUpdateReadFromEntangledAsyncAction() {
if (didReadFromEntangledAsyncAction) {
var entangledActionThenable = currentEntangledActionThenable;
if (null !== entangledActionThenable) throw entangledActionThenable;
}
}
function processUpdateQueue(workInProgress$jscomp$0, props, instance$jscomp$0, renderLanes2) {
didReadFromEntangledAsyncAction = false;
var queue = workInProgress$jscomp$0.updateQueue;
hasForceUpdate = false;
var firstBaseUpdate = queue.firstBaseUpdate, lastBaseUpdate = queue.lastBaseUpdate, pendingQueue = queue.shared.pending;
if (null !== pendingQueue) {
queue.shared.pending = null;
var lastPendingUpdate = pendingQueue, firstPendingUpdate = lastPendingUpdate.next;
lastPendingUpdate.next = null;
null === lastBaseUpdate ? firstBaseUpdate = firstPendingUpdate : lastBaseUpdate.next = firstPendingUpdate;
lastBaseUpdate = lastPendingUpdate;
var current = workInProgress$jscomp$0.alternate;
null !== current && (current = current.updateQueue, pendingQueue = current.lastBaseUpdate, pendingQueue !== lastBaseUpdate && (null === pendingQueue ? current.firstBaseUpdate = firstPendingUpdate : pendingQueue.next = firstPendingUpdate, current.lastBaseUpdate = lastPendingUpdate));
}
if (null !== firstBaseUpdate) {
var newState = queue.baseState;
lastBaseUpdate = 0;
current = firstPendingUpdate = lastPendingUpdate = null;
pendingQueue = firstBaseUpdate;
do {
var updateLane = pendingQueue.lane & -536870913, isHiddenUpdate = updateLane !== pendingQueue.lane;
if (isHiddenUpdate ? (workInProgressRootRenderLanes & updateLane) === updateLane : (renderLanes2 & updateLane) === updateLane) {
0 !== updateLane && updateLane === currentEntangledLane && (didReadFromEntangledAsyncAction = true);
null !== current && (current = current.next = {
lane: 0,
tag: pendingQueue.tag,
payload: pendingQueue.payload,
callback: null,
next: null
});
a: {
var workInProgress2 = workInProgress$jscomp$0, update = pendingQueue;
updateLane = props;
var instance = instance$jscomp$0;
switch (update.tag) {
case 1:
workInProgress2 = update.payload;
if ("function" === typeof workInProgress2) {
newState = workInProgress2.call(instance, newState, updateLane);
break a;
}
newState = workInProgress2;
break a;
case 3:
workInProgress2.flags = workInProgress2.flags & -65537 | 128;
case 0:
workInProgress2 = update.payload;
updateLane = "function" === typeof workInProgress2 ? workInProgress2.call(instance, newState, updateLane) : workInProgress2;
if (null === updateLane || void 0 === updateLane) break a;
newState = assign({}, newState, updateLane);
break a;
case 2:
hasForceUpdate = true;
}
}
updateLane = pendingQueue.callback;
null !== updateLane && (workInProgress$jscomp$0.flags |= 64, isHiddenUpdate && (workInProgress$jscomp$0.flags |= 8192), isHiddenUpdate = queue.callbacks, null === isHiddenUpdate ? queue.callbacks = [updateLane] : isHiddenUpdate.push(updateLane));
} else
isHiddenUpdate = {
lane: updateLane,
tag: pendingQueue.tag,
payload: pendingQueue.payload,
callback: pendingQueue.callback,
next: null
}, null === current ? (firstPendingUpdate = current = isHiddenUpdate, lastPendingUpdate = newState) : current = current.next = isHiddenUpdate, lastBaseUpdate |= updateLane;
pendingQueue = pendingQueue.next;
if (null === pendingQueue)
if (pendingQueue = queue.shared.pending, null === pendingQueue)
break;
else
isHiddenUpdate = pendingQueue, pendingQueue = isHiddenUpdate.next, isHiddenUpdate.next = null, queue.lastBaseUpdate = isHiddenUpdate, queue.shared.pending = null;
} while (1);
null === current && (lastPendingUpdate = newState);
queue.baseState = lastPendingUpdate;
queue.firstBaseUpdate = firstPendingUpdate;
queue.lastBaseUpdate = current;
null === firstBaseUpdate && (queue.shared.lanes = 0);
workInProgressRootSkippedLanes |= lastBaseUpdate;
workInProgress$jscomp$0.lanes = lastBaseUpdate;
workInProgress$jscomp$0.memoizedState = newState;
}
}
function callCallback(callback, context) {
if ("function" !== typeof callback)
throw Error(formatProdErrorMessage(191, callback));
callback.call(context);
}
function commitCallbacks(updateQueue, context) {
var callbacks = updateQueue.callbacks;
if (null !== callbacks)
for (updateQueue.callbacks = null, updateQueue = 0; updateQueue < callbacks.length; updateQueue++)
callCallback(callbacks[updateQueue], context);
}
var currentTreeHiddenStackCursor = createCursor(null), prevEntangledRenderLanesCursor = createCursor(0);
function pushHiddenContext(fiber, context) {
fiber = entangledRenderLanes;
push(prevEntangledRenderLanesCursor, fiber);
push(currentTreeHiddenStackCursor, context);
entangledRenderLanes = fiber | context.baseLanes;
}
function reuseHiddenContextOnStack() {
push(prevEntangledRenderLanesCursor, entangledRenderLanes);
push(currentTreeHiddenStackCursor, currentTreeHiddenStackCursor.current);
}
function popHiddenContext() {
entangledRenderLanes = prevEntangledRenderLanesCursor.current;
pop(currentTreeHiddenStackCursor);
pop(prevEntangledRenderLanesCursor);
}
var renderLanes = 0, currentlyRenderingFiber = null, currentHook = null, workInProgressHook = null, didScheduleRenderPhaseUpdate = false, didScheduleRenderPhaseUpdateDuringThisPass = false, shouldDoubleInvokeUserFnsInHooksDEV = false, localIdCounter = 0, thenableIndexCounter$1 = 0, thenableState$1 = null, globalClientIdCounter = 0;
function throwInvalidHookError() {
throw Error(formatProdErrorMessage(321));
}
function areHookInputsEqual(nextDeps, prevDeps) {
if (null === prevDeps) return false;
for (var i = 0; i < prevDeps.length && i < nextDeps.length; i++)
if (!objectIs(nextDeps[i], prevDeps[i])) return false;
return true;
}
function renderWithHooks(current, workInProgress2, Component, props, secondArg, nextRenderLanes) {
renderLanes = nextRenderLanes;
currentlyRenderingFiber = workInProgress2;
workInProgress2.memoizedState = null;
workInProgress2.updateQueue = null;
workInProgress2.lanes = 0;
ReactSharedInternals.H = null === current || null === current.memoizedState ? HooksDispatcherOnMount : HooksDispatcherOnUpdate;
shouldDoubleInvokeUserFnsInHooksDEV = false;
nextRenderLanes = Component(props, secondArg);
shouldDoubleInvokeUserFnsInHooksDEV = false;
didScheduleRenderPhaseUpdateDuringThisPass && (nextRenderLanes = renderWithHooksAgain(
workInProgress2,
Component,
props,
secondArg
));
finishRenderingHooks(current);
return nextRenderLanes;
}
function finishRenderingHooks(current) {
ReactSharedInternals.H = ContextOnlyDispatcher;
var didRenderTooFewHooks = null !== currentHook && null !== currentHook.next;
renderLanes = 0;
workInProgressHook = currentHook = currentlyRenderingFiber = null;
didScheduleRenderPhaseUpdate = false;
thenableIndexCounter$1 = 0;
thenableState$1 = null;
if (didRenderTooFewHooks) throw Error(formatProdErrorMessage(300));
null === current || didReceiveUpdate || (current = current.dependencies, null !== current && checkIfContextChanged(current) && (didReceiveUpdate = true));
}
function renderWithHooksAgain(workInProgress2, Component, props, secondArg) {
currentlyRenderingFiber = workInProgress2;
var numberOfReRenders = 0;
do {
didScheduleRenderPhaseUpdateDuringThisPass && (thenableState$1 = null);
thenableIndexCounter$1 = 0;
didScheduleRenderPhaseUpdateDuringThisPass = false;
if (25 <= numberOfReRenders) throw Error(formatProdErrorMessage(301));
numberOfReRenders += 1;
workInProgressHook = currentHook = null;
if (null != workInProgress2.updateQueue) {
var children = workInProgress2.updateQueue;
children.lastEffect = null;
children.events = null;
children.stores = null;
null != children.memoCache && (children.memoCache.index = 0);
}
ReactSharedInternals.H = HooksDispatcherOnRerender;
children = Component(props, secondArg);
} while (didScheduleRenderPhaseUpdateDuringThisPass);
return children;
}
function TransitionAwareHostComponent() {
var dispatcher = ReactSharedInternals.H, maybeThenable = dispatcher.useState()[0];
maybeThenable = "function" === typeof maybeThenable.then ? useThenable(maybeThenable) : maybeThenable;
dispatcher = dispatcher.useState()[0];
(null !== currentHook ? currentHook.memoizedState : null) !== dispatcher && (currentlyRenderingFiber.flags |= 1024);
return maybeThenable;
}
function checkDidRenderIdHook() {
var didRenderIdHook = 0 !== localIdCounter;
localIdCounter = 0;
return didRenderIdHook;
}
function bailoutHooks(current, workInProgress2, lanes) {
workInProgress2.updateQueue = current.updateQueue;
workInProgress2.flags &= -2053;
current.lanes &= ~lanes;
}
function resetHooksOnUnwind(workInProgress2) {
if (didScheduleRenderPhaseUpdate) {
for (workInProgress2 = workInProgress2.memoizedState; null !== workInProgress2; ) {
var queue = workInProgress2.queue;
null !== queue && (queue.pending = null);
workInProgress2 = workInProgress2.next;
}
didScheduleRenderPhaseUpdate = false;
}
renderLanes = 0;
workInProgressHook = currentHook = currentlyRenderingFiber = null;
didScheduleRenderPhaseUpdateDuringThisPass = false;
thenableIndexCounter$1 = localIdCounter = 0;
thenableState$1 = null;
}
function mountWorkInProgressHook() {
var hook = {
memoizedState: null,
baseState: null,
baseQueue: null,
queue: null,
next: null
};
null === workInProgressHook ? currentlyRenderingFiber.memoizedState = workInProgressHook = hook : workInProgressHook = workInProgressHook.next = hook;
return workInProgressHook;
}
function updateWorkInProgressHook() {
if (null === currentHook) {
var nextCurrentHook = currentlyRenderingFiber.alternate;
nextCurrentHook = null !== nextCurrentHook ? nextCurrentHook.memoizedState : null;
} else nextCurrentHook = currentHook.next;
var nextWorkInProgressHook = null === workInProgressHook ? currentlyRenderingFiber.memoizedState : workInProgressHook.next;
if (null !== nextWorkInProgressHook)
workInProgressHook = nextWorkInProgressHook, currentHook = nextCurrentHook;
else {
if (null === nextCurrentHook) {
if (null === currentlyRenderingFiber.alternate)
throw Error(formatProdErrorMessage(467));
throw Error(formatProdErrorMessage(310));
}
currentHook = nextCurrentHook;
nextCurrentHook = {
memoizedState: currentHook.memoizedState,
baseState: currentHook.baseState,
baseQueue: currentHook.baseQueue,
queue: currentHook.queue,
next: null
};
null === workInProgressHook ? currentlyRenderingFiber.memoizedState = workInProgressHook = nextCurrentHook : workInProgressHook = workInProgressHook.next = nextCurrentHook;
}
return workInProgressHook;
}
function createFunctionComponentUpdateQueue() {
return { lastEffect: null, events: null, stores: null, memoCache: null };
}
function useThenable(thenable) {
var index2 = thenableIndexCounter$1;
thenableIndexCounter$1 += 1;
null === thenableState$1 && (thenableState$1 = []);
thenable = trackUsedThenable(thenableState$1, thenable, index2);
index2 = currentlyRenderingFiber;
null === (null === workInProgressHook ? index2.memoizedState : workInProgressHook.next) && (index2 = index2.alternate, ReactSharedInternals.H = null === index2 || null === index2.memoizedState ? HooksDispatcherOnMount : HooksDispatcherOnUpdate);
return thenable;
}
function use2(usable) {
if (null !== usable && "object" === typeof usable) {
if ("function" === typeof usable.then) return useThenable(usable);
if (usable.$$typeof === REACT_CONTEXT_TYPE) return readContext(usable);
}
throw Error(formatProdErrorMessage(438, String(usable)));
}
function useMemoCache(size) {
var memoCache = null, updateQueue = currentlyRenderingFiber.updateQueue;
null !== updateQueue && (memoCache = updateQueue.memoCache);
if (null == memoCache) {
var current = currentlyRenderingFiber.alternate;
null !== current && (current = current.updateQueue, null !== current && (current = current.memoCache, null != current && (memoCache = {
data: current.data.map(function(array) {
return array.slice();
}),
index: 0
})));
}
null == memoCache && (memoCache = { data: [], index: 0 });
null === updateQueue && (updateQueue = createFunctionComponentUpdateQueue(), currentlyRenderingFiber.updateQueue = updateQueue);
updateQueue.memoCache = memoCache;
updateQueue = memoCache.data[memoCache.index];
if (void 0 === updateQueue)
for (updateQueue = memoCache.data[memoCache.index] = Array(size), current = 0; current < size; current++)
updateQueue[current] = REACT_MEMO_CACHE_SENTINEL;
memoCache.index++;
return updateQueue;
}
function basicStateReducer(state, action) {
return "function" === typeof action ? action(state) : action;
}
function updateReducer(reducer) {
var hook = updateWorkInProgressHook();
return updateReducerImpl(hook, currentHook, reducer);
}
function updateReducerImpl(hook, current, reducer) {
var queue = hook.queue;
if (null === queue) throw Error(formatProdErrorMessage(311));
queue.lastRenderedReducer = reducer;
var baseQueue = hook.baseQueue, pendingQueue = queue.pending;
if (null !== pendingQueue) {
if (null !== baseQueue) {
var baseFirst = baseQueue.next;
baseQueue.next = pendingQueue.next;
pendingQueue.next = baseFirst;
}
current.baseQueue = baseQueue = pendingQueue;
queue.pending = null;
}
pendingQueue = hook.baseState;
if (null === baseQueue) hook.memoizedState = pendingQueue;
else {
current = baseQueue.next;
var newBaseQueueFirst = baseFirst = null, newBaseQueueLast = null, update = current, didReadFromEntangledAsyncAction$32 = false;
do {
var updateLane = update.lane & -536870913;
if (updateLane !== update.lane ? (workInProgressRootRenderLanes & updateLane) === updateLane : (renderLanes & updateLane) === updateLane) {
var revertLane = update.revertLane;
if (0 === revertLane)
null !== newBaseQueueLast && (newBaseQueueLast = newBaseQueueLast.next = {
lane: 0,
revertLane: 0,
action: update.action,
hasEagerState: update.hasEagerState,
eagerState: update.eagerState,
next: null
}), updateLane === currentEntangledLane && (didReadFromEntangledAsyncAction$32 = true);
else if ((renderLanes & revertLane) === revertLane) {
update = update.next;
revertLane === currentEntangledLane && (didReadFromEntangledAsyncAction$32 = true);
continue;
} else
updateLane = {
lane: 0,
revertLane: update.revertLane,
action: update.action,
hasEagerState: update.hasEagerState,
eagerState: update.eagerState,
next: null
}, null === newBaseQueueLast ? (newBaseQueueFirst = newBaseQueueLast = updateLane, baseFirst = pendingQueue) : newBaseQueueLast = newBaseQueueLast.next = updateLane, currentlyRenderingFiber.lanes |= revertLane, workInProgressRootSkippedLanes |= revertLane;
updateLane = update.action;
shouldDoubleInvokeUserFnsInHooksDEV && reducer(pendingQueue, updateLane);
pendingQueue = update.hasEagerState ? update.eagerState : reducer(pendingQueue, updateLane);
} else
revertLane = {
lane: updateLane,
revertLane: update.revertLane,
action: update.action,
hasEagerState: update.hasEagerState,
eagerState: update.eagerState,
next: null
}, null === newBaseQueueLast ? (newBaseQueueFirst = newBaseQueueLast = revertLane, baseFirst = pendingQueue) : newBaseQueueLast = newBaseQueueLast.next = revertLane, currentlyRenderingFiber.lanes |= updateLane, workInProgressRootSkippedLanes |= updateLane;
update = update.next;
} while (null !== update && update !== current);
null === newBaseQueueLast ? baseFirst = pendingQueue : newBaseQueueLast.next = newBaseQueueFirst;
if (!objectIs(pendingQueue, hook.memoizedState) && (didReceiveUpdate = true, didReadFromEntangledAsyncAction$32 && (reducer = currentEntangledActionThenable, null !== reducer)))
throw reducer;
hook.memoizedState = pendingQueue;
hook.baseState = baseFirst;
hook.baseQueue = newBaseQueueLast;
queue.lastRenderedState = pendingQueue;
}
null === baseQueue && (queue.lanes = 0);
return [hook.memoizedState, queue.dispatch];
}
function rerenderReducer(reducer) {
var hook = updateWorkInProgressHook(), queue = hook.queue;
if (null === queue) throw Error(formatProdErrorMessage(311));
queue.lastRenderedReducer = reducer;
var dispatch = queue.dispatch, lastRenderPhaseUpdate = queue.pending, newState = hook.memoizedState;
if (null !== lastRenderPhaseUpdate) {
queue.pending = null;
var update = lastRenderPhaseUpdate = lastRenderPhaseUpdate.next;
do
newState = reducer(newState, update.action), update = update.next;
while (update !== lastRenderPhaseUpdate);
objectIs(newState, hook.memoizedState) || (didReceiveUpdate = true);
hook.memoizedState = newState;
null === hook.baseQueue && (hook.baseState = newState);
queue.lastRenderedState = newState;
}
return [newState, dispatch];
}
function updateSyncExternalStore(subscribe, getSnapshot, getServerSnapshot) {
var fiber = currentlyRenderingFiber, hook = updateWorkInProgressHook(), isHydrating$jscomp$0 = isHydrating;
if (isHydrating$jscomp$0) {
if (void 0 === getServerSnapshot) throw Error(formatProdErrorMessage(407));
getServerSnapshot = getServerSnapshot();
} else getServerSnapshot = getSnapshot();
var snapshotChanged = !objectIs(
(currentHook || hook).memoizedState,
getServerSnapshot
);
snapshotChanged && (hook.memoizedState = getServerSnapshot, didReceiveUpdate = true);
hook = hook.queue;
var create = subscribeToStore.bind(null, fiber, hook, subscribe);
updateEffectImpl(2048, 8, create, [subscribe]);
if (hook.getSnapshot !== getSnapshot || snapshotChanged || null !== workInProgressHook && workInProgressHook.memoizedState.tag & 1) {
fiber.flags |= 2048;
pushSimpleEffect(
9,
createEffectInstance(),
updateStoreInstance.bind(
null,
fiber,
hook,
getServerSnapshot,
getSnapshot
),
null
);
if (null === workInProgressRoot) throw Error(formatProdErrorMessage(349));
isHydrating$jscomp$0 || 0 !== (renderLanes & 124) || pushStoreConsistencyCheck(fiber, getSnapshot, getServerSnapshot);
}
return getServerSnapshot;
}
function pushStoreConsistencyCheck(fiber, getSnapshot, renderedSnapshot) {
fiber.flags |= 16384;
fiber = { getSnapshot, value: renderedSnapshot };
getSnapshot = currentlyRenderingFiber.updateQueue;
null === getSnapshot ? (getSnapshot = createFunctionComponentUpdateQueue(), currentlyRenderingFiber.updateQueue = getSnapshot, getSnapshot.stores = [fiber]) : (renderedSnapshot = getSnapshot.stores, null === renderedSnapshot ? getSnapshot.stores = [fiber] : renderedSnapshot.push(fiber));
}
function updateStoreInstance(fiber, inst, nextSnapshot, getSnapshot) {
inst.value = nextSnapshot;
inst.getSnapshot = getSnapshot;
checkIfSnapshotChanged(inst) && forceStoreRerender(fiber);
}
function subscribeToStore(fiber, inst, subscribe) {
return subscribe(function() {
checkIfSnapshotChanged(inst) && forceStoreRerender(fiber);
});
}
function checkIfSnapshotChanged(inst) {
var latestGetSnapshot = inst.getSnapshot;
inst = inst.value;
try {
var nextValue = latestGetSnapshot();
return !objectIs(inst, nextValue);
} catch (error) {
return true;
}
}
function forceStoreRerender(fiber) {
var root2 = enqueueConcurrentRenderForLane(fiber, 2);
null !== root2 && scheduleUpdateOnFiber(root2, fiber, 2);
}
function mountStateImpl(initialState) {
var hook = mountWorkInProgressHook();
if ("function" === typeof initialState) {
var initialStateInitializer = initialState;
initialState = initialStateInitializer();
if (shouldDoubleInvokeUserFnsInHooksDEV) {
setIsStrictModeForDevtools(true);
try {
initialStateInitializer();
} finally {
setIsStrictModeForDevtools(false);
}
}
}
hook.memoizedState = hook.baseState = initialState;
hook.queue = {
pending: null,
lanes: 0,
dispatch: null,
lastRenderedReducer: basicStateReducer,
lastRenderedState: initialState
};
return hook;
}
function updateOptimisticImpl(hook, current, passthrough, reducer) {
hook.baseState = passthrough;
return updateReducerImpl(
hook,
currentHook,
"function" === typeof reducer ? reducer : basicStateReducer
);
}
function dispatchActionState(fiber, actionQueue, setPendingState, setState, payload) {
if (isRenderPhaseUpdate(fiber)) throw Error(formatProdErrorMessage(485));
fiber = actionQueue.action;
if (null !== fiber) {
var actionNode = {
payload,
action: fiber,
next: null,
isTransition: true,
status: "pending",
value: null,
reason: null,
listeners: [],
then: function(listener) {
actionNode.listeners.push(listener);
}
};
null !== ReactSharedInternals.T ? setPendingState(true) : actionNode.isTransition = false;
setState(actionNode);
setPendingState = actionQueue.pending;
null === setPendingState ? (actionNode.next = actionQueue.pending = actionNode, runActionStateAction(actionQueue, actionNode)) : (actionNode.next = setPendingState.next, actionQueue.pending = setPendingState.next = actionNode);
}
}
function runActionStateAction(actionQueue, node) {
var action = node.action, payload = node.payload, prevState = actionQueue.state;
if (node.isTransition) {
var prevTransition = ReactSharedInternals.T, currentTransition = {};
ReactSharedInternals.T = currentTransition;
try {
var returnValue = action(prevState, payload), onStartTransitionFinish = ReactSharedInternals.S;
null !== onStartTransitionFinish && onStartTransitionFinish(currentTransition, returnValue);
handleActionReturnValue(actionQueue, node, returnValue);
} catch (error) {
onActionError(actionQueue, node, error);
} finally {
ReactSharedInternals.T = prevTransition;
}
} else
try {
prevTransition = action(prevState, payload), handleActionReturnValue(actionQueue, node, prevTransition);
} catch (error$38) {
onActionError(actionQueue, node, error$38);
}
}
function handleActionReturnValue(actionQueue, node, returnValue) {
null !== returnValue && "object" === typeof returnValue && "function" === typeof returnValue.then ? returnValue.then(
function(nextState) {
onActionSuccess(actionQueue, node, nextState);
},
function(error) {
return onActionError(actionQueue, node, error);
}
) : onActionSuccess(actionQueue, node, returnValue);
}
function onActionSuccess(actionQueue, actionNode, nextState) {
actionNode.status = "fulfilled";
actionNode.value = nextState;
notifyActionListeners(actionNode);
actionQueue.state = nextState;
actionNode = actionQueue.pending;
null !== actionNode && (nextState = actionNode.next, nextState === actionNode ? actionQueue.pending = null : (nextState = nextState.next, actionNode.next = nextState, runActionStateAction(actionQueue, nextState)));
}
function onActionError(actionQueue, actionNode, error) {
var last = actionQueue.pending;
actionQueue.pending = null;
if (null !== last) {
last = last.next;
do
actionNode.status = "rejected", actionNode.reason = error, notifyActionListeners(actionNode), actionNode = actionNode.next;
while (actionNode !== last);
}
actionQueue.action = null;
}
function notifyActionListeners(actionNode) {
actionNode = actionNode.listeners;
for (var i = 0; i < actionNode.length; i++) (0, actionNode[i])();
}
function actionStateReducer(oldState, newState) {
return newState;
}
function mountActionState(action, initialStateProp) {
if (isHydrating) {
var ssrFormState = workInProgressRoot.formState;
if (null !== ssrFormState) {
a: {
var JSCompiler_inline_result = currentlyRenderingFiber;
if (isHydrating) {
if (nextHydratableInstance) {
b: {
var JSCompiler_inline_result$jscomp$0 = nextHydratableInstance;
for (var inRootOrSingleton = rootOrSingletonContext; 8 !== JSCompiler_inline_result$jscomp$0.nodeType; ) {
if (!inRootOrSingleton) {
JSCompiler_inline_result$jscomp$0 = null;
break b;
}
JSCompiler_inline_result$jscomp$0 = getNextHydratable(
JSCompiler_inline_result$jscomp$0.nextSibling
);
if (null === JSCompiler_inline_result$jscomp$0) {
JSCompiler_inline_result$jscomp$0 = null;
break b;
}
}
inRootOrSingleton = JSCompiler_inline_result$jscomp$0.data;
JSCompiler_inline_result$jscomp$0 = "F!" === inRootOrSingleton || "F" === inRootOrSingleton ? JSCompiler_inline_result$jscomp$0 : null;
}
if (JSCompiler_inline_result$jscomp$0) {
nextHydratableInstance = getNextHydratable(
JSCompiler_inline_result$jscomp$0.nextSibling
);
JSCompiler_inline_result = "F!" === JSCompiler_inline_result$jscomp$0.data;
break a;
}
}
throwOnHydrationMismatch(JSCompiler_inline_result);
}
JSCompiler_inline_result = false;
}
JSCompiler_inline_result && (initialStateProp = ssrFormState[0]);
}
}
ssrFormState = mountWorkInProgressHook();
ssrFormState.memoizedState = ssrFormState.baseState = initialStateProp;
JSCompiler_inline_result = {
pending: null,
lanes: 0,
dispatch: null,
lastRenderedReducer: actionStateReducer,
lastRenderedState: initialStateProp
};
ssrFormState.queue = JSCompiler_inline_result;
ssrFormState = dispatchSetState.bind(
null,
currentlyRenderingFiber,
JSCompiler_inline_result
);
JSCompiler_inline_result.dispatch = ssrFormState;
JSCompiler_inline_result = mountStateImpl(false);
inRootOrSingleton = dispatchOptimisticSetState.bind(
null,
currentlyRenderingFiber,
false,
JSCompiler_inline_result.queue
);
JSCompiler_inline_result = mountWorkInProgressHook();
JSCompiler_inline_result$jscomp$0 = {
state: initialStateProp,
dispatch: null,
action,
pending: null
};
JSCompiler_inline_result.queue = JSCompiler_inline_result$jscomp$0;
ssrFormState = dispatchActionState.bind(
null,
currentlyRenderingFiber,
JSCompiler_inline_result$jscomp$0,
inRootOrSingleton,
ssrFormState
);
JSCompiler_inline_result$jscomp$0.dispatch = ssrFormState;
JSCompiler_inline_result.memoizedState = action;
return [initialStateProp, ssrFormState, false];
}
function updateActionState(action) {
var stateHook = updateWorkInProgressHook();
return updateActionStateImpl(stateHook, currentHook, action);
}
function updateActionStateImpl(stateHook, currentStateHook, action) {
currentStateHook = updateReducerImpl(
stateHook,
currentStateHook,
actionStateReducer
)[0];
stateHook = updateReducer(basicStateReducer)[0];
if ("object" === typeof currentStateHook && null !== currentStateHook && "function" === typeof currentStateHook.then)
try {
var state = useThenable(currentStateHook);
} catch (x) {
if (x === SuspenseException) throw SuspenseActionException;
throw x;
}
else state = currentStateHook;
currentStateHook = updateWorkInProgressHook();
var actionQueue = currentStateHook.queue, dispatch = actionQueue.dispatch;
action !== currentStateHook.memoizedState && (currentlyRenderingFiber.flags |= 2048, pushSimpleEffect(
9,
createEffectInstance(),
actionStateActionEffect.bind(null, actionQueue, action),
null
));
return [state, dispatch, stateHook];
}
function actionStateActionEffect(actionQueue, action) {
actionQueue.action = action;
}
function rerenderActionState(action) {
var stateHook = updateWorkInProgressHook(), currentStateHook = currentHook;
if (null !== currentStateHook)
return updateActionStateImpl(stateHook, currentStateHook, action);
updateWorkInProgressHook();
stateHook = stateHook.memoizedState;
currentStateHook = updateWorkInProgressHook();
var dispatch = currentStateHook.queue.dispatch;
currentStateHook.memoizedState = action;
return [stateHook, dispatch, false];
}
function pushSimpleEffect(tag, inst, create, createDeps) {
tag = { tag, create, deps: createDeps, inst, next: null };
inst = currentlyRenderingFiber.updateQueue;
null === inst && (inst = createFunctionComponentUpdateQueue(), currentlyRenderingFiber.updateQueue = inst);
create = inst.lastEffect;
null === create ? inst.lastEffect = tag.next = tag : (createDeps = create.next, create.next = tag, tag.next = createDeps, inst.lastEffect = tag);
return tag;
}
function createEffectInstance() {
return { destroy: void 0, resource: void 0 };
}
function updateRef() {
return updateWorkInProgressHook().memoizedState;
}
function mountEffectImpl(fiberFlags, hookFlags, create, createDeps) {
var hook = mountWorkInProgressHook();
createDeps = void 0 === createDeps ? null : createDeps;
currentlyRenderingFiber.flags |= fiberFlags;
hook.memoizedState = pushSimpleEffect(
1 | hookFlags,
createEffectInstance(),
create,
createDeps
);
}
function updateEffectImpl(fiberFlags, hookFlags, create, deps) {
var hook = updateWorkInProgressHook();
deps = void 0 === deps ? null : deps;
var inst = hook.memoizedState.inst;
null !== currentHook && null !== deps && areHookInputsEqual(deps, currentHook.memoizedState.deps) ? hook.memoizedState = pushSimpleEffect(hookFlags, inst, create, deps) : (currentlyRenderingFiber.flags |= fiberFlags, hook.memoizedState = pushSimpleEffect(
1 | hookFlags,
inst,
create,
deps
));
}
function mountEffect(create, createDeps) {
mountEffectImpl(8390656, 8, create, createDeps);
}
function updateEffect(create, createDeps) {
updateEffectImpl(2048, 8, create, createDeps);
}
function updateInsertionEffect(create, deps) {
return updateEffectImpl(4, 2, create, deps);
}
function updateLayoutEffect(create, deps) {
return updateEffectImpl(4, 4, create, deps);
}
function imperativeHandleEffect(create, ref) {
if ("function" === typeof ref) {
create = create();
var refCleanup = ref(create);
return function() {
"function" === typeof refCleanup ? refCleanup() : ref(null);
};
}
if (null !== ref && void 0 !== ref)
return create = create(), ref.current = create, function() {
ref.current = null;
};
}
function updateImperativeHandle(ref, create, deps) {
deps = null !== deps && void 0 !== deps ? deps.concat([ref]) : null;
updateEffectImpl(4, 4, imperativeHandleEffect.bind(null, create, ref), deps);
}
function mountDebugValue() {
}
function updateCallback(callback, deps) {
var hook = updateWorkInProgressHook();
deps = void 0 === deps ? null : deps;
var prevState = hook.memoizedState;
if (null !== deps && areHookInputsEqual(deps, prevState[1]))
return prevState[0];
hook.memoizedState = [callback, deps];
return callback;
}
function updateMemo(nextCreate, deps) {
var hook = updateWorkInProgressHook();
deps = void 0 === deps ? null : deps;
var prevState = hook.memoizedState;
if (null !== deps && areHookInputsEqual(deps, prevState[1]))
return prevState[0];
prevState = nextCreate();
if (shouldDoubleInvokeUserFnsInHooksDEV) {
setIsStrictModeForDevtools(true);
try {
nextCreate();
} finally {
setIsStrictModeForDevtools(false);
}
}
hook.memoizedState = [prevState, deps];
return prevState;
}
function mountDeferredValueImpl(hook, value, initialValue) {
if (void 0 === initialValue || 0 !== (renderLanes & 1073741824))
return hook.memoizedState = value;
hook.memoizedState = initialValue;
hook = requestDeferredLane();
currentlyRenderingFiber.lanes |= hook;
workInProgressRootSkippedLanes |= hook;
return initialValue;
}
function updateDeferredValueImpl(hook, prevValue, value, initialValue) {
if (objectIs(value, prevValue)) return value;
if (null !== currentTreeHiddenStackCursor.current)
return hook = mountDeferredValueImpl(hook, value, initialValue), objectIs(hook, prevValue) || (didReceiveUpdate = true), hook;
if (0 === (renderLanes & 42))
return didReceiveUpdate = true, hook.memoizedState = value;
hook = requestDeferredLane();
currentlyRenderingFiber.lanes |= hook;
workInProgressRootSkippedLanes |= hook;
return prevValue;
}
function startTransition(fiber, queue, pendingState, finishedState, callback) {
var previousPriority = ReactDOMSharedInternals.p;
ReactDOMSharedInternals.p = 0 !== previousPriority && 8 > previousPriority ? previousPriority : 8;
var prevTransition = ReactSharedInternals.T, currentTransition = {};
ReactSharedInternals.T = currentTransition;
dispatchOptimisticSetState(fiber, false, queue, pendingState);
try {
var returnValue = callback(), onStartTransitionFinish = ReactSharedInternals.S;
null !== onStartTransitionFinish && onStartTransitionFinish(currentTransition, returnValue);
if (null !== returnValue && "object" === typeof returnValue && "function" === typeof returnValue.then) {
var thenableForFinishedState = chainThenableValue(
returnValue,
finishedState
);
dispatchSetStateInternal(
fiber,
queue,
thenableForFinishedState,
requestUpdateLane(fiber)
);
} else
dispatchSetStateInternal(
fiber,
queue,
finishedState,
requestUpdateLane(fiber)
);
} catch (error) {
dispatchSetStateInternal(
fiber,
queue,
{ then: function() {
}, status: "rejected", reason: error },
requestUpdateLane()
);
} finally {
ReactDOMSharedInternals.p = previousPriority, ReactSharedInternals.T = prevTransition;
}
}
function noop$2() {
}
function startHostTransition(formFiber, pendingState, action, formData) {
if (5 !== formFiber.tag) throw Error(formatProdErrorMessage(476));
var queue = ensureFormComponentIsStateful(formFiber).queue;
startTransition(
formFiber,
queue,
pendingState,
sharedNotPendingObject,
null === action ? noop$2 : function() {
requestFormReset$1(formFiber);
return action(formData);
}
);
}
function ensureFormComponentIsStateful(formFiber) {
var existingStateHook = formFiber.memoizedState;
if (null !== existingStateHook) return existingStateHook;
existingStateHook = {
memoizedState: sharedNotPendingObject,
baseState: sharedNotPendingObject,
baseQueue: null,
queue: {
pending: null,
lanes: 0,
dispatch: null,
lastRenderedReducer: basicStateReducer,
lastRenderedState: sharedNotPendingObject
},
next: null
};
var initialResetState = {};
existingStateHook.next = {
memoizedState: initialResetState,
baseState: initialResetState,
baseQueue: null,
queue: {
pending: null,
lanes: 0,
dispatch: null,
lastRenderedReducer: basicStateReducer,
lastRenderedState: initialResetState
},
next: null
};
formFiber.memoizedState = existingStateHook;
formFiber = formFiber.alternate;
null !== formFiber && (formFiber.memoizedState = existingStateHook);
return existingStateHook;
}
function requestFormReset$1(formFiber) {
var resetStateQueue = ensureFormComponentIsStateful(formFiber).next.queue;
dispatchSetStateInternal(formFiber, resetStateQueue, {}, requestUpdateLane());
}
function useHostTransitionStatus() {
return readContext(HostTransitionContext);
}
function updateId() {
return updateWorkInProgressHook().memoizedState;
}
function updateRefresh() {
return updateWorkInProgressHook().memoizedState;
}
function refreshCache(fiber) {
for (var provider = fiber.return; null !== provider; ) {
switch (provider.tag) {
case 24:
case 3:
var lane = requestUpdateLane();
fiber = createUpdate(lane);
var root$41 = enqueueUpdate(provider, fiber, lane);
null !== root$41 && (scheduleUpdateOnFiber(root$41, provider, lane), entangleTransitions(root$41, provider, lane));
provider = { cache: createCache() };
fiber.payload = provider;
return;
}
provider = provider.return;
}
}
function dispatchReducerAction(fiber, queue, action) {
var lane = requestUpdateLane();
action = {
lane,
revertLane: 0,
action,
hasEagerState: false,
eagerState: null,
next: null
};
isRenderPhaseUpdate(fiber) ? enqueueRenderPhaseUpdate(queue, action) : (action = enqueueConcurrentHookUpdate(fiber, queue, action, lane), null !== action && (scheduleUpdateOnFiber(action, fiber, lane), entangleTransitionUpdate(action, queue, lane)));
}
function dispatchSetState(fiber, queue, action) {
var lane = requestUpdateLane();
dispatchSetStateInternal(fiber, queue, action, lane);
}
function dispatchSetStateInternal(fiber, queue, action, lane) {
var update = {
lane,
revertLane: 0,
action,
hasEagerState: false,
eagerState: null,
next: null
};
if (isRenderPhaseUpdate(fiber)) enqueueRenderPhaseUpdate(queue, update);
else {
var alternate = fiber.alternate;
if (0 === fiber.lanes && (null === alternate || 0 === alternate.lanes) && (alternate = queue.lastRenderedReducer, null !== alternate))
try {
var currentState = queue.lastRenderedState, eagerState = alternate(currentState, action);
update.hasEagerState = true;
update.eagerState = eagerState;
if (objectIs(eagerState, currentState))
return enqueueUpdate$1(fiber, queue, update, 0), null === workInProgressRoot && finishQueueingConcurrentUpdates(), false;
} catch (error) {
} finally {
}
action = enqueueConcurrentHookUpdate(fiber, queue, update, lane);
if (null !== action)
return scheduleUpdateOnFiber(action, fiber, lane), entangleTransitionUpdate(action, queue, lane), true;
}
return false;
}
function dispatchOptimisticSetState(fiber, throwIfDuringRender, queue, action) {
action = {
lane: 2,
revertLane: requestTransitionLane(),
action,
hasEagerState: false,
eagerState: null,
next: null
};
if (isRenderPhaseUpdate(fiber)) {
if (throwIfDuringRender) throw Error(formatProdErrorMessage(479));
} else
throwIfDuringRender = enqueueConcurrentHookUpdate(
fiber,
queue,
action,
2
), null !== throwIfDuringRender && scheduleUpdateOnFiber(throwIfDuringRender, fiber, 2);
}
function isRenderPhaseUpdate(fiber) {
var alternate = fiber.alternate;
return fiber === currentlyRenderingFiber || null !== alternate && alternate === currentlyRenderingFiber;
}
function enqueueRenderPhaseUpdate(queue, update) {
didScheduleRenderPhaseUpdateDuringThisPass = didScheduleRenderPhaseUpdate = true;
var pending = queue.pending;
null === pending ? update.next = update : (update.next = pending.next, pending.next = update);
queue.pending = update;
}
function entangleTransitionUpdate(root2, queue, lane) {
if (0 !== (lane & 4194048)) {
var queueLanes = queue.lanes;
queueLanes &= root2.pendingLanes;
lane |= queueLanes;
queue.lanes = lane;
markRootEntangled(root2, lane);
}
}
var ContextOnlyDispatcher = {
readContext,
use: use2,
useCallback: throwInvalidHookError,
useContext: throwInvalidHookError,
useEffect: throwInvalidHookError,
useImperativeHandle: throwInvalidHookError,
useLayoutEffect: throwInvalidHookError,
useInsertionEffect: throwInvalidHookError,
useMemo: throwInvalidHookError,
useReducer: throwInvalidHookError,
useRef: throwInvalidHookError,
useState: throwInvalidHookError,
useDebugValue: throwInvalidHookError,
useDeferredValue: throwInvalidHookError,
useTransition: throwInvalidHookError,
useSyncExternalStore: throwInvalidHookError,
useId: throwInvalidHookError,
useHostTransitionStatus: throwInvalidHookError,
useFormState: throwInvalidHookError,
useActionState: throwInvalidHookError,
useOptimistic: throwInvalidHookError,
useMemoCache: throwInvalidHookError,
useCacheRefresh: throwInvalidHookError
}, HooksDispatcherOnMount = {
readContext,
use: use2,
useCallback: function(callback, deps) {
mountWorkInProgressHook().memoizedState = [
callback,
void 0 === deps ? null : deps
];
return callback;
},
useContext: readContext,
useEffect: mountEffect,
useImperativeHandle: function(ref, create, deps) {
deps = null !== deps && void 0 !== deps ? deps.concat([ref]) : null;
mountEffectImpl(
4194308,
4,
imperativeHandleEffect.bind(null, create, ref),
deps
);
},
useLayoutEffect: function(create, deps) {
return mountEffectImpl(4194308, 4, create, deps);
},
useInsertionEffect: function(create, deps) {
mountEffectImpl(4, 2, create, deps);
},
useMemo: function(nextCreate, deps) {
var hook = mountWorkInProgressHook();
deps = void 0 === deps ? null : deps;
var nextValue = nextCreate();
if (shouldDoubleInvokeUserFnsInHooksDEV) {
setIsStrictModeForDevtools(true);
try {
nextCreate();
} finally {
setIsStrictModeForDevtools(false);
}
}
hook.memoizedState = [nextValue, deps];
return nextValue;
},
useReducer: function(reducer, initialArg, init) {
var hook = mountWorkInProgressHook();
if (void 0 !== init) {
var initialState = init(initialArg);
if (shouldDoubleInvokeUserFnsInHooksDEV) {
setIsStrictModeForDevtools(true);
try {
init(initialArg);
} finally {
setIsStrictModeForDevtools(false);
}
}
} else initialState = initialArg;
hook.memoizedState = hook.baseState = initialState;
reducer = {
pending: null,
lanes: 0,
dispatch: null,
lastRenderedReducer: reducer,
lastRenderedState: initialState
};
hook.queue = reducer;
reducer = reducer.dispatch = dispatchReducerAction.bind(
null,
currentlyRenderingFiber,
reducer
);
return [hook.memoizedState, reducer];
},
useRef: function(initialValue) {
var hook = mountWorkInProgressHook();
initialValue = { current: initialValue };
return hook.memoizedState = initialValue;
},
useState: function(initialState) {
initialState = mountStateImpl(initialState);
var queue = initialState.queue, dispatch = dispatchSetState.bind(null, currentlyRenderingFiber, queue);
queue.dispatch = dispatch;
return [initialState.memoizedState, dispatch];
},
useDebugValue: mountDebugValue,
useDeferredValue: function(value, initialValue) {
var hook = mountWorkInProgressHook();
return mountDeferredValueImpl(hook, value, initialValue);
},
useTransition: function() {
var stateHook = mountStateImpl(false);
stateHook = startTransition.bind(
null,
currentlyRenderingFiber,
stateHook.queue,
true,
false
);
mountWorkInProgressHook().memoizedState = stateHook;
return [false, stateHook];
},
useSyncExternalStore: function(subscribe, getSnapshot, getServerSnapshot) {
var fiber = currentlyRenderingFiber, hook = mountWorkInProgressHook();
if (isHydrating) {
if (void 0 === getServerSnapshot)
throw Error(formatProdErrorMessage(407));
getServerSnapshot = getServerSnapshot();
} else {
getServerSnapshot = getSnapshot();
if (null === workInProgressRoot)
throw Error(formatProdErrorMessage(349));
0 !== (workInProgressRootRenderLanes & 124) || pushStoreConsistencyCheck(fiber, getSnapshot, getServerSnapshot);
}
hook.memoizedState = getServerSnapshot;
var inst = { value: getServerSnapshot, getSnapshot };
hook.queue = inst;
mountEffect(subscribeToStore.bind(null, fiber, inst, subscribe), [
subscribe
]);
fiber.flags |= 2048;
pushSimpleEffect(
9,
createEffectInstance(),
updateStoreInstance.bind(
null,
fiber,
inst,
getServerSnapshot,
getSnapshot
),
null
);
return getServerSnapshot;
},
useId: function() {
var hook = mountWorkInProgressHook(), identifierPrefix = workInProgressRoot.identifierPrefix;
if (isHydrating) {
var JSCompiler_inline_result = treeContextOverflow;
var idWithLeadingBit = treeContextId;
JSCompiler_inline_result = (idWithLeadingBit & ~(1 << 32 - clz32(idWithLeadingBit) - 1)).toString(32) + JSCompiler_inline_result;
identifierPrefix = "«" + identifierPrefix + "R" + JSCompiler_inline_result;
JSCompiler_inline_result = localIdCounter++;
0 < JSCompiler_inline_result && (identifierPrefix += "H" + JSCompiler_inline_result.toString(32));
identifierPrefix += "»";
} else
JSCompiler_inline_result = globalClientIdCounter++, identifierPrefix = "«" + identifierPrefix + "r" + JSCompiler_inline_result.toString(32) + "»";
return hook.memoizedState = identifierPrefix;
},
useHostTransitionStatus,
useFormState: mountActionState,
useActionState: mountActionState,
useOptimistic: function(passthrough) {
var hook = mountWorkInProgressHook();
hook.memoizedState = hook.baseState = passthrough;
var queue = {
pending: null,
lanes: 0,
dispatch: null,
lastRenderedReducer: null,
lastRenderedState: null
};
hook.queue = queue;
hook = dispatchOptimisticSetState.bind(
null,
currentlyRenderingFiber,
true,
queue
);
queue.dispatch = hook;
return [passthrough, hook];
},
useMemoCache,
useCacheRefresh: function() {
return mountWorkInProgressHook().memoizedState = refreshCache.bind(
null,
currentlyRenderingFiber
);
}
}, HooksDispatcherOnUpdate = {
readContext,
use: use2,
useCallback: updateCallback,
useContext: readContext,
useEffect: updateEffect,
useImperativeHandle: updateImperativeHandle,
useInsertionEffect: updateInsertionEffect,
useLayoutEffect: updateLayoutEffect,
useMemo: updateMemo,
useReducer: updateReducer,
useRef: updateRef,
useState: function() {
return updateReducer(basicStateReducer);
},
useDebugValue: mountDebugValue,
useDeferredValue: function(value, initialValue) {
var hook = updateWorkInProgressHook();
return updateDeferredValueImpl(
hook,
currentHook.memoizedState,
value,
initialValue
);
},
useTransition: function() {
var booleanOrThenable = updateReducer(basicStateReducer)[0], start = updateWorkInProgressHook().memoizedState;
return [
"boolean" === typeof booleanOrThenable ? booleanOrThenable : useThenable(booleanOrThenable),
start
];
},
useSyncExternalStore: updateSyncExternalStore,
useId: updateId,
useHostTransitionStatus,
useFormState: updateActionState,
useActionState: updateActionState,
useOptimistic: function(passthrough, reducer) {
var hook = updateWorkInProgressHook();
return updateOptimisticImpl(hook, currentHook, passthrough, reducer);
},
useMemoCache,
useCacheRefresh: updateRefresh
}, HooksDispatcherOnRerender = {
readContext,
use: use2,
useCallback: updateCallback,
useContext: readContext,
useEffect: updateEffect,
useImperativeHandle: updateImperativeHandle,
useInsertionEffect: updateInsertionEffect,
useLayoutEffect: updateLayoutEffect,
useMemo: updateMemo,
useReducer: rerenderReducer,
useRef: updateRef,
useState: function() {
return rerenderReducer(basicStateReducer);
},
useDebugValue: mountDebugValue,
useDeferredValue: function(value, initialValue) {
var hook = updateWorkInProgressHook();
return null === currentHook ? mountDeferredValueImpl(hook, value, initialValue) : updateDeferredValueImpl(
hook,
currentHook.memoizedState,
value,
initialValue
);
},
useTransition: function() {
var booleanOrThenable = rerenderReducer(basicStateReducer)[0], start = updateWorkInProgressHook().memoizedState;
return [
"boolean" === typeof booleanOrThenable ? booleanOrThenable : useThenable(booleanOrThenable),
start
];
},
useSyncExternalStore: updateSyncExternalStore,
useId: updateId,
useHostTransitionStatus,
useFormState: rerenderActionState,
useActionState: rerenderActionState,
useOptimistic: function(passthrough, reducer) {
var hook = updateWorkInProgressHook();
if (null !== currentHook)
return updateOptimisticImpl(hook, currentHook, passthrough, reducer);
hook.baseState = passthrough;
return [passthrough, hook.queue.dispatch];
},
useMemoCache,
useCacheRefresh: updateRefresh
}, thenableState = null, thenableIndexCounter = 0;
function unwrapThenable(thenable) {
var index2 = thenableIndexCounter;
thenableIndexCounter += 1;
null === thenableState && (thenableState = []);
return trackUsedThenable(thenableState, thenable, index2);
}
function coerceRef(workInProgress2, element) {
element = element.props.ref;
workInProgress2.ref = void 0 !== element ? element : null;
}
function throwOnInvalidObjectType(returnFiber, newChild) {
if (newChild.$$typeof === REACT_LEGACY_ELEMENT_TYPE)
throw Error(formatProdErrorMessage(525));
returnFiber = Object.prototype.toString.call(newChild);
throw Error(
formatProdErrorMessage(
31,
"[object Object]" === returnFiber ? "object with keys {" + Object.keys(newChild).join(", ") + "}" : returnFiber
)
);
}
function resolveLazy(lazyType) {
var init = lazyType._init;
return init(lazyType._payload);
}
function createChildReconciler(shouldTrackSideEffects) {
function deleteChild(returnFiber, childToDelete) {
if (shouldTrackSideEffects) {
var deletions = returnFiber.deletions;
null === deletions ? (returnFiber.deletions = [childToDelete], returnFiber.flags |= 16) : deletions.push(childToDelete);
}
}
function deleteRemainingChildren(returnFiber, currentFirstChild) {
if (!shouldTrackSideEffects) return null;
for (; null !== currentFirstChild; )
deleteChild(returnFiber, currentFirstChild), currentFirstChild = currentFirstChild.sibling;
return null;
}
function mapRemainingChildren(currentFirstChild) {
for (var existingChildren = /* @__PURE__ */ new Map(); null !== currentFirstChild; )
null !== currentFirstChild.key ? existingChildren.set(currentFirstChild.key, currentFirstChild) : existingChildren.set(currentFirstChild.index, currentFirstChild), currentFirstChild = currentFirstChild.sibling;
return existingChildren;
}
function useFiber(fiber, pendingProps) {
fiber = createWorkInProgress(fiber, pendingProps);
fiber.index = 0;
fiber.sibling = null;
return fiber;
}
function placeChild(newFiber, lastPlacedIndex, newIndex) {
newFiber.index = newIndex;
if (!shouldTrackSideEffects)
return newFiber.flags |= 1048576, lastPlacedIndex;
newIndex = newFiber.alternate;
if (null !== newIndex)
return newIndex = newIndex.index, newIndex < lastPlacedIndex ? (newFiber.flags |= 67108866, lastPlacedIndex) : newIndex;
newFiber.flags |= 67108866;
return lastPlacedIndex;
}
function placeSingleChild(newFiber) {
shouldTrackSideEffects && null === newFiber.alternate && (newFiber.flags |= 67108866);
return newFiber;
}
function updateTextNode(returnFiber, current, textContent, lanes) {
if (null === current || 6 !== current.tag)
return current = createFiberFromText(textContent, returnFiber.mode, lanes), current.return = returnFiber, current;
current = useFiber(current, textContent);
current.return = returnFiber;
return current;
}
function updateElement(returnFiber, current, element, lanes) {
var elementType = element.type;
if (elementType === REACT_FRAGMENT_TYPE)
return updateFragment(
returnFiber,
current,
element.props.children,
lanes,
element.key
);
if (null !== current && (current.elementType === elementType || "object" === typeof elementType && null !== elementType && elementType.$$typeof === REACT_LAZY_TYPE && resolveLazy(elementType) === current.type))
return current = useFiber(current, element.props), coerceRef(current, element), current.return = returnFiber, current;
current = createFiberFromTypeAndProps(
element.type,
element.key,
element.props,
null,
returnFiber.mode,
lanes
);
coerceRef(current, element);
current.return = returnFiber;
return current;
}
function updatePortal(returnFiber, current, portal, lanes) {
if (null === current || 4 !== current.tag || current.stateNode.containerInfo !== portal.containerInfo || current.stateNode.implementation !== portal.implementation)
return current = createFiberFromPortal(portal, returnFiber.mode, lanes), current.return = returnFiber, current;
current = useFiber(current, portal.children || []);
current.return = returnFiber;
return current;
}
function updateFragment(returnFiber, current, fragment, lanes, key) {
if (null === current || 7 !== current.tag)
return current = createFiberFromFragment(
fragment,
returnFiber.mode,
lanes,
key
), current.return = returnFiber, current;
current = useFiber(current, fragment);
current.return = returnFiber;
return current;
}
function createChild(returnFiber, newChild, lanes) {
if ("string" === typeof newChild && "" !== newChild || "number" === typeof newChild || "bigint" === typeof newChild)
return newChild = createFiberFromText(
"" + newChild,
returnFiber.mode,
lanes
), newChild.return = returnFiber, newChild;
if ("object" === typeof newChild && null !== newChild) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
return lanes = createFiberFromTypeAndProps(
newChild.type,
newChild.key,
newChild.props,
null,
returnFiber.mode,
lanes
), coerceRef(lanes, newChild), lanes.return = returnFiber, lanes;
case REACT_PORTAL_TYPE:
return newChild = createFiberFromPortal(
newChild,
returnFiber.mode,
lanes
), newChild.return = returnFiber, newChild;
case REACT_LAZY_TYPE:
var init = newChild._init;
newChild = init(newChild._payload);
return createChild(returnFiber, newChild, lanes);
}
if (isArrayImpl(newChild) || getIteratorFn(newChild))
return newChild = createFiberFromFragment(
newChild,
returnFiber.mode,
lanes,
null
), newChild.return = returnFiber, newChild;
if ("function" === typeof newChild.then)
return createChild(returnFiber, unwrapThenable(newChild), lanes);
if (newChild.$$typeof === REACT_CONTEXT_TYPE)
return createChild(
returnFiber,
readContextDuringReconciliation(returnFiber, newChild),
lanes
);
throwOnInvalidObjectType(returnFiber, newChild);
}
return null;
}
function updateSlot(returnFiber, oldFiber, newChild, lanes) {
var key = null !== oldFiber ? oldFiber.key : null;
if ("string" === typeof newChild && "" !== newChild || "number" === typeof newChild || "bigint" === typeof newChild)
return null !== key ? null : updateTextNode(returnFiber, oldFiber, "" + newChild, lanes);
if ("object" === typeof newChild && null !== newChild) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
return newChild.key === key ? updateElement(returnFiber, oldFiber, newChild, lanes) : null;
case REACT_PORTAL_TYPE:
return newChild.key === key ? updatePortal(returnFiber, oldFiber, newChild, lanes) : null;
case REACT_LAZY_TYPE:
return key = newChild._init, newChild = key(newChild._payload), updateSlot(returnFiber, oldFiber, newChild, lanes);
}
if (isArrayImpl(newChild) || getIteratorFn(newChild))
return null !== key ? null : updateFragment(returnFiber, oldFiber, newChild, lanes, null);
if ("function" === typeof newChild.then)
return updateSlot(
returnFiber,
oldFiber,
unwrapThenable(newChild),
lanes
);
if (newChild.$$typeof === REACT_CONTEXT_TYPE)
return updateSlot(
returnFiber,
oldFiber,
readContextDuringReconciliation(returnFiber, newChild),
lanes
);
throwOnInvalidObjectType(returnFiber, newChild);
}
return null;
}
function updateFromMap(existingChildren, returnFiber, newIdx, newChild, lanes) {
if ("string" === typeof newChild && "" !== newChild || "number" === typeof newChild || "bigint" === typeof newChild)
return existingChildren = existingChildren.get(newIdx) || null, updateTextNode(returnFiber, existingChildren, "" + newChild, lanes);
if ("object" === typeof newChild && null !== newChild) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
return existingChildren = existingChildren.get(
null === newChild.key ? newIdx : newChild.key
) || null, updateElement(returnFiber, existingChildren, newChild, lanes);
case REACT_PORTAL_TYPE:
return existingChildren = existingChildren.get(
null === newChild.key ? newIdx : newChild.key
) || null, updatePortal(returnFiber, existingChildren, newChild, lanes);
case REACT_LAZY_TYPE:
var init = newChild._init;
newChild = init(newChild._payload);
return updateFromMap(
existingChildren,
returnFiber,
newIdx,
newChild,
lanes
);
}
if (isArrayImpl(newChild) || getIteratorFn(newChild))
return existingChildren = existingChildren.get(newIdx) || null, updateFragment(returnFiber, existingChildren, newChild, lanes, null);
if ("function" === typeof newChild.then)
return updateFromMap(
existingChildren,
returnFiber,
newIdx,
unwrapThenable(newChild),
lanes
);
if (newChild.$$typeof === REACT_CONTEXT_TYPE)
return updateFromMap(
existingChildren,
returnFiber,
newIdx,
readContextDuringReconciliation(returnFiber, newChild),
lanes
);
throwOnInvalidObjectType(returnFiber, newChild);
}
return null;
}
function reconcileChildrenArray(returnFiber, currentFirstChild, newChildren, lanes) {
for (var resultingFirstChild = null, previousNewFiber = null, oldFiber = currentFirstChild, newIdx = currentFirstChild = 0, nextOldFiber = null; null !== oldFiber && newIdx < newChildren.length; newIdx++) {
oldFiber.index > newIdx ? (nextOldFiber = oldFiber, oldFiber = null) : nextOldFiber = oldFiber.sibling;
var newFiber = updateSlot(
returnFiber,
oldFiber,
newChildren[newIdx],
lanes
);
if (null === newFiber) {
null === oldFiber && (oldFiber = nextOldFiber);
break;
}
shouldTrackSideEffects && oldFiber && null === newFiber.alternate && deleteChild(returnFiber, oldFiber);
currentFirstChild = placeChild(newFiber, currentFirstChild, newIdx);
null === previousNewFiber ? resultingFirstChild = newFiber : previousNewFiber.sibling = newFiber;
previousNewFiber = newFiber;
oldFiber = nextOldFiber;
}
if (newIdx === newChildren.length)
return deleteRemainingChildren(returnFiber, oldFiber), isHydrating && pushTreeFork(returnFiber, newIdx), resultingFirstChild;
if (null === oldFiber) {
for (; newIdx < newChildren.length; newIdx++)
oldFiber = createChild(returnFiber, newChildren[newIdx], lanes), null !== oldFiber && (currentFirstChild = placeChild(
oldFiber,
currentFirstChild,
newIdx
), null === previousNewFiber ? resultingFirstChild = oldFiber : previousNewFiber.sibling = oldFiber, previousNewFiber = oldFiber);
isHydrating && pushTreeFork(returnFiber, newIdx);
return resultingFirstChild;
}
for (oldFiber = mapRemainingChildren(oldFiber); newIdx < newChildren.length; newIdx++)
nextOldFiber = updateFromMap(
oldFiber,
returnFiber,
newIdx,
newChildren[newIdx],
lanes
), null !== nextOldFiber && (shouldTrackSideEffects && null !== nextOldFiber.alternate && oldFiber.delete(
null === nextOldFiber.key ? newIdx : nextOldFiber.key
), currentFirstChild = placeChild(
nextOldFiber,
currentFirstChild,
newIdx
), null === previousNewFiber ? resultingFirstChild = nextOldFiber : previousNewFiber.sibling = nextOldFiber, previousNewFiber = nextOldFiber);
shouldTrackSideEffects && oldFiber.forEach(function(child) {
return deleteChild(returnFiber, child);
});
isHydrating && pushTreeFork(returnFiber, newIdx);
return resultingFirstChild;
}
function reconcileChildrenIterator(returnFiber, currentFirstChild, newChildren, lanes) {
if (null == newChildren) throw Error(formatProdErrorMessage(151));
for (var resultingFirstChild = null, previousNewFiber = null, oldFiber = currentFirstChild, newIdx = currentFirstChild = 0, nextOldFiber = null, step = newChildren.next(); null !== oldFiber && !step.done; newIdx++, step = newChildren.next()) {
oldFiber.index > newIdx ? (nextOldFiber = oldFiber, oldFiber = null) : nextOldFiber = oldFiber.sibling;
var newFiber = updateSlot(returnFiber, oldFiber, step.value, lanes);
if (null === newFiber) {
null === oldFiber && (oldFiber = nextOldFiber);
break;
}
shouldTrackSideEffects && oldFiber && null === newFiber.alternate && deleteChild(returnFiber, oldFiber);
currentFirstChild = placeChild(newFiber, currentFirstChild, newIdx);
null === previousNewFiber ? resultingFirstChild = newFiber : previousNewFiber.sibling = newFiber;
previousNewFiber = newFiber;
oldFiber = nextOldFiber;
}
if (step.done)
return deleteRemainingChildren(returnFiber, oldFiber), isHydrating && pushTreeFork(returnFiber, newIdx), resultingFirstChild;
if (null === oldFiber) {
for (; !step.done; newIdx++, step = newChildren.next())
step = createChild(returnFiber, step.value, lanes), null !== step && (currentFirstChild = placeChild(step, currentFirstChild, newIdx), null === previousNewFiber ? resultingFirstChild = step : previousNewFiber.sibling = step, previousNewFiber = step);
isHydrating && pushTreeFork(returnFiber, newIdx);
return resultingFirstChild;
}
for (oldFiber = mapRemainingChildren(oldFiber); !step.done; newIdx++, step = newChildren.next())
step = updateFromMap(oldFiber, returnFiber, newIdx, step.value, lanes), null !== step && (shouldTrackSideEffects && null !== step.alternate && oldFiber.delete(null === step.key ? newIdx : step.key), currentFirstChild = placeChild(step, currentFirstChild, newIdx), null === previousNewFiber ? resultingFirstChild = step : previousNewFiber.sibling = step, previousNewFiber = step);
shouldTrackSideEffects && oldFiber.forEach(function(child) {
return deleteChild(returnFiber, child);
});
isHydrating && pushTreeFork(returnFiber, newIdx);
return resultingFirstChild;
}
function reconcileChildFibersImpl(returnFiber, currentFirstChild, newChild, lanes) {
"object" === typeof newChild && null !== newChild && newChild.type === REACT_FRAGMENT_TYPE && null === newChild.key && (newChild = newChild.props.children);
if ("object" === typeof newChild && null !== newChild) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
a: {
for (var key = newChild.key; null !== currentFirstChild; ) {
if (currentFirstChild.key === key) {
key = newChild.type;
if (key === REACT_FRAGMENT_TYPE) {
if (7 === currentFirstChild.tag) {
deleteRemainingChildren(
returnFiber,
currentFirstChild.sibling
);
lanes = useFiber(
currentFirstChild,
newChild.props.children
);
lanes.return = returnFiber;
returnFiber = lanes;
break a;
}
} else if (currentFirstChild.elementType === key || "object" === typeof key && null !== key && key.$$typeof === REACT_LAZY_TYPE && resolveLazy(key) === currentFirstChild.type) {
deleteRemainingChildren(
returnFiber,
currentFirstChild.sibling
);
lanes = useFiber(currentFirstChild, newChild.props);
coerceRef(lanes, newChild);
lanes.return = returnFiber;
returnFiber = lanes;
break a;
}
deleteRemainingChildren(returnFiber, currentFirstChild);
break;
} else deleteChild(returnFiber, currentFirstChild);
currentFirstChild = currentFirstChild.sibling;
}
newChild.type === REACT_FRAGMENT_TYPE ? (lanes = createFiberFromFragment(
newChild.props.children,
returnFiber.mode,
lanes,
newChild.key
), lanes.return = returnFiber, returnFiber = lanes) : (lanes = createFiberFromTypeAndProps(
newChild.type,
newChild.key,
newChild.props,
null,
returnFiber.mode,
lanes
), coerceRef(lanes, newChild), lanes.return = returnFiber, returnFiber = lanes);
}
return placeSingleChild(returnFiber);
case REACT_PORTAL_TYPE:
a: {
for (key = newChild.key; null !== currentFirstChild; ) {
if (currentFirstChild.key === key)
if (4 === currentFirstChild.tag && currentFirstChild.stateNode.containerInfo === newChild.containerInfo && currentFirstChild.stateNode.implementation === newChild.implementation) {
deleteRemainingChildren(
returnFiber,
currentFirstChild.sibling
);
lanes = useFiber(currentFirstChild, newChild.children || []);
lanes.return = returnFiber;
returnFiber = lanes;
break a;
} else {
deleteRemainingChildren(returnFiber, currentFirstChild);
break;
}
else deleteChild(returnFiber, currentFirstChild);
currentFirstChild = currentFirstChild.sibling;
}
lanes = createFiberFromPortal(newChild, returnFiber.mode, lanes);
lanes.return = returnFiber;
returnFiber = lanes;
}
return placeSingleChild(returnFiber);
case REACT_LAZY_TYPE:
return key = newChild._init, newChild = key(newChild._payload), reconcileChildFibersImpl(
returnFiber,
currentFirstChild,
newChild,
lanes
);
}
if (isArrayImpl(newChild))
return reconcileChildrenArray(
returnFiber,
currentFirstChild,
newChild,
lanes
);
if (getIteratorFn(newChild)) {
key = getIteratorFn(newChild);
if ("function" !== typeof key) throw Error(formatProdErrorMessage(150));
newChild = key.call(newChild);
return reconcileChildrenIterator(
returnFiber,
currentFirstChild,
newChild,
lanes
);
}
if ("function" === typeof newChild.then)
return reconcileChildFibersImpl(
returnFiber,
currentFirstChild,
unwrapThenable(newChild),
lanes
);
if (newChild.$$typeof === REACT_CONTEXT_TYPE)
return reconcileChildFibersImpl(
returnFiber,
currentFirstChild,
readContextDuringReconciliation(returnFiber, newChild),
lanes
);
throwOnInvalidObjectType(returnFiber, newChild);
}
return "string" === typeof newChild && "" !== newChild || "number" === typeof newChild || "bigint" === typeof newChild ? (newChild = "" + newChild, null !== currentFirstChild && 6 === currentFirstChild.tag ? (deleteRemainingChildren(returnFiber, currentFirstChild.sibling), lanes = useFiber(currentFirstChild, newChild), lanes.return = returnFiber, returnFiber = lanes) : (deleteRemainingChildren(returnFiber, currentFirstChild), lanes = createFiberFromText(newChild, returnFiber.mode, lanes), lanes.return = returnFiber, returnFiber = lanes), placeSingleChild(returnFiber)) : deleteRemainingChildren(returnFiber, currentFirstChild);
}
return function(returnFiber, currentFirstChild, newChild, lanes) {
try {
thenableIndexCounter = 0;
var firstChildFiber = reconcileChildFibersImpl(
returnFiber,
currentFirstChild,
newChild,
lanes
);
thenableState = null;
return firstChildFiber;
} catch (x) {
if (x === SuspenseException || x === SuspenseActionException) throw x;
var fiber = createFiberImplClass(29, x, null, returnFiber.mode);
fiber.lanes = lanes;
fiber.return = returnFiber;
return fiber;
} finally {
}
};
}
var reconcileChildFibers = createChildReconciler(true), mountChildFibers = createChildReconciler(false), suspenseHandlerStackCursor = createCursor(null), shellBoundary = null;
function pushPrimaryTreeSuspenseHandler(handler) {
var current = handler.alternate;
push(suspenseStackCursor, suspenseStackCursor.current & 1);
push(suspenseHandlerStackCursor, handler);
null === shellBoundary && (null === current || null !== currentTreeHiddenStackCursor.current ? shellBoundary = handler : null !== current.memoizedState && (shellBoundary = handler));
}
function pushOffscreenSuspenseHandler(fiber) {
if (22 === fiber.tag) {
if (push(suspenseStackCursor, suspenseStackCursor.current), push(suspenseHandlerStackCursor, fiber), null === shellBoundary) {
var current = fiber.alternate;
null !== current && null !== current.memoizedState && (shellBoundary = fiber);
}
} else reuseSuspenseHandlerOnStack();
}
function reuseSuspenseHandlerOnStack() {
push(suspenseStackCursor, suspenseStackCursor.current);
push(suspenseHandlerStackCursor, suspenseHandlerStackCursor.current);
}
function popSuspenseHandler(fiber) {
pop(suspenseHandlerStackCursor);
shellBoundary === fiber && (shellBoundary = null);
pop(suspenseStackCursor);
}
var suspenseStackCursor = createCursor(0);
function findFirstSuspended(row) {
for (var node = row; null !== node; ) {
if (13 === node.tag) {
var state = node.memoizedState;
if (null !== state && (state = state.dehydrated, null === state || "$?" === state.data || isSuspenseInstanceFallback(state)))
return node;
} else if (19 === node.tag && void 0 !== node.memoizedProps.revealOrder) {
if (0 !== (node.flags & 128)) return node;
} else if (null !== node.child) {
node.child.return = node;
node = node.child;
continue;
}
if (node === row) break;
for (; null === node.sibling; ) {
if (null === node.return || node.return === row) return null;
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
return null;
}
function applyDerivedStateFromProps(workInProgress2, ctor, getDerivedStateFromProps, nextProps) {
ctor = workInProgress2.memoizedState;
getDerivedStateFromProps = getDerivedStateFromProps(nextProps, ctor);
getDerivedStateFromProps = null === getDerivedStateFromProps || void 0 === getDerivedStateFromProps ? ctor : assign({}, ctor, getDerivedStateFromProps);
workInProgress2.memoizedState = getDerivedStateFromProps;
0 === workInProgress2.lanes && (workInProgress2.updateQueue.baseState = getDerivedStateFromProps);
}
var classComponentUpdater = {
enqueueSetState: function(inst, payload, callback) {
inst = inst._reactInternals;
var lane = requestUpdateLane(), update = createUpdate(lane);
update.payload = payload;
void 0 !== callback && null !== callback && (update.callback = callback);
payload = enqueueUpdate(inst, update, lane);
null !== payload && (scheduleUpdateOnFiber(payload, inst, lane), entangleTransitions(payload, inst, lane));
},
enqueueReplaceState: function(inst, payload, callback) {
inst = inst._reactInternals;
var lane = requestUpdateLane(), update = createUpdate(lane);
update.tag = 1;
update.payload = payload;
void 0 !== callback && null !== callback && (update.callback = callback);
payload = enqueueUpdate(inst, update, lane);
null !== payload && (scheduleUpdateOnFiber(payload, inst, lane), entangleTransitions(payload, inst, lane));
},
enqueueForceUpdate: function(inst, callback) {
inst = inst._reactInternals;
var lane = requestUpdateLane(), update = createUpdate(lane);
update.tag = 2;
void 0 !== callback && null !== callback && (update.callback = callback);
callback = enqueueUpdate(inst, update, lane);
null !== callback && (scheduleUpdateOnFiber(callback, inst, lane), entangleTransitions(callback, inst, lane));
}
};
function checkShouldComponentUpdate(workInProgress2, ctor, oldProps, newProps, oldState, newState, nextContext) {
workInProgress2 = workInProgress2.stateNode;
return "function" === typeof workInProgress2.shouldComponentUpdate ? workInProgress2.shouldComponentUpdate(newProps, newState, nextContext) : ctor.prototype && ctor.prototype.isPureReactComponent ? !shallowEqual(oldProps, newProps) || !shallowEqual(oldState, newState) : true;
}
function callComponentWillReceiveProps(workInProgress2, instance, newProps, nextContext) {
workInProgress2 = instance.state;
"function" === typeof instance.componentWillReceiveProps && instance.componentWillReceiveProps(newProps, nextContext);
"function" === typeof instance.UNSAFE_componentWillReceiveProps && instance.UNSAFE_componentWillReceiveProps(newProps, nextContext);
instance.state !== workInProgress2 && classComponentUpdater.enqueueReplaceState(instance, instance.state, null);
}
function resolveClassComponentProps(Component, baseProps) {
var newProps = baseProps;
if ("ref" in baseProps) {
newProps = {};
for (var propName in baseProps)
"ref" !== propName && (newProps[propName] = baseProps[propName]);
}
if (Component = Component.defaultProps) {
newProps === baseProps && (newProps = assign({}, newProps));
for (var propName$73 in Component)
void 0 === newProps[propName$73] && (newProps[propName$73] = Component[propName$73]);
}
return newProps;
}
var reportGlobalError = "function" === typeof reportError ? reportError : function(error) {
if ("object" === typeof window && "function" === typeof window.ErrorEvent) {
var event = new window.ErrorEvent("error", {
bubbles: true,
cancelable: true,
message: "object" === typeof error && null !== error && "string" === typeof error.message ? String(error.message) : String(error),
error
});
if (!window.dispatchEvent(event)) return;
} else if ("object" === typeof process && "function" === typeof process.emit) {
process.emit("uncaughtException", error);
return;
}
console.error(error);
};
function defaultOnUncaughtError(error) {
reportGlobalError(error);
}
function defaultOnCaughtError(error) {
console.error(error);
}
function defaultOnRecoverableError(error) {
reportGlobalError(error);
}
function logUncaughtError(root2, errorInfo) {
try {
var onUncaughtError = root2.onUncaughtError;
onUncaughtError(errorInfo.value, { componentStack: errorInfo.stack });
} catch (e$74) {
setTimeout(function() {
throw e$74;
});
}
}
function logCaughtError(root2, boundary, errorInfo) {
try {
var onCaughtError = root2.onCaughtError;
onCaughtError(errorInfo.value, {
componentStack: errorInfo.stack,
errorBoundary: 1 === boundary.tag ? boundary.stateNode : null
});
} catch (e$75) {
setTimeout(function() {
throw e$75;
});
}
}
function createRootErrorUpdate(root2, errorInfo, lane) {
lane = createUpdate(lane);
lane.tag = 3;
lane.payload = { element: null };
lane.callback = function() {
logUncaughtError(root2, errorInfo);
};
return lane;
}
function createClassErrorUpdate(lane) {
lane = createUpdate(lane);
lane.tag = 3;
return lane;
}
function initializeClassErrorUpdate(update, root2, fiber, errorInfo) {
var getDerivedStateFromError = fiber.type.getDerivedStateFromError;
if ("function" === typeof getDerivedStateFromError) {
var error = errorInfo.value;
update.payload = function() {
return getDerivedStateFromError(error);
};
update.callback = function() {
logCaughtError(root2, fiber, errorInfo);
};
}
var inst = fiber.stateNode;
null !== inst && "function" === typeof inst.componentDidCatch && (update.callback = function() {
logCaughtError(root2, fiber, errorInfo);
"function" !== typeof getDerivedStateFromError && (null === legacyErrorBoundariesThatAlreadyFailed ? legacyErrorBoundariesThatAlreadyFailed = /* @__PURE__ */ new Set([this]) : legacyErrorBoundariesThatAlreadyFailed.add(this));
var stack = errorInfo.stack;
this.componentDidCatch(errorInfo.value, {
componentStack: null !== stack ? stack : ""
});
});
}
function throwException(root2, returnFiber, sourceFiber, value, rootRenderLanes) {
sourceFiber.flags |= 32768;
if (null !== value && "object" === typeof value && "function" === typeof value.then) {
returnFiber = sourceFiber.alternate;
null !== returnFiber && propagateParentContextChanges(
returnFiber,
sourceFiber,
rootRenderLanes,
true
);
sourceFiber = suspenseHandlerStackCursor.current;
if (null !== sourceFiber) {
switch (sourceFiber.tag) {
case 13:
return null === shellBoundary ? renderDidSuspendDelayIfPossible() : null === sourceFiber.alternate && 0 === workInProgressRootExitStatus && (workInProgressRootExitStatus = 3), sourceFiber.flags &= -257, sourceFiber.flags |= 65536, sourceFiber.lanes = rootRenderLanes, value === noopSuspenseyCommitThenable ? sourceFiber.flags |= 16384 : (returnFiber = sourceFiber.updateQueue, null === returnFiber ? sourceFiber.updateQueue = /* @__PURE__ */ new Set([value]) : returnFiber.add(value), attachPingListener(root2, value, rootRenderLanes)), false;
case 22:
return sourceFiber.flags |= 65536, value === noopSuspenseyCommitThenable ? sourceFiber.flags |= 16384 : (returnFiber = sourceFiber.updateQueue, null === returnFiber ? (returnFiber = {
transitions: null,
markerInstances: null,
retryQueue: /* @__PURE__ */ new Set([value])
}, sourceFiber.updateQueue = returnFiber) : (sourceFiber = returnFiber.retryQueue, null === sourceFiber ? returnFiber.retryQueue = /* @__PURE__ */ new Set([value]) : sourceFiber.add(value)), attachPingListener(root2, value, rootRenderLanes)), false;
}
throw Error(formatProdErrorMessage(435, sourceFiber.tag));
}
attachPingListener(root2, value, rootRenderLanes);
renderDidSuspendDelayIfPossible();
return false;
}
if (isHydrating)
return returnFiber = suspenseHandlerStackCursor.current, null !== returnFiber ? (0 === (returnFiber.flags & 65536) && (returnFiber.flags |= 256), returnFiber.flags |= 65536, returnFiber.lanes = rootRenderLanes, value !== HydrationMismatchException && (root2 = Error(formatProdErrorMessage(422), { cause: value }), queueHydrationError(createCapturedValueAtFiber(root2, sourceFiber)))) : (value !== HydrationMismatchException && (returnFiber = Error(formatProdErrorMessage(423), {
cause: value
}), queueHydrationError(
createCapturedValueAtFiber(returnFiber, sourceFiber)
)), root2 = root2.current.alternate, root2.flags |= 65536, rootRenderLanes &= -rootRenderLanes, root2.lanes |= rootRenderLanes, value = createCapturedValueAtFiber(value, sourceFiber), rootRenderLanes = createRootErrorUpdate(
root2.stateNode,
value,
rootRenderLanes
), enqueueCapturedUpdate(root2, rootRenderLanes), 4 !== workInProgressRootExitStatus && (workInProgressRootExitStatus = 2)), false;
var wrapperError = Error(formatProdErrorMessage(520), { cause: value });
wrapperError = createCapturedValueAtFiber(wrapperError, sourceFiber);
null === workInProgressRootConcurrentErrors ? workInProgressRootConcurrentErrors = [wrapperError] : workInProgressRootConcurrentErrors.push(wrapperError);
4 !== workInProgressRootExitStatus && (workInProgressRootExitStatus = 2);
if (null === returnFiber) return true;
value = createCapturedValueAtFiber(value, sourceFiber);
sourceFiber = returnFiber;
do {
switch (sourceFiber.tag) {
case 3:
return sourceFiber.flags |= 65536, root2 = rootRenderLanes & -rootRenderLanes, sourceFiber.lanes |= root2, root2 = createRootErrorUpdate(sourceFiber.stateNode, value, root2), enqueueCapturedUpdate(sourceFiber, root2), false;
case 1:
if (returnFiber = sourceFiber.type, wrapperError = sourceFiber.stateNode, 0 === (sourceFiber.flags & 128) && ("function" === typeof returnFiber.getDerivedStateFromError || null !== wrapperError && "function" === typeof wrapperError.componentDidCatch && (null === legacyErrorBoundariesThatAlreadyFailed || !legacyErrorBoundariesThatAlreadyFailed.has(wrapperError))))
return sourceFiber.flags |= 65536, rootRenderLanes &= -rootRenderLanes, sourceFiber.lanes |= rootRenderLanes, rootRenderLanes = createClassErrorUpdate(rootRenderLanes), initializeClassErrorUpdate(
rootRenderLanes,
root2,
sourceFiber,
value
), enqueueCapturedUpdate(sourceFiber, rootRenderLanes), false;
}
sourceFiber = sourceFiber.return;
} while (null !== sourceFiber);
return false;
}
var SelectiveHydrationException = Error(formatProdErrorMessage(461)), didReceiveUpdate = false;
function reconcileChildren(current, workInProgress2, nextChildren, renderLanes2) {
workInProgress2.child = null === current ? mountChildFibers(workInProgress2, null, nextChildren, renderLanes2) : reconcileChildFibers(
workInProgress2,
current.child,
nextChildren,
renderLanes2
);
}
function updateForwardRef(current, workInProgress2, Component, nextProps, renderLanes2) {
Component = Component.render;
var ref = workInProgress2.ref;
if ("ref" in nextProps) {
var propsWithoutRef = {};
for (var key in nextProps)
"ref" !== key && (propsWithoutRef[key] = nextProps[key]);
} else propsWithoutRef = nextProps;
prepareToReadContext(workInProgress2);
nextProps = renderWithHooks(
current,
workInProgress2,
Component,
propsWithoutRef,
ref,
renderLanes2
);
key = checkDidRenderIdHook();
if (null !== current && !didReceiveUpdate)
return bailoutHooks(current, workInProgress2, renderLanes2), bailoutOnAlreadyFinishedWork(current, workInProgress2, renderLanes2);
isHydrating && key && pushMaterializedTreeId(workInProgress2);
workInProgress2.flags |= 1;
reconcileChildren(current, workInProgress2, nextProps, renderLanes2);
return workInProgress2.child;
}
function updateMemoComponent(current, workInProgress2, Component, nextProps, renderLanes2) {
if (null === current) {
var type = Component.type;
if ("function" === typeof type && !shouldConstruct(type) && void 0 === type.defaultProps && null === Component.compare)
return workInProgress2.tag = 15, workInProgress2.type = type, updateSimpleMemoComponent(
current,
workInProgress2,
type,
nextProps,
renderLanes2
);
current = createFiberFromTypeAndProps(
Component.type,
null,
nextProps,
workInProgress2,
workInProgress2.mode,
renderLanes2
);
current.ref = workInProgress2.ref;
current.return = workInProgress2;
return workInProgress2.child = current;
}
type = current.child;
if (!checkScheduledUpdateOrContext(current, renderLanes2)) {
var prevProps = type.memoizedProps;
Component = Component.compare;
Component = null !== Component ? Component : shallowEqual;
if (Component(prevProps, nextProps) && current.ref === workInProgress2.ref)
return bailoutOnAlreadyFinishedWork(current, workInProgress2, renderLanes2);
}
workInProgress2.flags |= 1;
current = createWorkInProgress(type, nextProps);
current.ref = workInProgress2.ref;
current.return = workInProgress2;
return workInProgress2.child = current;
}
function updateSimpleMemoComponent(current, workInProgress2, Component, nextProps, renderLanes2) {
if (null !== current) {
var prevProps = current.memoizedProps;
if (shallowEqual(prevProps, nextProps) && current.ref === workInProgress2.ref)
if (didReceiveUpdate = false, workInProgress2.pendingProps = nextProps = prevProps, checkScheduledUpdateOrContext(current, renderLanes2))
0 !== (current.flags & 131072) && (didReceiveUpdate = true);
else
return workInProgress2.lanes = current.lanes, bailoutOnAlreadyFinishedWork(current, workInProgress2, renderLanes2);
}
return updateFunctionComponent(
current,
workInProgress2,
Component,
nextProps,
renderLanes2
);
}
function updateOffscreenComponent(current, workInProgress2, renderLanes2) {
var nextProps = workInProgress2.pendingProps, nextChildren = nextProps.children, prevState = null !== current ? current.memoizedState : null;
if ("hidden" === nextProps.mode) {
if (0 !== (workInProgress2.flags & 128)) {
nextProps = null !== prevState ? prevState.baseLanes | renderLanes2 : renderLanes2;
if (null !== current) {
nextChildren = workInProgress2.child = current.child;
for (prevState = 0; null !== nextChildren; )
prevState = prevState | nextChildren.lanes | nextChildren.childLanes, nextChildren = nextChildren.sibling;
workInProgress2.childLanes = prevState & ~nextProps;
} else workInProgress2.childLanes = 0, workInProgress2.child = null;
return deferHiddenOffscreenComponent(
current,
workInProgress2,
nextProps,
renderLanes2
);
}
if (0 !== (renderLanes2 & 536870912))
workInProgress2.memoizedState = { baseLanes: 0, cachePool: null }, null !== current && pushTransition(
workInProgress2,
null !== prevState ? prevState.cachePool : null
), null !== prevState ? pushHiddenContext(workInProgress2, prevState) : reuseHiddenContextOnStack(), pushOffscreenSuspenseHandler(workInProgress2);
else
return workInProgress2.lanes = workInProgress2.childLanes = 536870912, deferHiddenOffscreenComponent(
current,
workInProgress2,
null !== prevState ? prevState.baseLanes | renderLanes2 : renderLanes2,
renderLanes2
);
} else
null !== prevState ? (pushTransition(workInProgress2, prevState.cachePool), pushHiddenContext(workInProgress2, prevState), reuseSuspenseHandlerOnStack(), workInProgress2.memoizedState = null) : (null !== current && pushTransition(workInProgress2, null), reuseHiddenContextOnStack(), reuseSuspenseHandlerOnStack());
reconcileChildren(current, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function deferHiddenOffscreenComponent(current, workInProgress2, nextBaseLanes, renderLanes2) {
var JSCompiler_inline_result = peekCacheFromPool();
JSCompiler_inline_result = null === JSCompiler_inline_result ? null : { parent: CacheContext._currentValue, pool: JSCompiler_inline_result };
workInProgress2.memoizedState = {
baseLanes: nextBaseLanes,
cachePool: JSCompiler_inline_result
};
null !== current && pushTransition(workInProgress2, null);
reuseHiddenContextOnStack();
pushOffscreenSuspenseHandler(workInProgress2);
null !== current && propagateParentContextChanges(current, workInProgress2, renderLanes2, true);
return null;
}
function markRef(current, workInProgress2) {
var ref = workInProgress2.ref;
if (null === ref)
null !== current && null !== current.ref && (workInProgress2.flags |= 4194816);
else {
if ("function" !== typeof ref && "object" !== typeof ref)
throw Error(formatProdErrorMessage(284));
if (null === current || current.ref !== ref)
workInProgress2.flags |= 4194816;
}
}
function updateFunctionComponent(current, workInProgress2, Component, nextProps, renderLanes2) {
prepareToReadContext(workInProgress2);
Component = renderWithHooks(
current,
workInProgress2,
Component,
nextProps,
void 0,
renderLanes2
);
nextProps = checkDidRenderIdHook();
if (null !== current && !didReceiveUpdate)
return bailoutHooks(current, workInProgress2, renderLanes2), bailoutOnAlreadyFinishedWork(current, workInProgress2, renderLanes2);
isHydrating && nextProps && pushMaterializedTreeId(workInProgress2);
workInProgress2.flags |= 1;
reconcileChildren(current, workInProgress2, Component, renderLanes2);
return workInProgress2.child;
}
function replayFunctionComponent(current, workInProgress2, nextProps, Component, secondArg, renderLanes2) {
prepareToReadContext(workInProgress2);
workInProgress2.updateQueue = null;
nextProps = renderWithHooksAgain(
workInProgress2,
Component,
nextProps,
secondArg
);
finishRenderingHooks(current);
Component = checkDidRenderIdHook();
if (null !== current && !didReceiveUpdate)
return bailoutHooks(current, workInProgress2, renderLanes2), bailoutOnAlreadyFinishedWork(current, workInProgress2, renderLanes2);
isHydrating && Component && pushMaterializedTreeId(workInProgress2);
workInProgress2.flags |= 1;
reconcileChildren(current, workInProgress2, nextProps, renderLanes2);
return workInProgress2.child;
}
function updateClassComponent(current, workInProgress2, Component, nextProps, renderLanes2) {
prepareToReadContext(workInProgress2);
if (null === workInProgress2.stateNode) {
var context = emptyContextObject, contextType = Component.contextType;
"object" === typeof contextType && null !== contextType && (context = readContext(contextType));
context = new Component(nextProps, context);
workInProgress2.memoizedState = null !== context.state && void 0 !== context.state ? context.state : null;
context.updater = classComponentUpdater;
workInProgress2.stateNode = context;
context._reactInternals = workInProgress2;
context = workInProgress2.stateNode;
context.props = nextProps;
context.state = workInProgress2.memoizedState;
context.refs = {};
initializeUpdateQueue(workInProgress2);
contextType = Component.contextType;
context.context = "object" === typeof contextType && null !== contextType ? readContext(contextType) : emptyContextObject;
context.state = workInProgress2.memoizedState;
contextType = Component.getDerivedStateFromProps;
"function" === typeof contextType && (applyDerivedStateFromProps(
workInProgress2,
Component,
contextType,
nextProps
), context.state = workInProgress2.memoizedState);
"function" === typeof Component.getDerivedStateFromProps || "function" === typeof context.getSnapshotBeforeUpdate || "function" !== typeof context.UNSAFE_componentWillMount && "function" !== typeof context.componentWillMount || (contextType = context.state, "function" === typeof context.componentWillMount && context.componentWillMount(), "function" === typeof context.UNSAFE_componentWillMount && context.UNSAFE_componentWillMount(), contextType !== context.state && classComponentUpdater.enqueueReplaceState(context, context.state, null), processUpdateQueue(workInProgress2, nextProps, context, renderLanes2), suspendIfUpdateReadFromEntangledAsyncAction(), context.state = workInProgress2.memoizedState);
"function" === typeof context.componentDidMount && (workInProgress2.flags |= 4194308);
nextProps = true;
} else if (null === current) {
context = workInProgress2.stateNode;
var unresolvedOldProps = workInProgress2.memoizedProps, oldProps = resolveClassComponentProps(Component, unresolvedOldProps);
context.props = oldProps;
var oldContext = context.context, contextType$jscomp$0 = Component.contextType;
contextType = emptyContextObject;
"object" === typeof contextType$jscomp$0 && null !== contextType$jscomp$0 && (contextType = readContext(contextType$jscomp$0));
var getDerivedStateFromProps = Component.getDerivedStateFromProps;
contextType$jscomp$0 = "function" === typeof getDerivedStateFromProps || "function" === typeof context.getSnapshotBeforeUpdate;
unresolvedOldProps = workInProgress2.pendingProps !== unresolvedOldProps;
contextType$jscomp$0 || "function" !== typeof context.UNSAFE_componentWillReceiveProps && "function" !== typeof context.componentWillReceiveProps || (unresolvedOldProps || oldContext !== contextType) && callComponentWillReceiveProps(
workInProgress2,
context,
nextProps,
contextType
);
hasForceUpdate = false;
var oldState = workInProgress2.memoizedState;
context.state = oldState;
processUpdateQueue(workInProgress2, nextProps, context, renderLanes2);
suspendIfUpdateReadFromEntangledAsyncAction();
oldContext = workInProgress2.memoizedState;
unresolvedOldProps || oldState !== oldContext || hasForceUpdate ? ("function" === typeof getDerivedStateFromProps && (applyDerivedStateFromProps(
workInProgress2,
Component,
getDerivedStateFromProps,
nextProps
), oldContext = workInProgress2.memoizedState), (oldProps = hasForceUpdate || checkShouldComponentUpdate(
workInProgress2,
Component,
oldProps,
nextProps,
oldState,
oldContext,
contextType
)) ? (contextType$jscomp$0 || "function" !== typeof context.UNSAFE_componentWillMount && "function" !== typeof context.componentWillMount || ("function" === typeof context.componentWillMount && context.componentWillMount(), "function" === typeof context.UNSAFE_componentWillMount && context.UNSAFE_componentWillMount()), "function" === typeof context.componentDidMount && (workInProgress2.flags |= 4194308)) : ("function" === typeof context.componentDidMount && (workInProgress2.flags |= 4194308), workInProgress2.memoizedProps = nextProps, workInProgress2.memoizedState = oldContext), context.props = nextProps, context.state = oldContext, context.context = contextType, nextProps = oldProps) : ("function" === typeof context.componentDidMount && (workInProgress2.flags |= 4194308), nextProps = false);
} else {
context = workInProgress2.stateNode;
cloneUpdateQueue(current, workInProgress2);
contextType = workInProgress2.memoizedProps;
contextType$jscomp$0 = resolveClassComponentProps(Component, contextType);
context.props = contextType$jscomp$0;
getDerivedStateFromProps = workInProgress2.pendingProps;
oldState = context.context;
oldContext = Component.contextType;
oldProps = emptyContextObject;
"object" === typeof oldContext && null !== oldContext && (oldProps = readContext(oldContext));
unresolvedOldProps = Component.getDerivedStateFromProps;
(oldContext = "function" === typeof unresolvedOldProps || "function" === typeof context.getSnapshotBeforeUpdate) || "function" !== typeof context.UNSAFE_componentWillReceiveProps && "function" !== typeof context.componentWillReceiveProps || (contextType !== getDerivedStateFromProps || oldState !== oldProps) && callComponentWillReceiveProps(
workInProgress2,
context,
nextProps,
oldProps
);
hasForceUpdate = false;
oldState = workInProgress2.memoizedState;
context.state = oldState;
processUpdateQueue(workInProgress2, nextProps, context, renderLanes2);
suspendIfUpdateReadFromEntangledAsyncAction();
var newState = workInProgress2.memoizedState;
contextType !== getDerivedStateFromProps || oldState !== newState || hasForceUpdate || null !== current && null !== current.dependencies && checkIfContextChanged(current.dependencies) ? ("function" === typeof unresolvedOldProps && (applyDerivedStateFromProps(
workInProgress2,
Component,
unresolvedOldProps,
nextProps
), newState = workInProgress2.memoizedState), (contextType$jscomp$0 = hasForceUpdate || checkShouldComponentUpdate(
workInProgress2,
Component,
contextType$jscomp$0,
nextProps,
oldState,
newState,
oldProps
) || null !== current && null !== current.dependencies && checkIfContextChanged(current.dependencies)) ? (oldContext || "function" !== typeof context.UNSAFE_componentWillUpdate && "function" !== typeof context.componentWillUpdate || ("function" === typeof context.componentWillUpdate && context.componentWillUpdate(nextProps, newState, oldProps), "function" === typeof context.UNSAFE_componentWillUpdate && context.UNSAFE_componentWillUpdate(
nextProps,
newState,
oldProps
)), "function" === typeof context.componentDidUpdate && (workInProgress2.flags |= 4), "function" === typeof context.getSnapshotBeforeUpdate && (workInProgress2.flags |= 1024)) : ("function" !== typeof context.componentDidUpdate || contextType === current.memoizedProps && oldState === current.memoizedState || (workInProgress2.flags |= 4), "function" !== typeof context.getSnapshotBeforeUpdate || contextType === current.memoizedProps && oldState === current.memoizedState || (workInProgress2.flags |= 1024), workInProgress2.memoizedProps = nextProps, workInProgress2.memoizedState = newState), context.props = nextProps, context.state = newState, context.context = oldProps, nextProps = contextType$jscomp$0) : ("function" !== typeof context.componentDidUpdate || contextType === current.memoizedProps && oldState === current.memoizedState || (workInProgress2.flags |= 4), "function" !== typeof context.getSnapshotBeforeUpdate || contextType === current.memoizedProps && oldState === current.memoizedState || (workInProgress2.flags |= 1024), nextProps = false);
}
context = nextProps;
markRef(current, workInProgress2);
nextProps = 0 !== (workInProgress2.flags & 128);
context || nextProps ? (context = workInProgress2.stateNode, Component = nextProps && "function" !== typeof Component.getDerivedStateFromError ? null : context.render(), workInProgress2.flags |= 1, null !== current && nextProps ? (workInProgress2.child = reconcileChildFibers(
workInProgress2,
current.child,
null,
renderLanes2
), workInProgress2.child = reconcileChildFibers(
workInProgress2,
null,
Component,
renderLanes2
)) : reconcileChildren(current, workInProgress2, Component, renderLanes2), workInProgress2.memoizedState = context.state, current = workInProgress2.child) : current = bailoutOnAlreadyFinishedWork(
current,
workInProgress2,
renderLanes2
);
return current;
}
function mountHostRootWithoutHydrating(current, workInProgress2, nextChildren, renderLanes2) {
resetHydrationState();
workInProgress2.flags |= 256;
reconcileChildren(current, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
var SUSPENDED_MARKER = {
dehydrated: null,
treeContext: null,
retryLane: 0,
hydrationErrors: null
};
function mountSuspenseOffscreenState(renderLanes2) {
return { baseLanes: renderLanes2, cachePool: getSuspendedCache() };
}
function getRemainingWorkInPrimaryTree(current, primaryTreeDidDefer, renderLanes2) {
current = null !== current ? current.childLanes & ~renderLanes2 : 0;
primaryTreeDidDefer && (current |= workInProgressDeferredLane);
return current;
}
function updateSuspenseComponent(current, workInProgress2, renderLanes2) {
var nextProps = workInProgress2.pendingProps, showFallback = false, didSuspend = 0 !== (workInProgress2.flags & 128), JSCompiler_temp;
(JSCompiler_temp = didSuspend) || (JSCompiler_temp = null !== current && null === current.memoizedState ? false : 0 !== (suspenseStackCursor.current & 2));
JSCompiler_temp && (showFallback = true, workInProgress2.flags &= -129);
JSCompiler_temp = 0 !== (workInProgress2.flags & 32);
workInProgress2.flags &= -33;
if (null === current) {
if (isHydrating) {
showFallback ? pushPrimaryTreeSuspenseHandler(workInProgress2) : reuseSuspenseHandlerOnStack();
if (isHydrating) {
var nextInstance = nextHydratableInstance, JSCompiler_temp$jscomp$0;
if (JSCompiler_temp$jscomp$0 = nextInstance) {
c: {
JSCompiler_temp$jscomp$0 = nextInstance;
for (nextInstance = rootOrSingletonContext; 8 !== JSCompiler_temp$jscomp$0.nodeType; ) {
if (!nextInstance) {
nextInstance = null;
break c;
}
JSCompiler_temp$jscomp$0 = getNextHydratable(
JSCompiler_temp$jscomp$0.nextSibling
);
if (null === JSCompiler_temp$jscomp$0) {
nextInstance = null;
break c;
}
}
nextInstance = JSCompiler_temp$jscomp$0;
}
null !== nextInstance ? (workInProgress2.memoizedState = {
dehydrated: nextInstance,
treeContext: null !== treeContextProvider ? { id: treeContextId, overflow: treeContextOverflow } : null,
retryLane: 536870912,
hydrationErrors: null
}, JSCompiler_temp$jscomp$0 = createFiberImplClass(
18,
null,
null,
0
), JSCompiler_temp$jscomp$0.stateNode = nextInstance, JSCompiler_temp$jscomp$0.return = workInProgress2, workInProgress2.child = JSCompiler_temp$jscomp$0, hydrationParentFiber = workInProgress2, nextHydratableInstance = null, JSCompiler_temp$jscomp$0 = true) : JSCompiler_temp$jscomp$0 = false;
}
JSCompiler_temp$jscomp$0 || throwOnHydrationMismatch(workInProgress2);
}
nextInstance = workInProgress2.memoizedState;
if (null !== nextInstance && (nextInstance = nextInstance.dehydrated, null !== nextInstance))
return isSuspenseInstanceFallback(nextInstance) ? workInProgress2.lanes = 32 : workInProgress2.lanes = 536870912, null;
popSuspenseHandler(workInProgress2);
}
nextInstance = nextProps.children;
nextProps = nextProps.fallback;
if (showFallback)
return reuseSuspenseHandlerOnStack(), showFallback = workInProgress2.mode, nextInstance = mountWorkInProgressOffscreenFiber(
{ mode: "hidden", children: nextInstance },
showFallback
), nextProps = createFiberFromFragment(
nextProps,
showFallback,
renderLanes2,
null
), nextInstance.return = workInProgress2, nextProps.return = workInProgress2, nextInstance.sibling = nextProps, workInProgress2.child = nextInstance, showFallback = workInProgress2.child, showFallback.memoizedState = mountSuspenseOffscreenState(renderLanes2), showFallback.childLanes = getRemainingWorkInPrimaryTree(
current,
JSCompiler_temp,
renderLanes2
), workInProgress2.memoizedState = SUSPENDED_MARKER, nextProps;
pushPrimaryTreeSuspenseHandler(workInProgress2);
return mountSuspensePrimaryChildren(workInProgress2, nextInstance);
}
JSCompiler_temp$jscomp$0 = current.memoizedState;
if (null !== JSCompiler_temp$jscomp$0 && (nextInstance = JSCompiler_temp$jscomp$0.dehydrated, null !== nextInstance)) {
if (didSuspend)
workInProgress2.flags & 256 ? (pushPrimaryTreeSuspenseHandler(workInProgress2), workInProgress2.flags &= -257, workInProgress2 = retrySuspenseComponentWithoutHydrating(
current,
workInProgress2,
renderLanes2
)) : null !== workInProgress2.memoizedState ? (reuseSuspenseHandlerOnStack(), workInProgress2.child = current.child, workInProgress2.flags |= 128, workInProgress2 = null) : (reuseSuspenseHandlerOnStack(), showFallback = nextProps.fallback, nextInstance = workInProgress2.mode, nextProps = mountWorkInProgressOffscreenFiber(
{ mode: "visible", children: nextProps.children },
nextInstance
), showFallback = createFiberFromFragment(
showFallback,
nextInstance,
renderLanes2,
null
), showFallback.flags |= 2, nextProps.return = workInProgress2, showFallback.return = workInProgress2, nextProps.sibling = showFallback, workInProgress2.child = nextProps, reconcileChildFibers(
workInProgress2,
current.child,
null,
renderLanes2
), nextProps = workInProgress2.child, nextProps.memoizedState = mountSuspenseOffscreenState(renderLanes2), nextProps.childLanes = getRemainingWorkInPrimaryTree(
current,
JSCompiler_temp,
renderLanes2
), workInProgress2.memoizedState = SUSPENDED_MARKER, workInProgress2 = showFallback);
else if (pushPrimaryTreeSuspenseHandler(workInProgress2), isSuspenseInstanceFallback(nextInstance)) {
JSCompiler_temp = nextInstance.nextSibling && nextInstance.nextSibling.dataset;
if (JSCompiler_temp) var digest = JSCompiler_temp.dgst;
JSCompiler_temp = digest;
nextProps = Error(formatProdErrorMessage(419));
nextProps.stack = "";
nextProps.digest = JSCompiler_temp;
queueHydrationError({ value: nextProps, source: null, stack: null });
workInProgress2 = retrySuspenseComponentWithoutHydrating(
current,
workInProgress2,
renderLanes2
);
} else if (didReceiveUpdate || propagateParentContextChanges(current, workInProgress2, renderLanes2, false), JSCompiler_temp = 0 !== (renderLanes2 & current.childLanes), didReceiveUpdate || JSCompiler_temp) {
JSCompiler_temp = workInProgressRoot;
if (null !== JSCompiler_temp && (nextProps = renderLanes2 & -renderLanes2, nextProps = 0 !== (nextProps & 42) ? 1 : getBumpedLaneForHydrationByLane(nextProps), nextProps = 0 !== (nextProps & (JSCompiler_temp.suspendedLanes | renderLanes2)) ? 0 : nextProps, 0 !== nextProps && nextProps !== JSCompiler_temp$jscomp$0.retryLane))
throw JSCompiler_temp$jscomp$0.retryLane = nextProps, enqueueConcurrentRenderForLane(current, nextProps), scheduleUpdateOnFiber(JSCompiler_temp, current, nextProps), SelectiveHydrationException;
"$?" === nextInstance.data || renderDidSuspendDelayIfPossible();
workInProgress2 = retrySuspenseComponentWithoutHydrating(
current,
workInProgress2,
renderLanes2
);
} else
"$?" === nextInstance.data ? (workInProgress2.flags |= 192, workInProgress2.child = current.child, workInProgress2 = null) : (current = JSCompiler_temp$jscomp$0.treeContext, nextHydratableInstance = getNextHydratable(
nextInstance.nextSibling
), hydrationParentFiber = workInProgress2, isHydrating = true, hydrationErrors = null, rootOrSingletonContext = false, null !== current && (idStack[idStackIndex++] = treeContextId, idStack[idStackIndex++] = treeContextOverflow, idStack[idStackIndex++] = treeContextProvider, treeContextId = current.id, treeContextOverflow = current.overflow, treeContextProvider = workInProgress2), workInProgress2 = mountSuspensePrimaryChildren(
workInProgress2,
nextProps.children
), workInProgress2.flags |= 4096);
return workInProgress2;
}
if (showFallback)
return reuseSuspenseHandlerOnStack(), showFallback = nextProps.fallback, nextInstance = workInProgress2.mode, JSCompiler_temp$jscomp$0 = current.child, digest = JSCompiler_temp$jscomp$0.sibling, nextProps = createWorkInProgress(JSCompiler_temp$jscomp$0, {
mode: "hidden",
children: nextProps.children
}), nextProps.subtreeFlags = JSCompiler_temp$jscomp$0.subtreeFlags & 65011712, null !== digest ? showFallback = createWorkInProgress(digest, showFallback) : (showFallback = createFiberFromFragment(
showFallback,
nextInstance,
renderLanes2,
null
), showFallback.flags |= 2), showFallback.return = workInProgress2, nextProps.return = workInProgress2, nextProps.sibling = showFallback, workInProgress2.child = nextProps, nextProps = showFallback, showFallback = workInProgress2.child, nextInstance = current.child.memoizedState, null === nextInstance ? nextInstance = mountSuspenseOffscreenState(renderLanes2) : (JSCompiler_temp$jscomp$0 = nextInstance.cachePool, null !== JSCompiler_temp$jscomp$0 ? (digest = CacheContext._currentValue, JSCompiler_temp$jscomp$0 = JSCompiler_temp$jscomp$0.parent !== digest ? { parent: digest, pool: digest } : JSCompiler_temp$jscomp$0) : JSCompiler_temp$jscomp$0 = getSuspendedCache(), nextInstance = {
baseLanes: nextInstance.baseLanes | renderLanes2,
cachePool: JSCompiler_temp$jscomp$0
}), showFallback.memoizedState = nextInstance, showFallback.childLanes = getRemainingWorkInPrimaryTree(
current,
JSCompiler_temp,
renderLanes2
), workInProgress2.memoizedState = SUSPENDED_MARKER, nextProps;
pushPrimaryTreeSuspenseHandler(workInProgress2);
renderLanes2 = current.child;
current = renderLanes2.sibling;
renderLanes2 = createWorkInProgress(renderLanes2, {
mode: "visible",
children: nextProps.children
});
renderLanes2.return = workInProgress2;
renderLanes2.sibling = null;
null !== current && (JSCompiler_temp = workInProgress2.deletions, null === JSCompiler_temp ? (workInProgress2.deletions = [current], workInProgress2.flags |= 16) : JSCompiler_temp.push(current));
workInProgress2.child = renderLanes2;
workInProgress2.memoizedState = null;
return renderLanes2;
}
function mountSuspensePrimaryChildren(workInProgress2, primaryChildren) {
primaryChildren = mountWorkInProgressOffscreenFiber(
{ mode: "visible", children: primaryChildren },
workInProgress2.mode
);
primaryChildren.return = workInProgress2;
return workInProgress2.child = primaryChildren;
}
function mountWorkInProgressOffscreenFiber(offscreenProps, mode) {
offscreenProps = createFiberImplClass(22, offscreenProps, null, mode);
offscreenProps.lanes = 0;
offscreenProps.stateNode = {
_visibility: 1,
_pendingMarkers: null,
_retryCache: null,
_transitions: null
};
return offscreenProps;
}
function retrySuspenseComponentWithoutHydrating(current, workInProgress2, renderLanes2) {
reconcileChildFibers(workInProgress2, current.child, null, renderLanes2);
current = mountSuspensePrimaryChildren(
workInProgress2,
workInProgress2.pendingProps.children
);
current.flags |= 2;
workInProgress2.memoizedState = null;
return current;
}
function scheduleSuspenseWorkOnFiber(fiber, renderLanes2, propagationRoot) {
fiber.lanes |= renderLanes2;
var alternate = fiber.alternate;
null !== alternate && (alternate.lanes |= renderLanes2);
scheduleContextWorkOnParentPath(fiber.return, renderLanes2, propagationRoot);
}
function initSuspenseListRenderState(workInProgress2, isBackwards, tail, lastContentRow, tailMode) {
var renderState = workInProgress2.memoizedState;
null === renderState ? workInProgress2.memoizedState = {
isBackwards,
rendering: null,
renderingStartTime: 0,
last: lastContentRow,
tail,
tailMode
} : (renderState.isBackwards = isBackwards, renderState.rendering = null, renderState.renderingStartTime = 0, renderState.last = lastContentRow, renderState.tail = tail, renderState.tailMode = tailMode);
}
function updateSuspenseListComponent(current, workInProgress2, renderLanes2) {
var nextProps = workInProgress2.pendingProps, revealOrder = nextProps.revealOrder, tailMode = nextProps.tail;
reconcileChildren(current, workInProgress2, nextProps.children, renderLanes2);
nextProps = suspenseStackCursor.current;
if (0 !== (nextProps & 2))
nextProps = nextProps & 1 | 2, workInProgress2.flags |= 128;
else {
if (null !== current && 0 !== (current.flags & 128))
a: for (current = workInProgress2.child; null !== current; ) {
if (13 === current.tag)
null !== current.memoizedState && scheduleSuspenseWorkOnFiber(current, renderLanes2, workInProgress2);
else if (19 === current.tag)
scheduleSuspenseWorkOnFiber(current, renderLanes2, workInProgress2);
else if (null !== current.child) {
current.child.return = current;
current = current.child;
continue;
}
if (current === workInProgress2) break a;
for (; null === current.sibling; ) {
if (null === current.return || current.return === workInProgress2)
break a;
current = current.return;
}
current.sibling.return = current.return;
current = current.sibling;
}
nextProps &= 1;
}
push(suspenseStackCursor, nextProps);
switch (revealOrder) {
case "forwards":
renderLanes2 = workInProgress2.child;
for (revealOrder = null; null !== renderLanes2; )
current = renderLanes2.alternate, null !== current && null === findFirstSuspended(current) && (revealOrder = renderLanes2), renderLanes2 = renderLanes2.sibling;
renderLanes2 = revealOrder;
null === renderLanes2 ? (revealOrder = workInProgress2.child, workInProgress2.child = null) : (revealOrder = renderLanes2.sibling, renderLanes2.sibling = null);
initSuspenseListRenderState(
workInProgress2,
false,
revealOrder,
renderLanes2,
tailMode
);
break;
case "backwards":
renderLanes2 = null;
revealOrder = workInProgress2.child;
for (workInProgress2.child = null; null !== revealOrder; ) {
current = revealOrder.alternate;
if (null !== current && null === findFirstSuspended(current)) {
workInProgress2.child = revealOrder;
break;
}
current = revealOrder.sibling;
revealOrder.sibling = renderLanes2;
renderLanes2 = revealOrder;
revealOrder = current;
}
initSuspenseListRenderState(
workInProgress2,
true,
renderLanes2,
null,
tailMode
);
break;
case "together":
initSuspenseListRenderState(workInProgress2, false, null, null, void 0);
break;
default:
workInProgress2.memoizedState = null;
}
return workInProgress2.child;
}
function bailoutOnAlreadyFinishedWork(current, workInProgress2, renderLanes2) {
null !== current && (workInProgress2.dependencies = current.dependencies);
workInProgressRootSkippedLanes |= workInProgress2.lanes;
if (0 === (renderLanes2 & workInProgress2.childLanes))
if (null !== current) {
if (propagateParentContextChanges(
current,
workInProgress2,
renderLanes2,
false
), 0 === (renderLanes2 & workInProgress2.childLanes))
return null;
} else return null;
if (null !== current && workInProgress2.child !== current.child)
throw Error(formatProdErrorMessage(153));
if (null !== workInProgress2.child) {
current = workInProgress2.child;
renderLanes2 = createWorkInProgress(current, current.pendingProps);
workInProgress2.child = renderLanes2;
for (renderLanes2.return = workInProgress2; null !== current.sibling; )
current = current.sibling, renderLanes2 = renderLanes2.sibling = createWorkInProgress(current, current.pendingProps), renderLanes2.return = workInProgress2;
renderLanes2.sibling = null;
}
return workInProgress2.child;
}
function checkScheduledUpdateOrContext(current, renderLanes2) {
if (0 !== (current.lanes & renderLanes2)) return true;
current = current.dependencies;
return null !== current && checkIfContextChanged(current) ? true : false;
}
function attemptEarlyBailoutIfNoScheduledUpdate(current, workInProgress2, renderLanes2) {
switch (workInProgress2.tag) {
case 3:
pushHostContainer(workInProgress2, workInProgress2.stateNode.containerInfo);
pushProvider(workInProgress2, CacheContext, current.memoizedState.cache);
resetHydrationState();
break;
case 27:
case 5:
pushHostContext(workInProgress2);
break;
case 4:
pushHostContainer(workInProgress2, workInProgress2.stateNode.containerInfo);
break;
case 10:
pushProvider(
workInProgress2,
workInProgress2.type,
workInProgress2.memoizedProps.value
);
break;
case 13:
var state = workInProgress2.memoizedState;
if (null !== state) {
if (null !== state.dehydrated)
return pushPrimaryTreeSuspenseHandler(workInProgress2), workInProgress2.flags |= 128, null;
if (0 !== (renderLanes2 & workInProgress2.child.childLanes))
return updateSuspenseComponent(current, workInProgress2, renderLanes2);
pushPrimaryTreeSuspenseHandler(workInProgress2);
current = bailoutOnAlreadyFinishedWork(
current,
workInProgress2,
renderLanes2
);
return null !== current ? current.sibling : null;
}
pushPrimaryTreeSuspenseHandler(workInProgress2);
break;
case 19:
var didSuspendBefore = 0 !== (current.flags & 128);
state = 0 !== (renderLanes2 & workInProgress2.childLanes);
state || (propagateParentContextChanges(
current,
workInProgress2,
renderLanes2,
false
), state = 0 !== (renderLanes2 & workInProgress2.childLanes));
if (didSuspendBefore) {
if (state)
return updateSuspenseListComponent(
current,
workInProgress2,
renderLanes2
);
workInProgress2.flags |= 128;
}
didSuspendBefore = workInProgress2.memoizedState;
null !== didSuspendBefore && (didSuspendBefore.rendering = null, didSuspendBefore.tail = null, didSuspendBefore.lastEffect = null);
push(suspenseStackCursor, suspenseStackCursor.current);
if (state) break;
else return null;
case 22:
case 23:
return workInProgress2.lanes = 0, updateOffscreenComponent(current, workInProgress2, renderLanes2);
case 24:
pushProvider(workInProgress2, CacheContext, current.memoizedState.cache);
}
return bailoutOnAlreadyFinishedWork(current, workInProgress2, renderLanes2);
}
function beginWork(current, workInProgress2, renderLanes2) {
if (null !== current)
if (current.memoizedProps !== workInProgress2.pendingProps)
didReceiveUpdate = true;
else {
if (!checkScheduledUpdateOrContext(current, renderLanes2) && 0 === (workInProgress2.flags & 128))
return didReceiveUpdate = false, attemptEarlyBailoutIfNoScheduledUpdate(
current,
workInProgress2,
renderLanes2
);
didReceiveUpdate = 0 !== (current.flags & 131072) ? true : false;
}
else
didReceiveUpdate = false, isHydrating && 0 !== (workInProgress2.flags & 1048576) && pushTreeId(workInProgress2, treeForkCount, workInProgress2.index);
workInProgress2.lanes = 0;
switch (workInProgress2.tag) {
case 16:
a: {
current = workInProgress2.pendingProps;
var lazyComponent = workInProgress2.elementType, init = lazyComponent._init;
lazyComponent = init(lazyComponent._payload);
workInProgress2.type = lazyComponent;
if ("function" === typeof lazyComponent)
shouldConstruct(lazyComponent) ? (current = resolveClassComponentProps(lazyComponent, current), workInProgress2.tag = 1, workInProgress2 = updateClassComponent(
null,
workInProgress2,
lazyComponent,
current,
renderLanes2
)) : (workInProgress2.tag = 0, workInProgress2 = updateFunctionComponent(
null,
workInProgress2,
lazyComponent,
current,
renderLanes2
));
else {
if (void 0 !== lazyComponent && null !== lazyComponent) {
if (init = lazyComponent.$$typeof, init === REACT_FORWARD_REF_TYPE) {
workInProgress2.tag = 11;
workInProgress2 = updateForwardRef(
null,
workInProgress2,
lazyComponent,
current,
renderLanes2
);
break a;
} else if (init === REACT_MEMO_TYPE) {
workInProgress2.tag = 14;
workInProgress2 = updateMemoComponent(
null,
workInProgress2,
lazyComponent,
current,
renderLanes2
);
break a;
}
}
workInProgress2 = getComponentNameFromType(lazyComponent) || lazyComponent;
throw Error(formatProdErrorMessage(306, workInProgress2, ""));
}
}
return workInProgress2;
case 0:
return updateFunctionComponent(
current,
workInProgress2,
workInProgress2.type,
workInProgress2.pendingProps,
renderLanes2
);
case 1:
return lazyComponent = workInProgress2.type, init = resolveClassComponentProps(
lazyComponent,
workInProgress2.pendingProps
), updateClassComponent(
current,
workInProgress2,
lazyComponent,
init,
renderLanes2
);
case 3:
a: {
pushHostContainer(
workInProgress2,
workInProgress2.stateNode.containerInfo
);
if (null === current) throw Error(formatProdErrorMessage(387));
lazyComponent = workInProgress2.pendingProps;
var prevState = workInProgress2.memoizedState;
init = prevState.element;
cloneUpdateQueue(current, workInProgress2);
processUpdateQueue(workInProgress2, lazyComponent, null, renderLanes2);
var nextState = workInProgress2.memoizedState;
lazyComponent = nextState.cache;
pushProvider(workInProgress2, CacheContext, lazyComponent);
lazyComponent !== prevState.cache && propagateContextChanges(
workInProgress2,
[CacheContext],
renderLanes2,
true
);
suspendIfUpdateReadFromEntangledAsyncAction();
lazyComponent = nextState.element;
if (prevState.isDehydrated)
if (prevState = {
element: lazyComponent,
isDehydrated: false,
cache: nextState.cache
}, workInProgress2.updateQueue.baseState = prevState, workInProgress2.memoizedState = prevState, workInProgress2.flags & 256) {
workInProgress2 = mountHostRootWithoutHydrating(
current,
workInProgress2,
lazyComponent,
renderLanes2
);
break a;
} else if (lazyComponent !== init) {
init = createCapturedValueAtFiber(
Error(formatProdErrorMessage(424)),
workInProgress2
);
queueHydrationError(init);
workInProgress2 = mountHostRootWithoutHydrating(
current,
workInProgress2,
lazyComponent,
renderLanes2
);
break a;
} else {
current = workInProgress2.stateNode.containerInfo;
switch (current.nodeType) {
case 9:
current = current.body;
break;
default:
current = "HTML" === current.nodeName ? current.ownerDocument.body : current;
}
nextHydratableInstance = getNextHydratable(current.firstChild);
hydrationParentFiber = workInProgress2;
isHydrating = true;
hydrationErrors = null;
rootOrSingletonContext = true;
renderLanes2 = mountChildFibers(
workInProgress2,
null,
lazyComponent,
renderLanes2
);
for (workInProgress2.child = renderLanes2; renderLanes2; )
renderLanes2.flags = renderLanes2.flags & -3 | 4096, renderLanes2 = renderLanes2.sibling;
}
else {
resetHydrationState();
if (lazyComponent === init) {
workInProgress2 = bailoutOnAlreadyFinishedWork(
current,
workInProgress2,
renderLanes2
);
break a;
}
reconcileChildren(
current,
workInProgress2,
lazyComponent,
renderLanes2
);
}
workInProgress2 = workInProgress2.child;
}
return workInProgress2;
case 26:
return markRef(current, workInProgress2), null === current ? (renderLanes2 = getResource(
workInProgress2.type,
null,
workInProgress2.pendingProps,
null
)) ? workInProgress2.memoizedState = renderLanes2 : isHydrating || (renderLanes2 = workInProgress2.type, current = workInProgress2.pendingProps, lazyComponent = getOwnerDocumentFromRootContainer(
rootInstanceStackCursor.current
).createElement(renderLanes2), lazyComponent[internalInstanceKey] = workInProgress2, lazyComponent[internalPropsKey] = current, setInitialProperties(lazyComponent, renderLanes2, current), markNodeAsHoistable(lazyComponent), workInProgress2.stateNode = lazyComponent) : workInProgress2.memoizedState = getResource(
workInProgress2.type,
current.memoizedProps,
workInProgress2.pendingProps,
current.memoizedState
), null;
case 27:
return pushHostContext(workInProgress2), null === current && isHydrating && (lazyComponent = workInProgress2.stateNode = resolveSingletonInstance(
workInProgress2.type,
workInProgress2.pendingProps,
rootInstanceStackCursor.current
), hydrationParentFiber = workInProgress2, rootOrSingletonContext = true, init = nextHydratableInstance, isSingletonScope(workInProgress2.type) ? (previousHydratableOnEnteringScopedSingleton = init, nextHydratableInstance = getNextHydratable(
lazyComponent.firstChild
)) : nextHydratableInstance = init), reconcileChildren(
current,
workInProgress2,
workInProgress2.pendingProps.children,
renderLanes2
), markRef(current, workInProgress2), null === current && (workInProgress2.flags |= 4194304), workInProgress2.child;
case 5:
if (null === current && isHydrating) {
if (init = lazyComponent = nextHydratableInstance)
lazyComponent = canHydrateInstance(
lazyComponent,
workInProgress2.type,
workInProgress2.pendingProps,
rootOrSingletonContext
), null !== lazyComponent ? (workInProgress2.stateNode = lazyComponent, hydrationParentFiber = workInProgress2, nextHydratableInstance = getNextHydratable(
lazyComponent.firstChild
), rootOrSingletonContext = false, init = true) : init = false;
init || throwOnHydrationMismatch(workInProgress2);
}
pushHostContext(workInProgress2);
init = workInProgress2.type;
prevState = workInProgress2.pendingProps;
nextState = null !== current ? current.memoizedProps : null;
lazyComponent = prevState.children;
shouldSetTextContent(init, prevState) ? lazyComponent = null : null !== nextState && shouldSetTextContent(init, nextState) && (workInProgress2.flags |= 32);
null !== workInProgress2.memoizedState && (init = renderWithHooks(
current,
workInProgress2,
TransitionAwareHostComponent,
null,
null,
renderLanes2
), HostTransitionContext._currentValue = init);
markRef(current, workInProgress2);
reconcileChildren(current, workInProgress2, lazyComponent, renderLanes2);
return workInProgress2.child;
case 6:
if (null === current && isHydrating) {
if (current = renderLanes2 = nextHydratableInstance)
renderLanes2 = canHydrateTextInstance(
renderLanes2,
workInProgress2.pendingProps,
rootOrSingletonContext
), null !== renderLanes2 ? (workInProgress2.stateNode = renderLanes2, hydrationParentFiber = workInProgress2, nextHydratableInstance = null, current = true) : current = false;
current || throwOnHydrationMismatch(workInProgress2);
}
return null;
case 13:
return updateSuspenseComponent(current, workInProgress2, renderLanes2);
case 4:
return pushHostContainer(
workInProgress2,
workInProgress2.stateNode.containerInfo
), lazyComponent = workInProgress2.pendingProps, null === current ? workInProgress2.child = reconcileChildFibers(
workInProgress2,
null,
lazyComponent,
renderLanes2
) : reconcileChildren(
current,
workInProgress2,
lazyComponent,
renderLanes2
), workInProgress2.child;
case 11:
return updateForwardRef(
current,
workInProgress2,
workInProgress2.type,
workInProgress2.pendingProps,
renderLanes2
);
case 7:
return reconcileChildren(
current,
workInProgress2,
workInProgress2.pendingProps,
renderLanes2
), workInProgress2.child;
case 8:
return reconcileChildren(
current,
workInProgress2,
workInProgress2.pendingProps.children,
renderLanes2
), workInProgress2.child;
case 12:
return reconcileChildren(
current,
workInProgress2,
workInProgress2.pendingProps.children,
renderLanes2
), workInProgress2.child;
case 10:
return lazyComponent = workInProgress2.pendingProps, pushProvider(workInProgress2, workInProgress2.type, lazyComponent.value), reconcileChildren(
current,
workInProgress2,
lazyComponent.children,
renderLanes2
), workInProgress2.child;
case 9:
return init = workInProgress2.type._context, lazyComponent = workInProgress2.pendingProps.children, prepareToReadContext(workInProgress2), init = readContext(init), lazyComponent = lazyComponent(init), workInProgress2.flags |= 1, reconcileChildren(current, workInProgress2, lazyComponent, renderLanes2), workInProgress2.child;
case 14:
return updateMemoComponent(
current,
workInProgress2,
workInProgress2.type,
workInProgress2.pendingProps,
renderLanes2
);
case 15:
return updateSimpleMemoComponent(
current,
workInProgress2,
workInProgress2.type,
workInProgress2.pendingProps,
renderLanes2
);
case 19:
return updateSuspenseListComponent(current, workInProgress2, renderLanes2);
case 31:
return lazyComponent = workInProgress2.pendingProps, renderLanes2 = workInProgress2.mode, lazyComponent = {
mode: lazyComponent.mode,
children: lazyComponent.children
}, null === current ? (renderLanes2 = mountWorkInProgressOffscreenFiber(
lazyComponent,
renderLanes2
), renderLanes2.ref = workInProgress2.ref, workInProgress2.child = renderLanes2, renderLanes2.return = workInProgress2, workInProgress2 = renderLanes2) : (renderLanes2 = createWorkInProgress(current.child, lazyComponent), renderLanes2.ref = workInProgress2.ref, workInProgress2.child = renderLanes2, renderLanes2.return = workInProgress2, workInProgress2 = renderLanes2), workInProgress2;
case 22:
return updateOffscreenComponent(current, workInProgress2, renderLanes2);
case 24:
return prepareToReadContext(workInProgress2), lazyComponent = readContext(CacheContext), null === current ? (init = peekCacheFromPool(), null === init && (init = workInProgressRoot, prevState = createCache(), init.pooledCache = prevState, prevState.refCount++, null !== prevState && (init.pooledCacheLanes |= renderLanes2), init = prevState), workInProgress2.memoizedState = {
parent: lazyComponent,
cache: init
}, initializeUpdateQueue(workInProgress2), pushProvider(workInProgress2, CacheContext, init)) : (0 !== (current.lanes & renderLanes2) && (cloneUpdateQueue(current, workInProgress2), processUpdateQueue(workInProgress2, null, null, renderLanes2), suspendIfUpdateReadFromEntangledAsyncAction()), init = current.memoizedState, prevState = workInProgress2.memoizedState, init.parent !== lazyComponent ? (init = { parent: lazyComponent, cache: lazyComponent }, workInProgress2.memoizedState = init, 0 === workInProgress2.lanes && (workInProgress2.memoizedState = workInProgress2.updateQueue.baseState = init), pushProvider(workInProgress2, CacheContext, lazyComponent)) : (lazyComponent = prevState.cache, pushProvider(workInProgress2, CacheContext, lazyComponent), lazyComponent !== init.cache && propagateContextChanges(
workInProgress2,
[CacheContext],
renderLanes2,
true
))), reconcileChildren(
current,
workInProgress2,
workInProgress2.pendingProps.children,
renderLanes2
), workInProgress2.child;
case 29:
throw workInProgress2.pendingProps;
}
throw Error(formatProdErrorMessage(156, workInProgress2.tag));
}
function markUpdate(workInProgress2) {
workInProgress2.flags |= 4;
}
function preloadResourceAndSuspendIfNeeded(workInProgress2, resource) {
if ("stylesheet" !== resource.type || 0 !== (resource.state.loading & 4))
workInProgress2.flags &= -16777217;
else if (workInProgress2.flags |= 16777216, !preloadResource(resource)) {
resource = suspenseHandlerStackCursor.current;
if (null !== resource && ((workInProgressRootRenderLanes & 4194048) === workInProgressRootRenderLanes ? null !== shellBoundary : (workInProgressRootRenderLanes & 62914560) !== workInProgressRootRenderLanes && 0 === (workInProgressRootRenderLanes & 536870912) || resource !== shellBoundary))
throw suspendedThenable = noopSuspenseyCommitThenable, SuspenseyCommitException;
workInProgress2.flags |= 8192;
}
}
function scheduleRetryEffect(workInProgress2, retryQueue) {
null !== retryQueue && (workInProgress2.flags |= 4);
workInProgress2.flags & 16384 && (retryQueue = 22 !== workInProgress2.tag ? claimNextRetryLane() : 536870912, workInProgress2.lanes |= retryQueue, workInProgressSuspendedRetryLanes |= retryQueue);
}
function cutOffTailIfNeeded(renderState, hasRenderedATailFallback) {
if (!isHydrating)
switch (renderState.tailMode) {
case "hidden":
hasRenderedATailFallback = renderState.tail;
for (var lastTailNode = null; null !== hasRenderedATailFallback; )
null !== hasRenderedATailFallback.alternate && (lastTailNode = hasRenderedATailFallback), hasRenderedATailFallback = hasRenderedATailFallback.sibling;
null === lastTailNode ? renderState.tail = null : lastTailNode.sibling = null;
break;
case "collapsed":
lastTailNode = renderState.tail;
for (var lastTailNode$113 = null; null !== lastTailNode; )
null !== lastTailNode.alternate && (lastTailNode$113 = lastTailNode), lastTailNode = lastTailNode.sibling;
null === lastTailNode$113 ? hasRenderedATailFallback || null === renderState.tail ? renderState.tail = null : renderState.tail.sibling = null : lastTailNode$113.sibling = null;
}
}
function bubbleProperties(completedWork) {
var didBailout = null !== completedWork.alternate && completedWork.alternate.child === completedWork.child, newChildLanes = 0, subtreeFlags = 0;
if (didBailout)
for (var child$114 = completedWork.child; null !== child$114; )
newChildLanes |= child$114.lanes | child$114.childLanes, subtreeFlags |= child$114.subtreeFlags & 65011712, subtreeFlags |= child$114.flags & 65011712, child$114.return = completedWork, child$114 = child$114.sibling;
else
for (child$114 = completedWork.child; null !== child$114; )
newChildLanes |= child$114.lanes | child$114.childLanes, subtreeFlags |= child$114.subtreeFlags, subtreeFlags |= child$114.flags, child$114.return = completedWork, child$114 = child$114.sibling;
completedWork.subtreeFlags |= subtreeFlags;
completedWork.childLanes = newChildLanes;
return didBailout;
}
function completeWork(current, workInProgress2, renderLanes2) {
var newProps = workInProgress2.pendingProps;
popTreeContext(workInProgress2);
switch (workInProgress2.tag) {
case 31:
case 16:
case 15:
case 0:
case 11:
case 7:
case 8:
case 12:
case 9:
case 14:
return bubbleProperties(workInProgress2), null;
case 1:
return bubbleProperties(workInProgress2), null;
case 3:
renderLanes2 = workInProgress2.stateNode;
newProps = null;
null !== current && (newProps = current.memoizedState.cache);
workInProgress2.memoizedState.cache !== newProps && (workInProgress2.flags |= 2048);
popProvider(CacheContext);
popHostContainer();
renderLanes2.pendingContext && (renderLanes2.context = renderLanes2.pendingContext, renderLanes2.pendingContext = null);
if (null === current || null === current.child)
popHydrationState(workInProgress2) ? markUpdate(workInProgress2) : null === current || current.memoizedState.isDehydrated && 0 === (workInProgress2.flags & 256) || (workInProgress2.flags |= 1024, upgradeHydrationErrorsToRecoverable());
bubbleProperties(workInProgress2);
return null;
case 26:
return renderLanes2 = workInProgress2.memoizedState, null === current ? (markUpdate(workInProgress2), null !== renderLanes2 ? (bubbleProperties(workInProgress2), preloadResourceAndSuspendIfNeeded(workInProgress2, renderLanes2)) : (bubbleProperties(workInProgress2), workInProgress2.flags &= -16777217)) : renderLanes2 ? renderLanes2 !== current.memoizedState ? (markUpdate(workInProgress2), bubbleProperties(workInProgress2), preloadResourceAndSuspendIfNeeded(workInProgress2, renderLanes2)) : (bubbleProperties(workInProgress2), workInProgress2.flags &= -16777217) : (current.memoizedProps !== newProps && markUpdate(workInProgress2), bubbleProperties(workInProgress2), workInProgress2.flags &= -16777217), null;
case 27:
popHostContext(workInProgress2);
renderLanes2 = rootInstanceStackCursor.current;
var type = workInProgress2.type;
if (null !== current && null != workInProgress2.stateNode)
current.memoizedProps !== newProps && markUpdate(workInProgress2);
else {
if (!newProps) {
if (null === workInProgress2.stateNode)
throw Error(formatProdErrorMessage(166));
bubbleProperties(workInProgress2);
return null;
}
current = contextStackCursor.current;
popHydrationState(workInProgress2) ? prepareToHydrateHostInstance(workInProgress2) : (current = resolveSingletonInstance(type, newProps, renderLanes2), workInProgress2.stateNode = current, markUpdate(workInProgress2));
}
bubbleProperties(workInProgress2);
return null;
case 5:
popHostContext(workInProgress2);
renderLanes2 = workInProgress2.type;
if (null !== current && null != workInProgress2.stateNode)
current.memoizedProps !== newProps && markUpdate(workInProgress2);
else {
if (!newProps) {
if (null === workInProgress2.stateNode)
throw Error(formatProdErrorMessage(166));
bubbleProperties(workInProgress2);
return null;
}
current = contextStackCursor.current;
if (popHydrationState(workInProgress2))
prepareToHydrateHostInstance(workInProgress2);
else {
type = getOwnerDocumentFromRootContainer(
rootInstanceStackCursor.current
);
switch (current) {
case 1:
current = type.createElementNS(
"http://www.w3.org/2000/svg",
renderLanes2
);
break;
case 2:
current = type.createElementNS(
"http://www.w3.org/1998/Math/MathML",
renderLanes2
);
break;
default:
switch (renderLanes2) {
case "svg":
current = type.createElementNS(
"http://www.w3.org/2000/svg",
renderLanes2
);
break;
case "math":
current = type.createElementNS(
"http://www.w3.org/1998/Math/MathML",
renderLanes2
);
break;
case "script":
current = type.createElement("div");
current.innerHTML = "<script><\/script>";
current = current.removeChild(current.firstChild);
break;
case "select":
current = "string" === typeof newProps.is ? type.createElement("select", { is: newProps.is }) : type.createElement("select");
newProps.multiple ? current.multiple = true : newProps.size && (current.size = newProps.size);
break;
default:
current = "string" === typeof newProps.is ? type.createElement(renderLanes2, { is: newProps.is }) : type.createElement(renderLanes2);
}
}
current[internalInstanceKey] = workInProgress2;
current[internalPropsKey] = newProps;
a: for (type = workInProgress2.child; null !== type; ) {
if (5 === type.tag || 6 === type.tag)
current.appendChild(type.stateNode);
else if (4 !== type.tag && 27 !== type.tag && null !== type.child) {
type.child.return = type;
type = type.child;
continue;
}
if (type === workInProgress2) break a;
for (; null === type.sibling; ) {
if (null === type.return || type.return === workInProgress2)
break a;
type = type.return;
}
type.sibling.return = type.return;
type = type.sibling;
}
workInProgress2.stateNode = current;
a: switch (setInitialProperties(current, renderLanes2, newProps), renderLanes2) {
case "button":
case "input":
case "select":
case "textarea":
current = !!newProps.autoFocus;
break a;
case "img":
current = true;
break a;
default:
current = false;
}
current && markUpdate(workInProgress2);
}
}
bubbleProperties(workInProgress2);
workInProgress2.flags &= -16777217;
return null;
case 6:
if (current && null != workInProgress2.stateNode)
current.memoizedProps !== newProps && markUpdate(workInProgress2);
else {
if ("string" !== typeof newProps && null === workInProgress2.stateNode)
throw Error(formatProdErrorMessage(166));
current = rootInstanceStackCursor.current;
if (popHydrationState(workInProgress2)) {
current = workInProgress2.stateNode;
renderLanes2 = workInProgress2.memoizedProps;
newProps = null;
type = hydrationParentFiber;
if (null !== type)
switch (type.tag) {
case 27:
case 5:
newProps = type.memoizedProps;
}
current[internalInstanceKey] = workInProgress2;
current = current.nodeValue === renderLanes2 || null !== newProps && true === newProps.suppressHydrationWarning || checkForUnmatchedText(current.nodeValue, renderLanes2) ? true : false;
current || throwOnHydrationMismatch(workInProgress2);
} else
current = getOwnerDocumentFromRootContainer(current).createTextNode(
newProps
), current[internalInstanceKey] = workInProgress2, workInProgress2.stateNode = current;
}
bubbleProperties(workInProgress2);
return null;
case 13:
newProps = workInProgress2.memoizedState;
if (null === current || null !== current.memoizedState && null !== current.memoizedState.dehydrated) {
type = popHydrationState(workInProgress2);
if (null !== newProps && null !== newProps.dehydrated) {
if (null === current) {
if (!type) throw Error(formatProdErrorMessage(318));
type = workInProgress2.memoizedState;
type = null !== type ? type.dehydrated : null;
if (!type) throw Error(formatProdErrorMessage(317));
type[internalInstanceKey] = workInProgress2;
} else
resetHydrationState(), 0 === (workInProgress2.flags & 128) && (workInProgress2.memoizedState = null), workInProgress2.flags |= 4;
bubbleProperties(workInProgress2);
type = false;
} else
type = upgradeHydrationErrorsToRecoverable(), null !== current && null !== current.memoizedState && (current.memoizedState.hydrationErrors = type), type = true;
if (!type) {
if (workInProgress2.flags & 256)
return popSuspenseHandler(workInProgress2), workInProgress2;
popSuspenseHandler(workInProgress2);
return null;
}
}
popSuspenseHandler(workInProgress2);
if (0 !== (workInProgress2.flags & 128))
return workInProgress2.lanes = renderLanes2, workInProgress2;
renderLanes2 = null !== newProps;
current = null !== current && null !== current.memoizedState;
if (renderLanes2) {
newProps = workInProgress2.child;
type = null;
null !== newProps.alternate && null !== newProps.alternate.memoizedState && null !== newProps.alternate.memoizedState.cachePool && (type = newProps.alternate.memoizedState.cachePool.pool);
var cache$127 = null;
null !== newProps.memoizedState && null !== newProps.memoizedState.cachePool && (cache$127 = newProps.memoizedState.cachePool.pool);
cache$127 !== type && (newProps.flags |= 2048);
}
renderLanes2 !== current && renderLanes2 && (workInProgress2.child.flags |= 8192);
scheduleRetryEffect(workInProgress2, workInProgress2.updateQueue);
bubbleProperties(workInProgress2);
return null;
case 4:
return popHostContainer(), null === current && listenToAllSupportedEvents(workInProgress2.stateNode.containerInfo), bubbleProperties(workInProgress2), null;
case 10:
return popProvider(workInProgress2.type), bubbleProperties(workInProgress2), null;
case 19:
pop(suspenseStackCursor);
type = workInProgress2.memoizedState;
if (null === type) return bubbleProperties(workInProgress2), null;
newProps = 0 !== (workInProgress2.flags & 128);
cache$127 = type.rendering;
if (null === cache$127)
if (newProps) cutOffTailIfNeeded(type, false);
else {
if (0 !== workInProgressRootExitStatus || null !== current && 0 !== (current.flags & 128))
for (current = workInProgress2.child; null !== current; ) {
cache$127 = findFirstSuspended(current);
if (null !== cache$127) {
workInProgress2.flags |= 128;
cutOffTailIfNeeded(type, false);
current = cache$127.updateQueue;
workInProgress2.updateQueue = current;
scheduleRetryEffect(workInProgress2, current);
workInProgress2.subtreeFlags = 0;
current = renderLanes2;
for (renderLanes2 = workInProgress2.child; null !== renderLanes2; )
resetWorkInProgress(renderLanes2, current), renderLanes2 = renderLanes2.sibling;
push(
suspenseStackCursor,
suspenseStackCursor.current & 1 | 2
);
return workInProgress2.child;
}
current = current.sibling;
}
null !== type.tail && now() > workInProgressRootRenderTargetTime && (workInProgress2.flags |= 128, newProps = true, cutOffTailIfNeeded(type, false), workInProgress2.lanes = 4194304);
}
else {
if (!newProps)
if (current = findFirstSuspended(cache$127), null !== current) {
if (workInProgress2.flags |= 128, newProps = true, current = current.updateQueue, workInProgress2.updateQueue = current, scheduleRetryEffect(workInProgress2, current), cutOffTailIfNeeded(type, true), null === type.tail && "hidden" === type.tailMode && !cache$127.alternate && !isHydrating)
return bubbleProperties(workInProgress2), null;
} else
2 * now() - type.renderingStartTime > workInProgressRootRenderTargetTime && 536870912 !== renderLanes2 && (workInProgress2.flags |= 128, newProps = true, cutOffTailIfNeeded(type, false), workInProgress2.lanes = 4194304);
type.isBackwards ? (cache$127.sibling = workInProgress2.child, workInProgress2.child = cache$127) : (current = type.last, null !== current ? current.sibling = cache$127 : workInProgress2.child = cache$127, type.last = cache$127);
}
if (null !== type.tail)
return workInProgress2 = type.tail, type.rendering = workInProgress2, type.tail = workInProgress2.sibling, type.renderingStartTime = now(), workInProgress2.sibling = null, current = suspenseStackCursor.current, push(suspenseStackCursor, newProps ? current & 1 | 2 : current & 1), workInProgress2;
bubbleProperties(workInProgress2);
return null;
case 22:
case 23:
return popSuspenseHandler(workInProgress2), popHiddenContext(), newProps = null !== workInProgress2.memoizedState, null !== current ? null !== current.memoizedState !== newProps && (workInProgress2.flags |= 8192) : newProps && (workInProgress2.flags |= 8192), newProps ? 0 !== (renderLanes2 & 536870912) && 0 === (workInProgress2.flags & 128) && (bubbleProperties(workInProgress2), workInProgress2.subtreeFlags & 6 && (workInProgress2.flags |= 8192)) : bubbleProperties(workInProgress2), renderLanes2 = workInProgress2.updateQueue, null !== renderLanes2 && scheduleRetryEffect(workInProgress2, renderLanes2.retryQueue), renderLanes2 = null, null !== current && null !== current.memoizedState && null !== current.memoizedState.cachePool && (renderLanes2 = current.memoizedState.cachePool.pool), newProps = null, null !== workInProgress2.memoizedState && null !== workInProgress2.memoizedState.cachePool && (newProps = workInProgress2.memoizedState.cachePool.pool), newProps !== renderLanes2 && (workInProgress2.flags |= 2048), null !== current && pop(resumedCache), null;
case 24:
return renderLanes2 = null, null !== current && (renderLanes2 = current.memoizedState.cache), workInProgress2.memoizedState.cache !== renderLanes2 && (workInProgress2.flags |= 2048), popProvider(CacheContext), bubbleProperties(workInProgress2), null;
case 25:
return null;
case 30:
return null;
}
throw Error(formatProdErrorMessage(156, workInProgress2.tag));
}
function unwindWork(current, workInProgress2) {
popTreeContext(workInProgress2);
switch (workInProgress2.tag) {
case 1:
return current = workInProgress2.flags, current & 65536 ? (workInProgress2.flags = current & -65537 | 128, workInProgress2) : null;
case 3:
return popProvider(CacheContext), popHostContainer(), current = workInProgress2.flags, 0 !== (current & 65536) && 0 === (current & 128) ? (workInProgress2.flags = current & -65537 | 128, workInProgress2) : null;
case 26:
case 27:
case 5:
return popHostContext(workInProgress2), null;
case 13:
popSuspenseHandler(workInProgress2);
current = workInProgress2.memoizedState;
if (null !== current && null !== current.dehydrated) {
if (null === workInProgress2.alternate)
throw Error(formatProdErrorMessage(340));
resetHydrationState();
}
current = workInProgress2.flags;
return current & 65536 ? (workInProgress2.flags = current & -65537 | 128, workInProgress2) : null;
case 19:
return pop(suspenseStackCursor), null;
case 4:
return popHostContainer(), null;
case 10:
return popProvider(workInProgress2.type), null;
case 22:
case 23:
return popSuspenseHandler(workInProgress2), popHiddenContext(), null !== current && pop(resumedCache), current = workInProgress2.flags, current & 65536 ? (workInProgress2.flags = current & -65537 | 128, workInProgress2) : null;
case 24:
return popProvider(CacheContext), null;
case 25:
return null;
default:
return null;
}
}
function unwindInterruptedWork(current, interruptedWork) {
popTreeContext(interruptedWork);
switch (interruptedWork.tag) {
case 3:
popProvider(CacheContext);
popHostContainer();
break;
case 26:
case 27:
case 5:
popHostContext(interruptedWork);
break;
case 4:
popHostContainer();
break;
case 13:
popSuspenseHandler(interruptedWork);
break;
case 19:
pop(suspenseStackCursor);
break;
case 10:
popProvider(interruptedWork.type);
break;
case 22:
case 23:
popSuspenseHandler(interruptedWork);
popHiddenContext();
null !== current && pop(resumedCache);
break;
case 24:
popProvider(CacheContext);
}
}
function commitHookEffectListMount(flags, finishedWork) {
try {
var updateQueue = finishedWork.updateQueue, lastEffect = null !== updateQueue ? updateQueue.lastEffect : null;
if (null !== lastEffect) {
var firstEffect = lastEffect.next;
updateQueue = firstEffect;
do {
if ((updateQueue.tag & flags) === flags) {
lastEffect = void 0;
var create = updateQueue.create, inst = updateQueue.inst;
lastEffect = create();
inst.destroy = lastEffect;
}
updateQueue = updateQueue.next;
} while (updateQueue !== firstEffect);
}
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
function commitHookEffectListUnmount(flags, finishedWork, nearestMountedAncestor$jscomp$0) {
try {
var updateQueue = finishedWork.updateQueue, lastEffect = null !== updateQueue ? updateQueue.lastEffect : null;
if (null !== lastEffect) {
var firstEffect = lastEffect.next;
updateQueue = firstEffect;
do {
if ((updateQueue.tag & flags) === flags) {
var inst = updateQueue.inst, destroy = inst.destroy;
if (void 0 !== destroy) {
inst.destroy = void 0;
lastEffect = finishedWork;
var nearestMountedAncestor = nearestMountedAncestor$jscomp$0, destroy_ = destroy;
try {
destroy_();
} catch (error) {
captureCommitPhaseError(
lastEffect,
nearestMountedAncestor,
error
);
}
}
}
updateQueue = updateQueue.next;
} while (updateQueue !== firstEffect);
}
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
function commitClassCallbacks(finishedWork) {
var updateQueue = finishedWork.updateQueue;
if (null !== updateQueue) {
var instance = finishedWork.stateNode;
try {
commitCallbacks(updateQueue, instance);
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
}
function safelyCallComponentWillUnmount(current, nearestMountedAncestor, instance) {
instance.props = resolveClassComponentProps(
current.type,
current.memoizedProps
);
instance.state = current.memoizedState;
try {
instance.componentWillUnmount();
} catch (error) {
captureCommitPhaseError(current, nearestMountedAncestor, error);
}
}
function safelyAttachRef(current, nearestMountedAncestor) {
try {
var ref = current.ref;
if (null !== ref) {
switch (current.tag) {
case 26:
case 27:
case 5:
var instanceToUse = current.stateNode;
break;
case 30:
instanceToUse = current.stateNode;
break;
default:
instanceToUse = current.stateNode;
}
"function" === typeof ref ? current.refCleanup = ref(instanceToUse) : ref.current = instanceToUse;
}
} catch (error) {
captureCommitPhaseError(current, nearestMountedAncestor, error);
}
}
function safelyDetachRef(current, nearestMountedAncestor) {
var ref = current.ref, refCleanup = current.refCleanup;
if (null !== ref)
if ("function" === typeof refCleanup)
try {
refCleanup();
} catch (error) {
captureCommitPhaseError(current, nearestMountedAncestor, error);
} finally {
current.refCleanup = null, current = current.alternate, null != current && (current.refCleanup = null);
}
else if ("function" === typeof ref)
try {
ref(null);
} catch (error$143) {
captureCommitPhaseError(current, nearestMountedAncestor, error$143);
}
else ref.current = null;
}
function commitHostMount(finishedWork) {
var type = finishedWork.type, props = finishedWork.memoizedProps, instance = finishedWork.stateNode;
try {
a: switch (type) {
case "button":
case "input":
case "select":
case "textarea":
props.autoFocus && instance.focus();
break a;
case "img":
props.src ? instance.src = props.src : props.srcSet && (instance.srcset = props.srcSet);
}
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
function commitHostUpdate(finishedWork, newProps, oldProps) {
try {
var domElement = finishedWork.stateNode;
updateProperties(domElement, finishedWork.type, oldProps, newProps);
domElement[internalPropsKey] = newProps;
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
function isHostParent(fiber) {
return 5 === fiber.tag || 3 === fiber.tag || 26 === fiber.tag || 27 === fiber.tag && isSingletonScope(fiber.type) || 4 === fiber.tag;
}
function getHostSibling(fiber) {
a: for (; ; ) {
for (; null === fiber.sibling; ) {
if (null === fiber.return || isHostParent(fiber.return)) return null;
fiber = fiber.return;
}
fiber.sibling.return = fiber.return;
for (fiber = fiber.sibling; 5 !== fiber.tag && 6 !== fiber.tag && 18 !== fiber.tag; ) {
if (27 === fiber.tag && isSingletonScope(fiber.type)) continue a;
if (fiber.flags & 2) continue a;
if (null === fiber.child || 4 === fiber.tag) continue a;
else fiber.child.return = fiber, fiber = fiber.child;
}
if (!(fiber.flags & 2)) return fiber.stateNode;
}
}
function insertOrAppendPlacementNodeIntoContainer(node, before, parent) {
var tag = node.tag;
if (5 === tag || 6 === tag)
node = node.stateNode, before ? (9 === parent.nodeType ? parent.body : "HTML" === parent.nodeName ? parent.ownerDocument.body : parent).insertBefore(node, before) : (before = 9 === parent.nodeType ? parent.body : "HTML" === parent.nodeName ? parent.ownerDocument.body : parent, before.appendChild(node), parent = parent._reactRootContainer, null !== parent && void 0 !== parent || null !== before.onclick || (before.onclick = noop$1));
else if (4 !== tag && (27 === tag && isSingletonScope(node.type) && (parent = node.stateNode, before = null), node = node.child, null !== node))
for (insertOrAppendPlacementNodeIntoContainer(node, before, parent), node = node.sibling; null !== node; )
insertOrAppendPlacementNodeIntoContainer(node, before, parent), node = node.sibling;
}
function insertOrAppendPlacementNode(node, before, parent) {
var tag = node.tag;
if (5 === tag || 6 === tag)
node = node.stateNode, before ? parent.insertBefore(node, before) : parent.appendChild(node);
else if (4 !== tag && (27 === tag && isSingletonScope(node.type) && (parent = node.stateNode), node = node.child, null !== node))
for (insertOrAppendPlacementNode(node, before, parent), node = node.sibling; null !== node; )
insertOrAppendPlacementNode(node, before, parent), node = node.sibling;
}
function commitHostSingletonAcquisition(finishedWork) {
var singleton = finishedWork.stateNode, props = finishedWork.memoizedProps;
try {
for (var type = finishedWork.type, attributes = singleton.attributes; attributes.length; )
singleton.removeAttributeNode(attributes[0]);
setInitialProperties(singleton, type, props);
singleton[internalInstanceKey] = finishedWork;
singleton[internalPropsKey] = props;
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
var offscreenSubtreeIsHidden = false, offscreenSubtreeWasHidden = false, needsFormReset = false, PossiblyWeakSet = "function" === typeof WeakSet ? WeakSet : Set, nextEffect = null;
function commitBeforeMutationEffects(root2, firstChild) {
root2 = root2.containerInfo;
eventsEnabled = _enabled;
root2 = getActiveElementDeep(root2);
if (hasSelectionCapabilities(root2)) {
if ("selectionStart" in root2)
var JSCompiler_temp = {
start: root2.selectionStart,
end: root2.selectionEnd
};
else
a: {
JSCompiler_temp = (JSCompiler_temp = root2.ownerDocument) && JSCompiler_temp.defaultView || window;
var selection = JSCompiler_temp.getSelection && JSCompiler_temp.getSelection();
if (selection && 0 !== selection.rangeCount) {
JSCompiler_temp = selection.anchorNode;
var anchorOffset = selection.anchorOffset, focusNode = selection.focusNode;
selection = selection.focusOffset;
try {
JSCompiler_temp.nodeType, focusNode.nodeType;
} catch (e$20) {
JSCompiler_temp = null;
break a;
}
var length = 0, start = -1, end = -1, indexWithinAnchor = 0, indexWithinFocus = 0, node = root2, parentNode = null;
b: for (; ; ) {
for (var next; ; ) {
node !== JSCompiler_temp || 0 !== anchorOffset && 3 !== node.nodeType || (start = length + anchorOffset);
node !== focusNode || 0 !== selection && 3 !== node.nodeType || (end = length + selection);
3 === node.nodeType && (length += node.nodeValue.length);
if (null === (next = node.firstChild)) break;
parentNode = node;
node = next;
}
for (; ; ) {
if (node === root2) break b;
parentNode === JSCompiler_temp && ++indexWithinAnchor === anchorOffset && (start = length);
parentNode === focusNode && ++indexWithinFocus === selection && (end = length);
if (null !== (next = node.nextSibling)) break;
node = parentNode;
parentNode = node.parentNode;
}
node = next;
}
JSCompiler_temp = -1 === start || -1 === end ? null : { start, end };
} else JSCompiler_temp = null;
}
JSCompiler_temp = JSCompiler_temp || { start: 0, end: 0 };
} else JSCompiler_temp = null;
selectionInformation = { focusedElem: root2, selectionRange: JSCompiler_temp };
_enabled = false;
for (nextEffect = firstChild; null !== nextEffect; )
if (firstChild = nextEffect, root2 = firstChild.child, 0 !== (firstChild.subtreeFlags & 1024) && null !== root2)
root2.return = firstChild, nextEffect = root2;
else
for (; null !== nextEffect; ) {
firstChild = nextEffect;
focusNode = firstChild.alternate;
root2 = firstChild.flags;
switch (firstChild.tag) {
case 0:
break;
case 11:
case 15:
break;
case 1:
if (0 !== (root2 & 1024) && null !== focusNode) {
root2 = void 0;
JSCompiler_temp = firstChild;
anchorOffset = focusNode.memoizedProps;
focusNode = focusNode.memoizedState;
selection = JSCompiler_temp.stateNode;
try {
var resolvedPrevProps = resolveClassComponentProps(
JSCompiler_temp.type,
anchorOffset,
JSCompiler_temp.elementType === JSCompiler_temp.type
);
root2 = selection.getSnapshotBeforeUpdate(
resolvedPrevProps,
focusNode
);
selection.__reactInternalSnapshotBeforeUpdate = root2;
} catch (error) {
captureCommitPhaseError(
JSCompiler_temp,
JSCompiler_temp.return,
error
);
}
}
break;
case 3:
if (0 !== (root2 & 1024)) {
if (root2 = firstChild.stateNode.containerInfo, JSCompiler_temp = root2.nodeType, 9 === JSCompiler_temp)
clearContainerSparingly(root2);
else if (1 === JSCompiler_temp)
switch (root2.nodeName) {
case "HEAD":
case "HTML":
case "BODY":
clearContainerSparingly(root2);
break;
default:
root2.textContent = "";
}
}
break;
case 5:
case 26:
case 27:
case 6:
case 4:
case 17:
break;
default:
if (0 !== (root2 & 1024)) throw Error(formatProdErrorMessage(163));
}
root2 = firstChild.sibling;
if (null !== root2) {
root2.return = firstChild.return;
nextEffect = root2;
break;
}
nextEffect = firstChild.return;
}
}
function commitLayoutEffectOnFiber(finishedRoot, current, finishedWork) {
var flags = finishedWork.flags;
switch (finishedWork.tag) {
case 0:
case 11:
case 15:
recursivelyTraverseLayoutEffects(finishedRoot, finishedWork);
flags & 4 && commitHookEffectListMount(5, finishedWork);
break;
case 1:
recursivelyTraverseLayoutEffects(finishedRoot, finishedWork);
if (flags & 4)
if (finishedRoot = finishedWork.stateNode, null === current)
try {
finishedRoot.componentDidMount();
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
else {
var prevProps = resolveClassComponentProps(
finishedWork.type,
current.memoizedProps
);
current = current.memoizedState;
try {
finishedRoot.componentDidUpdate(
prevProps,
current,
finishedRoot.__reactInternalSnapshotBeforeUpdate
);
} catch (error$142) {
captureCommitPhaseError(
finishedWork,
finishedWork.return,
error$142
);
}
}
flags & 64 && commitClassCallbacks(finishedWork);
flags & 512 && safelyAttachRef(finishedWork, finishedWork.return);
break;
case 3:
recursivelyTraverseLayoutEffects(finishedRoot, finishedWork);
if (flags & 64 && (finishedRoot = finishedWork.updateQueue, null !== finishedRoot)) {
current = null;
if (null !== finishedWork.child)
switch (finishedWork.child.tag) {
case 27:
case 5:
current = finishedWork.child.stateNode;
break;
case 1:
current = finishedWork.child.stateNode;
}
try {
commitCallbacks(finishedRoot, current);
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
break;
case 27:
null === current && flags & 4 && commitHostSingletonAcquisition(finishedWork);
case 26:
case 5:
recursivelyTraverseLayoutEffects(finishedRoot, finishedWork);
null === current && flags & 4 && commitHostMount(finishedWork);
flags & 512 && safelyAttachRef(finishedWork, finishedWork.return);
break;
case 12:
recursivelyTraverseLayoutEffects(finishedRoot, finishedWork);
break;
case 13:
recursivelyTraverseLayoutEffects(finishedRoot, finishedWork);
flags & 4 && commitSuspenseHydrationCallbacks(finishedRoot, finishedWork);
flags & 64 && (finishedRoot = finishedWork.memoizedState, null !== finishedRoot && (finishedRoot = finishedRoot.dehydrated, null !== finishedRoot && (finishedWork = retryDehydratedSuspenseBoundary.bind(
null,
finishedWork
), registerSuspenseInstanceRetry(finishedRoot, finishedWork))));
break;
case 22:
flags = null !== finishedWork.memoizedState || offscreenSubtreeIsHidden;
if (!flags) {
current = null !== current && null !== current.memoizedState || offscreenSubtreeWasHidden;
prevProps = offscreenSubtreeIsHidden;
var prevOffscreenSubtreeWasHidden = offscreenSubtreeWasHidden;
offscreenSubtreeIsHidden = flags;
(offscreenSubtreeWasHidden = current) && !prevOffscreenSubtreeWasHidden ? recursivelyTraverseReappearLayoutEffects(
finishedRoot,
finishedWork,
0 !== (finishedWork.subtreeFlags & 8772)
) : recursivelyTraverseLayoutEffects(finishedRoot, finishedWork);
offscreenSubtreeIsHidden = prevProps;
offscreenSubtreeWasHidden = prevOffscreenSubtreeWasHidden;
}
break;
case 30:
break;
default:
recursivelyTraverseLayoutEffects(finishedRoot, finishedWork);
}
}
function detachFiberAfterEffects(fiber) {
var alternate = fiber.alternate;
null !== alternate && (fiber.alternate = null, detachFiberAfterEffects(alternate));
fiber.child = null;
fiber.deletions = null;
fiber.sibling = null;
5 === fiber.tag && (alternate = fiber.stateNode, null !== alternate && detachDeletedInstance(alternate));
fiber.stateNode = null;
fiber.return = null;
fiber.dependencies = null;
fiber.memoizedProps = null;
fiber.memoizedState = null;
fiber.pendingProps = null;
fiber.stateNode = null;
fiber.updateQueue = null;
}
var hostParent = null, hostParentIsContainer = false;
function recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, parent) {
for (parent = parent.child; null !== parent; )
commitDeletionEffectsOnFiber(finishedRoot, nearestMountedAncestor, parent), parent = parent.sibling;
}
function commitDeletionEffectsOnFiber(finishedRoot, nearestMountedAncestor, deletedFiber) {
if (injectedHook && "function" === typeof injectedHook.onCommitFiberUnmount)
try {
injectedHook.onCommitFiberUnmount(rendererID, deletedFiber);
} catch (err) {
}
switch (deletedFiber.tag) {
case 26:
offscreenSubtreeWasHidden || safelyDetachRef(deletedFiber, nearestMountedAncestor);
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
deletedFiber.memoizedState ? deletedFiber.memoizedState.count-- : deletedFiber.stateNode && (deletedFiber = deletedFiber.stateNode, deletedFiber.parentNode.removeChild(deletedFiber));
break;
case 27:
offscreenSubtreeWasHidden || safelyDetachRef(deletedFiber, nearestMountedAncestor);
var prevHostParent = hostParent, prevHostParentIsContainer = hostParentIsContainer;
isSingletonScope(deletedFiber.type) && (hostParent = deletedFiber.stateNode, hostParentIsContainer = false);
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
releaseSingletonInstance(deletedFiber.stateNode);
hostParent = prevHostParent;
hostParentIsContainer = prevHostParentIsContainer;
break;
case 5:
offscreenSubtreeWasHidden || safelyDetachRef(deletedFiber, nearestMountedAncestor);
case 6:
prevHostParent = hostParent;
prevHostParentIsContainer = hostParentIsContainer;
hostParent = null;
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
hostParent = prevHostParent;
hostParentIsContainer = prevHostParentIsContainer;
if (null !== hostParent)
if (hostParentIsContainer)
try {
(9 === hostParent.nodeType ? hostParent.body : "HTML" === hostParent.nodeName ? hostParent.ownerDocument.body : hostParent).removeChild(deletedFiber.stateNode);
} catch (error) {
captureCommitPhaseError(
deletedFiber,
nearestMountedAncestor,
error
);
}
else
try {
hostParent.removeChild(deletedFiber.stateNode);
} catch (error) {
captureCommitPhaseError(
deletedFiber,
nearestMountedAncestor,
error
);
}
break;
case 18:
null !== hostParent && (hostParentIsContainer ? (finishedRoot = hostParent, clearSuspenseBoundary(
9 === finishedRoot.nodeType ? finishedRoot.body : "HTML" === finishedRoot.nodeName ? finishedRoot.ownerDocument.body : finishedRoot,
deletedFiber.stateNode
), retryIfBlockedOn(finishedRoot)) : clearSuspenseBoundary(hostParent, deletedFiber.stateNode));
break;
case 4:
prevHostParent = hostParent;
prevHostParentIsContainer = hostParentIsContainer;
hostParent = deletedFiber.stateNode.containerInfo;
hostParentIsContainer = true;
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
hostParent = prevHostParent;
hostParentIsContainer = prevHostParentIsContainer;
break;
case 0:
case 11:
case 14:
case 15:
offscreenSubtreeWasHidden || commitHookEffectListUnmount(2, deletedFiber, nearestMountedAncestor);
offscreenSubtreeWasHidden || commitHookEffectListUnmount(4, deletedFiber, nearestMountedAncestor);
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
break;
case 1:
offscreenSubtreeWasHidden || (safelyDetachRef(deletedFiber, nearestMountedAncestor), prevHostParent = deletedFiber.stateNode, "function" === typeof prevHostParent.componentWillUnmount && safelyCallComponentWillUnmount(
deletedFiber,
nearestMountedAncestor,
prevHostParent
));
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
break;
case 21:
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
break;
case 22:
offscreenSubtreeWasHidden = (prevHostParent = offscreenSubtreeWasHidden) || null !== deletedFiber.memoizedState;
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
offscreenSubtreeWasHidden = prevHostParent;
break;
default:
recursivelyTraverseDeletionEffects(
finishedRoot,
nearestMountedAncestor,
deletedFiber
);
}
}
function commitSuspenseHydrationCallbacks(finishedRoot, finishedWork) {
if (null === finishedWork.memoizedState && (finishedRoot = finishedWork.alternate, null !== finishedRoot && (finishedRoot = finishedRoot.memoizedState, null !== finishedRoot && (finishedRoot = finishedRoot.dehydrated, null !== finishedRoot))))
try {
retryIfBlockedOn(finishedRoot);
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
function getRetryCache(finishedWork) {
switch (finishedWork.tag) {
case 13:
case 19:
var retryCache = finishedWork.stateNode;
null === retryCache && (retryCache = finishedWork.stateNode = new PossiblyWeakSet());
return retryCache;
case 22:
return finishedWork = finishedWork.stateNode, retryCache = finishedWork._retryCache, null === retryCache && (retryCache = finishedWork._retryCache = new PossiblyWeakSet()), retryCache;
default:
throw Error(formatProdErrorMessage(435, finishedWork.tag));
}
}
function attachSuspenseRetryListeners(finishedWork, wakeables) {
var retryCache = getRetryCache(finishedWork);
wakeables.forEach(function(wakeable) {
var retry = resolveRetryWakeable.bind(null, finishedWork, wakeable);
retryCache.has(wakeable) || (retryCache.add(wakeable), wakeable.then(retry, retry));
});
}
function recursivelyTraverseMutationEffects(root$jscomp$0, parentFiber) {
var deletions = parentFiber.deletions;
if (null !== deletions)
for (var i = 0; i < deletions.length; i++) {
var childToDelete = deletions[i], root2 = root$jscomp$0, returnFiber = parentFiber, parent = returnFiber;
a: for (; null !== parent; ) {
switch (parent.tag) {
case 27:
if (isSingletonScope(parent.type)) {
hostParent = parent.stateNode;
hostParentIsContainer = false;
break a;
}
break;
case 5:
hostParent = parent.stateNode;
hostParentIsContainer = false;
break a;
case 3:
case 4:
hostParent = parent.stateNode.containerInfo;
hostParentIsContainer = true;
break a;
}
parent = parent.return;
}
if (null === hostParent) throw Error(formatProdErrorMessage(160));
commitDeletionEffectsOnFiber(root2, returnFiber, childToDelete);
hostParent = null;
hostParentIsContainer = false;
root2 = childToDelete.alternate;
null !== root2 && (root2.return = null);
childToDelete.return = null;
}
if (parentFiber.subtreeFlags & 13878)
for (parentFiber = parentFiber.child; null !== parentFiber; )
commitMutationEffectsOnFiber(parentFiber, root$jscomp$0), parentFiber = parentFiber.sibling;
}
var currentHoistableRoot = null;
function commitMutationEffectsOnFiber(finishedWork, root2) {
var current = finishedWork.alternate, flags = finishedWork.flags;
switch (finishedWork.tag) {
case 0:
case 11:
case 14:
case 15:
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
flags & 4 && (commitHookEffectListUnmount(3, finishedWork, finishedWork.return), commitHookEffectListMount(3, finishedWork), commitHookEffectListUnmount(5, finishedWork, finishedWork.return));
break;
case 1:
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
flags & 512 && (offscreenSubtreeWasHidden || null === current || safelyDetachRef(current, current.return));
flags & 64 && offscreenSubtreeIsHidden && (finishedWork = finishedWork.updateQueue, null !== finishedWork && (flags = finishedWork.callbacks, null !== flags && (current = finishedWork.shared.hiddenCallbacks, finishedWork.shared.hiddenCallbacks = null === current ? flags : current.concat(flags))));
break;
case 26:
var hoistableRoot = currentHoistableRoot;
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
flags & 512 && (offscreenSubtreeWasHidden || null === current || safelyDetachRef(current, current.return));
if (flags & 4) {
var currentResource = null !== current ? current.memoizedState : null;
flags = finishedWork.memoizedState;
if (null === current)
if (null === flags)
if (null === finishedWork.stateNode) {
a: {
flags = finishedWork.type;
current = finishedWork.memoizedProps;
hoistableRoot = hoistableRoot.ownerDocument || hoistableRoot;
b: switch (flags) {
case "title":
currentResource = hoistableRoot.getElementsByTagName("title")[0];
if (!currentResource || currentResource[internalHoistableMarker] || currentResource[internalInstanceKey] || "http://www.w3.org/2000/svg" === currentResource.namespaceURI || currentResource.hasAttribute("itemprop"))
currentResource = hoistableRoot.createElement(flags), hoistableRoot.head.insertBefore(
currentResource,
hoistableRoot.querySelector("head > title")
);
setInitialProperties(currentResource, flags, current);
currentResource[internalInstanceKey] = finishedWork;
markNodeAsHoistable(currentResource);
flags = currentResource;
break a;
case "link":
var maybeNodes = getHydratableHoistableCache(
"link",
"href",
hoistableRoot
).get(flags + (current.href || ""));
if (maybeNodes) {
for (var i = 0; i < maybeNodes.length; i++)
if (currentResource = maybeNodes[i], currentResource.getAttribute("href") === (null == current.href || "" === current.href ? null : current.href) && currentResource.getAttribute("rel") === (null == current.rel ? null : current.rel) && currentResource.getAttribute("title") === (null == current.title ? null : current.title) && currentResource.getAttribute("crossorigin") === (null == current.crossOrigin ? null : current.crossOrigin)) {
maybeNodes.splice(i, 1);
break b;
}
}
currentResource = hoistableRoot.createElement(flags);
setInitialProperties(currentResource, flags, current);
hoistableRoot.head.appendChild(currentResource);
break;
case "meta":
if (maybeNodes = getHydratableHoistableCache(
"meta",
"content",
hoistableRoot
).get(flags + (current.content || ""))) {
for (i = 0; i < maybeNodes.length; i++)
if (currentResource = maybeNodes[i], currentResource.getAttribute("content") === (null == current.content ? null : "" + current.content) && currentResource.getAttribute("name") === (null == current.name ? null : current.name) && currentResource.getAttribute("property") === (null == current.property ? null : current.property) && currentResource.getAttribute("http-equiv") === (null == current.httpEquiv ? null : current.httpEquiv) && currentResource.getAttribute("charset") === (null == current.charSet ? null : current.charSet)) {
maybeNodes.splice(i, 1);
break b;
}
}
currentResource = hoistableRoot.createElement(flags);
setInitialProperties(currentResource, flags, current);
hoistableRoot.head.appendChild(currentResource);
break;
default:
throw Error(formatProdErrorMessage(468, flags));
}
currentResource[internalInstanceKey] = finishedWork;
markNodeAsHoistable(currentResource);
flags = currentResource;
}
finishedWork.stateNode = flags;
} else
mountHoistable(
hoistableRoot,
finishedWork.type,
finishedWork.stateNode
);
else
finishedWork.stateNode = acquireResource(
hoistableRoot,
flags,
finishedWork.memoizedProps
);
else
currentResource !== flags ? (null === currentResource ? null !== current.stateNode && (current = current.stateNode, current.parentNode.removeChild(current)) : currentResource.count--, null === flags ? mountHoistable(
hoistableRoot,
finishedWork.type,
finishedWork.stateNode
) : acquireResource(
hoistableRoot,
flags,
finishedWork.memoizedProps
)) : null === flags && null !== finishedWork.stateNode && commitHostUpdate(
finishedWork,
finishedWork.memoizedProps,
current.memoizedProps
);
}
break;
case 27:
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
flags & 512 && (offscreenSubtreeWasHidden || null === current || safelyDetachRef(current, current.return));
null !== current && flags & 4 && commitHostUpdate(
finishedWork,
finishedWork.memoizedProps,
current.memoizedProps
);
break;
case 5:
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
flags & 512 && (offscreenSubtreeWasHidden || null === current || safelyDetachRef(current, current.return));
if (finishedWork.flags & 32) {
hoistableRoot = finishedWork.stateNode;
try {
setTextContent(hoistableRoot, "");
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
flags & 4 && null != finishedWork.stateNode && (hoistableRoot = finishedWork.memoizedProps, commitHostUpdate(
finishedWork,
hoistableRoot,
null !== current ? current.memoizedProps : hoistableRoot
));
flags & 1024 && (needsFormReset = true);
break;
case 6:
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
if (flags & 4) {
if (null === finishedWork.stateNode)
throw Error(formatProdErrorMessage(162));
flags = finishedWork.memoizedProps;
current = finishedWork.stateNode;
try {
current.nodeValue = flags;
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
}
break;
case 3:
tagCaches = null;
hoistableRoot = currentHoistableRoot;
currentHoistableRoot = getHoistableRoot(root2.containerInfo);
recursivelyTraverseMutationEffects(root2, finishedWork);
currentHoistableRoot = hoistableRoot;
commitReconciliationEffects(finishedWork);
if (flags & 4 && null !== current && current.memoizedState.isDehydrated)
try {
retryIfBlockedOn(root2.containerInfo);
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
needsFormReset && (needsFormReset = false, recursivelyResetForms(finishedWork));
break;
case 4:
flags = currentHoistableRoot;
currentHoistableRoot = getHoistableRoot(
finishedWork.stateNode.containerInfo
);
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
currentHoistableRoot = flags;
break;
case 12:
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
break;
case 13:
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
finishedWork.child.flags & 8192 && null !== finishedWork.memoizedState !== (null !== current && null !== current.memoizedState) && (globalMostRecentFallbackTime = now());
flags & 4 && (flags = finishedWork.updateQueue, null !== flags && (finishedWork.updateQueue = null, attachSuspenseRetryListeners(finishedWork, flags)));
break;
case 22:
hoistableRoot = null !== finishedWork.memoizedState;
var wasHidden = null !== current && null !== current.memoizedState, prevOffscreenSubtreeIsHidden = offscreenSubtreeIsHidden, prevOffscreenSubtreeWasHidden = offscreenSubtreeWasHidden;
offscreenSubtreeIsHidden = prevOffscreenSubtreeIsHidden || hoistableRoot;
offscreenSubtreeWasHidden = prevOffscreenSubtreeWasHidden || wasHidden;
recursivelyTraverseMutationEffects(root2, finishedWork);
offscreenSubtreeWasHidden = prevOffscreenSubtreeWasHidden;
offscreenSubtreeIsHidden = prevOffscreenSubtreeIsHidden;
commitReconciliationEffects(finishedWork);
if (flags & 8192)
a: for (root2 = finishedWork.stateNode, root2._visibility = hoistableRoot ? root2._visibility & -2 : root2._visibility | 1, hoistableRoot && (null === current || wasHidden || offscreenSubtreeIsHidden || offscreenSubtreeWasHidden || recursivelyTraverseDisappearLayoutEffects(finishedWork)), current = null, root2 = finishedWork; ; ) {
if (5 === root2.tag || 26 === root2.tag) {
if (null === current) {
wasHidden = current = root2;
try {
if (currentResource = wasHidden.stateNode, hoistableRoot)
maybeNodes = currentResource.style, "function" === typeof maybeNodes.setProperty ? maybeNodes.setProperty("display", "none", "important") : maybeNodes.display = "none";
else {
i = wasHidden.stateNode;
var styleProp = wasHidden.memoizedProps.style, display = void 0 !== styleProp && null !== styleProp && styleProp.hasOwnProperty("display") ? styleProp.display : null;
i.style.display = null == display || "boolean" === typeof display ? "" : ("" + display).trim();
}
} catch (error) {
captureCommitPhaseError(wasHidden, wasHidden.return, error);
}
}
} else if (6 === root2.tag) {
if (null === current) {
wasHidden = root2;
try {
wasHidden.stateNode.nodeValue = hoistableRoot ? "" : wasHidden.memoizedProps;
} catch (error) {
captureCommitPhaseError(wasHidden, wasHidden.return, error);
}
}
} else if ((22 !== root2.tag && 23 !== root2.tag || null === root2.memoizedState || root2 === finishedWork) && null !== root2.child) {
root2.child.return = root2;
root2 = root2.child;
continue;
}
if (root2 === finishedWork) break a;
for (; null === root2.sibling; ) {
if (null === root2.return || root2.return === finishedWork) break a;
current === root2 && (current = null);
root2 = root2.return;
}
current === root2 && (current = null);
root2.sibling.return = root2.return;
root2 = root2.sibling;
}
flags & 4 && (flags = finishedWork.updateQueue, null !== flags && (current = flags.retryQueue, null !== current && (flags.retryQueue = null, attachSuspenseRetryListeners(finishedWork, current))));
break;
case 19:
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
flags & 4 && (flags = finishedWork.updateQueue, null !== flags && (finishedWork.updateQueue = null, attachSuspenseRetryListeners(finishedWork, flags)));
break;
case 30:
break;
case 21:
break;
default:
recursivelyTraverseMutationEffects(root2, finishedWork), commitReconciliationEffects(finishedWork);
}
}
function commitReconciliationEffects(finishedWork) {
var flags = finishedWork.flags;
if (flags & 2) {
try {
for (var hostParentFiber, parentFiber = finishedWork.return; null !== parentFiber; ) {
if (isHostParent(parentFiber)) {
hostParentFiber = parentFiber;
break;
}
parentFiber = parentFiber.return;
}
if (null == hostParentFiber) throw Error(formatProdErrorMessage(160));
switch (hostParentFiber.tag) {
case 27:
var parent = hostParentFiber.stateNode, before = getHostSibling(finishedWork);
insertOrAppendPlacementNode(finishedWork, before, parent);
break;
case 5:
var parent$144 = hostParentFiber.stateNode;
hostParentFiber.flags & 32 && (setTextContent(parent$144, ""), hostParentFiber.flags &= -33);
var before$145 = getHostSibling(finishedWork);
insertOrAppendPlacementNode(finishedWork, before$145, parent$144);
break;
case 3:
case 4:
var parent$146 = hostParentFiber.stateNode.containerInfo, before$147 = getHostSibling(finishedWork);
insertOrAppendPlacementNodeIntoContainer(
finishedWork,
before$147,
parent$146
);
break;
default:
throw Error(formatProdErrorMessage(161));
}
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
finishedWork.flags &= -3;
}
flags & 4096 && (finishedWork.flags &= -4097);
}
function recursivelyResetForms(parentFiber) {
if (parentFiber.subtreeFlags & 1024)
for (parentFiber = parentFiber.child; null !== parentFiber; ) {
var fiber = parentFiber;
recursivelyResetForms(fiber);
5 === fiber.tag && fiber.flags & 1024 && fiber.stateNode.reset();
parentFiber = parentFiber.sibling;
}
}
function recursivelyTraverseLayoutEffects(root2, parentFiber) {
if (parentFiber.subtreeFlags & 8772)
for (parentFiber = parentFiber.child; null !== parentFiber; )
commitLayoutEffectOnFiber(root2, parentFiber.alternate, parentFiber), parentFiber = parentFiber.sibling;
}
function recursivelyTraverseDisappearLayoutEffects(parentFiber) {
for (parentFiber = parentFiber.child; null !== parentFiber; ) {
var finishedWork = parentFiber;
switch (finishedWork.tag) {
case 0:
case 11:
case 14:
case 15:
commitHookEffectListUnmount(4, finishedWork, finishedWork.return);
recursivelyTraverseDisappearLayoutEffects(finishedWork);
break;
case 1:
safelyDetachRef(finishedWork, finishedWork.return);
var instance = finishedWork.stateNode;
"function" === typeof instance.componentWillUnmount && safelyCallComponentWillUnmount(
finishedWork,
finishedWork.return,
instance
);
recursivelyTraverseDisappearLayoutEffects(finishedWork);
break;
case 27:
releaseSingletonInstance(finishedWork.stateNode);
case 26:
case 5:
safelyDetachRef(finishedWork, finishedWork.return);
recursivelyTraverseDisappearLayoutEffects(finishedWork);
break;
case 22:
null === finishedWork.memoizedState && recursivelyTraverseDisappearLayoutEffects(finishedWork);
break;
case 30:
recursivelyTraverseDisappearLayoutEffects(finishedWork);
break;
default:
recursivelyTraverseDisappearLayoutEffects(finishedWork);
}
parentFiber = parentFiber.sibling;
}
}
function recursivelyTraverseReappearLayoutEffects(finishedRoot$jscomp$0, parentFiber, includeWorkInProgressEffects) {
includeWorkInProgressEffects = includeWorkInProgressEffects && 0 !== (parentFiber.subtreeFlags & 8772);
for (parentFiber = parentFiber.child; null !== parentFiber; ) {
var current = parentFiber.alternate, finishedRoot = finishedRoot$jscomp$0, finishedWork = parentFiber, flags = finishedWork.flags;
switch (finishedWork.tag) {
case 0:
case 11:
case 15:
recursivelyTraverseReappearLayoutEffects(
finishedRoot,
finishedWork,
includeWorkInProgressEffects
);
commitHookEffectListMount(4, finishedWork);
break;
case 1:
recursivelyTraverseReappearLayoutEffects(
finishedRoot,
finishedWork,
includeWorkInProgressEffects
);
current = finishedWork;
finishedRoot = current.stateNode;
if ("function" === typeof finishedRoot.componentDidMount)
try {
finishedRoot.componentDidMount();
} catch (error) {
captureCommitPhaseError(current, current.return, error);
}
current = finishedWork;
finishedRoot = current.updateQueue;
if (null !== finishedRoot) {
var instance = current.stateNode;
try {
var hiddenCallbacks = finishedRoot.shared.hiddenCallbacks;
if (null !== hiddenCallbacks)
for (finishedRoot.shared.hiddenCallbacks = null, finishedRoot = 0; finishedRoot < hiddenCallbacks.length; finishedRoot++)
callCallback(hiddenCallbacks[finishedRoot], instance);
} catch (error) {
captureCommitPhaseError(current, current.return, error);
}
}
includeWorkInProgressEffects && flags & 64 && commitClassCallbacks(finishedWork);
safelyAttachRef(finishedWork, finishedWork.return);
break;
case 27:
commitHostSingletonAcquisition(finishedWork);
case 26:
case 5:
recursivelyTraverseReappearLayoutEffects(
finishedRoot,
finishedWork,
includeWorkInProgressEffects
);
includeWorkInProgressEffects && null === current && flags & 4 && commitHostMount(finishedWork);
safelyAttachRef(finishedWork, finishedWork.return);
break;
case 12:
recursivelyTraverseReappearLayoutEffects(
finishedRoot,
finishedWork,
includeWorkInProgressEffects
);
break;
case 13:
recursivelyTraverseReappearLayoutEffects(
finishedRoot,
finishedWork,
includeWorkInProgressEffects
);
includeWorkInProgressEffects && flags & 4 && commitSuspenseHydrationCallbacks(finishedRoot, finishedWork);
break;
case 22:
null === finishedWork.memoizedState && recursivelyTraverseReappearLayoutEffects(
finishedRoot,
finishedWork,
includeWorkInProgressEffects
);
safelyAttachRef(finishedWork, finishedWork.return);
break;
case 30:
break;
default:
recursivelyTraverseReappearLayoutEffects(
finishedRoot,
finishedWork,
includeWorkInProgressEffects
);
}
parentFiber = parentFiber.sibling;
}
}
function commitOffscreenPassiveMountEffects(current, finishedWork) {
var previousCache = null;
null !== current && null !== current.memoizedState && null !== current.memoizedState.cachePool && (previousCache = current.memoizedState.cachePool.pool);
current = null;
null !== finishedWork.memoizedState && null !== finishedWork.memoizedState.cachePool && (current = finishedWork.memoizedState.cachePool.pool);
current !== previousCache && (null != current && current.refCount++, null != previousCache && releaseCache(previousCache));
}
function commitCachePassiveMountEffect(current, finishedWork) {
current = null;
null !== finishedWork.alternate && (current = finishedWork.alternate.memoizedState.cache);
finishedWork = finishedWork.memoizedState.cache;
finishedWork !== current && (finishedWork.refCount++, null != current && releaseCache(current));
}
function recursivelyTraversePassiveMountEffects(root2, parentFiber, committedLanes, committedTransitions) {
if (parentFiber.subtreeFlags & 10256)
for (parentFiber = parentFiber.child; null !== parentFiber; )
commitPassiveMountOnFiber(
root2,
parentFiber,
committedLanes,
committedTransitions
), parentFiber = parentFiber.sibling;
}
function commitPassiveMountOnFiber(finishedRoot, finishedWork, committedLanes, committedTransitions) {
var flags = finishedWork.flags;
switch (finishedWork.tag) {
case 0:
case 11:
case 15:
recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
);
flags & 2048 && commitHookEffectListMount(9, finishedWork);
break;
case 1:
recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
);
break;
case 3:
recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
);
flags & 2048 && (finishedRoot = null, null !== finishedWork.alternate && (finishedRoot = finishedWork.alternate.memoizedState.cache), finishedWork = finishedWork.memoizedState.cache, finishedWork !== finishedRoot && (finishedWork.refCount++, null != finishedRoot && releaseCache(finishedRoot)));
break;
case 12:
if (flags & 2048) {
recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
);
finishedRoot = finishedWork.stateNode;
try {
var _finishedWork$memoize2 = finishedWork.memoizedProps, id = _finishedWork$memoize2.id, onPostCommit = _finishedWork$memoize2.onPostCommit;
"function" === typeof onPostCommit && onPostCommit(
id,
null === finishedWork.alternate ? "mount" : "update",
finishedRoot.passiveEffectDuration,
-0
);
} catch (error) {
captureCommitPhaseError(finishedWork, finishedWork.return, error);
}
} else
recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
);
break;
case 13:
recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
);
break;
case 23:
break;
case 22:
_finishedWork$memoize2 = finishedWork.stateNode;
id = finishedWork.alternate;
null !== finishedWork.memoizedState ? _finishedWork$memoize2._visibility & 2 ? recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
) : recursivelyTraverseAtomicPassiveEffects(finishedRoot, finishedWork) : _finishedWork$memoize2._visibility & 2 ? recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
) : (_finishedWork$memoize2._visibility |= 2, recursivelyTraverseReconnectPassiveEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions,
0 !== (finishedWork.subtreeFlags & 10256)
));
flags & 2048 && commitOffscreenPassiveMountEffects(id, finishedWork);
break;
case 24:
recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
);
flags & 2048 && commitCachePassiveMountEffect(finishedWork.alternate, finishedWork);
break;
default:
recursivelyTraversePassiveMountEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions
);
}
}
function recursivelyTraverseReconnectPassiveEffects(finishedRoot$jscomp$0, parentFiber, committedLanes$jscomp$0, committedTransitions$jscomp$0, includeWorkInProgressEffects) {
includeWorkInProgressEffects = includeWorkInProgressEffects && 0 !== (parentFiber.subtreeFlags & 10256);
for (parentFiber = parentFiber.child; null !== parentFiber; ) {
var finishedRoot = finishedRoot$jscomp$0, finishedWork = parentFiber, committedLanes = committedLanes$jscomp$0, committedTransitions = committedTransitions$jscomp$0, flags = finishedWork.flags;
switch (finishedWork.tag) {
case 0:
case 11:
case 15:
recursivelyTraverseReconnectPassiveEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions,
includeWorkInProgressEffects
);
commitHookEffectListMount(8, finishedWork);
break;
case 23:
break;
case 22:
var instance = finishedWork.stateNode;
null !== finishedWork.memoizedState ? instance._visibility & 2 ? recursivelyTraverseReconnectPassiveEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions,
includeWorkInProgressEffects
) : recursivelyTraverseAtomicPassiveEffects(
finishedRoot,
finishedWork
) : (instance._visibility |= 2, recursivelyTraverseReconnectPassiveEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions,
includeWorkInProgressEffects
));
includeWorkInProgressEffects && flags & 2048 && commitOffscreenPassiveMountEffects(
finishedWork.alternate,
finishedWork
);
break;
case 24:
recursivelyTraverseReconnectPassiveEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions,
includeWorkInProgressEffects
);
includeWorkInProgressEffects && flags & 2048 && commitCachePassiveMountEffect(finishedWork.alternate, finishedWork);
break;
default:
recursivelyTraverseReconnectPassiveEffects(
finishedRoot,
finishedWork,
committedLanes,
committedTransitions,
includeWorkInProgressEffects
);
}
parentFiber = parentFiber.sibling;
}
}
function recursivelyTraverseAtomicPassiveEffects(finishedRoot$jscomp$0, parentFiber) {
if (parentFiber.subtreeFlags & 10256)
for (parentFiber = parentFiber.child; null !== parentFiber; ) {
var finishedRoot = finishedRoot$jscomp$0, finishedWork = parentFiber, flags = finishedWork.flags;
switch (finishedWork.tag) {
case 22:
recursivelyTraverseAtomicPassiveEffects(finishedRoot, finishedWork);
flags & 2048 && commitOffscreenPassiveMountEffects(
finishedWork.alternate,
finishedWork
);
break;
case 24:
recursivelyTraverseAtomicPassiveEffects(finishedRoot, finishedWork);
flags & 2048 && commitCachePassiveMountEffect(finishedWork.alternate, finishedWork);
break;
default:
recursivelyTraverseAtomicPassiveEffects(finishedRoot, finishedWork);
}
parentFiber = parentFiber.sibling;
}
}
var suspenseyCommitFlag = 8192;
function recursivelyAccumulateSuspenseyCommit(parentFiber) {
if (parentFiber.subtreeFlags & suspenseyCommitFlag)
for (parentFiber = parentFiber.child; null !== parentFiber; )
accumulateSuspenseyCommitOnFiber(parentFiber), parentFiber = parentFiber.sibling;
}
function accumulateSuspenseyCommitOnFiber(fiber) {
switch (fiber.tag) {
case 26:
recursivelyAccumulateSuspenseyCommit(fiber);
fiber.flags & suspenseyCommitFlag && null !== fiber.memoizedState && suspendResource(
currentHoistableRoot,
fiber.memoizedState,
fiber.memoizedProps
);
break;
case 5:
recursivelyAccumulateSuspenseyCommit(fiber);
break;
case 3:
case 4:
var previousHoistableRoot = currentHoistableRoot;
currentHoistableRoot = getHoistableRoot(fiber.stateNode.containerInfo);
recursivelyAccumulateSuspenseyCommit(fiber);
currentHoistableRoot = previousHoistableRoot;
break;
case 22:
null === fiber.memoizedState && (previousHoistableRoot = fiber.alternate, null !== previousHoistableRoot && null !== previousHoistableRoot.memoizedState ? (previousHoistableRoot = suspenseyCommitFlag, suspenseyCommitFlag = 16777216, recursivelyAccumulateSuspenseyCommit(fiber), suspenseyCommitFlag = previousHoistableRoot) : recursivelyAccumulateSuspenseyCommit(fiber));
break;
default:
recursivelyAccumulateSuspenseyCommit(fiber);
}
}
function detachAlternateSiblings(parentFiber) {
var previousFiber = parentFiber.alternate;
if (null !== previousFiber && (parentFiber = previousFiber.child, null !== parentFiber)) {
previousFiber.child = null;
do
previousFiber = parentFiber.sibling, parentFiber.sibling = null, parentFiber = previousFiber;
while (null !== parentFiber);
}
}
function recursivelyTraversePassiveUnmountEffects(parentFiber) {
var deletions = parentFiber.deletions;
if (0 !== (parentFiber.flags & 16)) {
if (null !== deletions)
for (var i = 0; i < deletions.length; i++) {
var childToDelete = deletions[i];
nextEffect = childToDelete;
commitPassiveUnmountEffectsInsideOfDeletedTree_begin(
childToDelete,
parentFiber
);
}
detachAlternateSiblings(parentFiber);
}
if (parentFiber.subtreeFlags & 10256)
for (parentFiber = parentFiber.child; null !== parentFiber; )
commitPassiveUnmountOnFiber(parentFiber), parentFiber = parentFiber.sibling;
}
function commitPassiveUnmountOnFiber(finishedWork) {
switch (finishedWork.tag) {
case 0:
case 11:
case 15:
recursivelyTraversePassiveUnmountEffects(finishedWork);
finishedWork.flags & 2048 && commitHookEffectListUnmount(9, finishedWork, finishedWork.return);
break;
case 3:
recursivelyTraversePassiveUnmountEffects(finishedWork);
break;
case 12:
recursivelyTraversePassiveUnmountEffects(finishedWork);
break;
case 22:
var instance = finishedWork.stateNode;
null !== finishedWork.memoizedState && instance._visibility & 2 && (null === finishedWork.return || 13 !== finishedWork.return.tag) ? (instance._visibility &= -3, recursivelyTraverseDisconnectPassiveEffects(finishedWork)) : recursivelyTraversePassiveUnmountEffects(finishedWork);
break;
default:
recursivelyTraversePassiveUnmountEffects(finishedWork);
}
}
function recursivelyTraverseDisconnectPassiveEffects(parentFiber) {
var deletions = parentFiber.deletions;
if (0 !== (parentFiber.flags & 16)) {
if (null !== deletions)
for (var i = 0; i < deletions.length; i++) {
var childToDelete = deletions[i];
nextEffect = childToDelete;
commitPassiveUnmountEffectsInsideOfDeletedTree_begin(
childToDelete,
parentFiber
);
}
detachAlternateSiblings(parentFiber);
}
for (parentFiber = parentFiber.child; null !== parentFiber; ) {
deletions = parentFiber;
switch (deletions.tag) {
case 0:
case 11:
case 15:
commitHookEffectListUnmount(8, deletions, deletions.return);
recursivelyTraverseDisconnectPassiveEffects(deletions);
break;
case 22:
i = deletions.stateNode;
i._visibility & 2 && (i._visibility &= -3, recursivelyTraverseDisconnectPassiveEffects(deletions));
break;
default:
recursivelyTraverseDisconnectPassiveEffects(deletions);
}
parentFiber = parentFiber.sibling;
}
}
function commitPassiveUnmountEffectsInsideOfDeletedTree_begin(deletedSubtreeRoot, nearestMountedAncestor) {
for (; null !== nextEffect; ) {
var fiber = nextEffect;
switch (fiber.tag) {
case 0:
case 11:
case 15:
commitHookEffectListUnmount(8, fiber, nearestMountedAncestor);
break;
case 23:
case 22:
if (null !== fiber.memoizedState && null !== fiber.memoizedState.cachePool) {
var cache = fiber.memoizedState.cachePool.pool;
null != cache && cache.refCount++;
}
break;
case 24:
releaseCache(fiber.memoizedState.cache);
}
cache = fiber.child;
if (null !== cache) cache.return = fiber, nextEffect = cache;
else
a: for (fiber = deletedSubtreeRoot; null !== nextEffect; ) {
cache = nextEffect;
var sibling = cache.sibling, returnFiber = cache.return;
detachFiberAfterEffects(cache);
if (cache === fiber) {
nextEffect = null;
break a;
}
if (null !== sibling) {
sibling.return = returnFiber;
nextEffect = sibling;
break a;
}
nextEffect = returnFiber;
}
}
}
var DefaultAsyncDispatcher = {
getCacheForType: function(resourceType) {
var cache = readContext(CacheContext), cacheForType = cache.data.get(resourceType);
void 0 === cacheForType && (cacheForType = resourceType(), cache.data.set(resourceType, cacheForType));
return cacheForType;
}
}, PossiblyWeakMap = "function" === typeof WeakMap ? WeakMap : Map, executionContext = 0, workInProgressRoot = null, workInProgress = null, workInProgressRootRenderLanes = 0, workInProgressSuspendedReason = 0, workInProgressThrownValue = null, workInProgressRootDidSkipSuspendedSiblings = false, workInProgressRootIsPrerendering = false, workInProgressRootDidAttachPingListener = false, entangledRenderLanes = 0, workInProgressRootExitStatus = 0, workInProgressRootSkippedLanes = 0, workInProgressRootInterleavedUpdatedLanes = 0, workInProgressRootPingedLanes = 0, workInProgressDeferredLane = 0, workInProgressSuspendedRetryLanes = 0, workInProgressRootConcurrentErrors = null, workInProgressRootRecoverableErrors = null, workInProgressRootDidIncludeRecursiveRenderUpdate = false, globalMostRecentFallbackTime = 0, workInProgressRootRenderTargetTime = Infinity, workInProgressTransitions = null, legacyErrorBoundariesThatAlreadyFailed = null, pendingEffectsStatus = 0, pendingEffectsRoot = null, pendingFinishedWork = null, pendingEffectsLanes = 0, pendingEffectsRemainingLanes = 0, pendingPassiveTransitions = null, pendingRecoverableErrors = null, nestedUpdateCount = 0, rootWithNestedUpdates = null;
function requestUpdateLane() {
if (0 !== (executionContext & 2) && 0 !== workInProgressRootRenderLanes)
return workInProgressRootRenderLanes & -workInProgressRootRenderLanes;
if (null !== ReactSharedInternals.T) {
var actionScopeLane = currentEntangledLane;
return 0 !== actionScopeLane ? actionScopeLane : requestTransitionLane();
}
return resolveUpdatePriority();
}
function requestDeferredLane() {
0 === workInProgressDeferredLane && (workInProgressDeferredLane = 0 === (workInProgressRootRenderLanes & 536870912) || isHydrating ? claimNextTransitionLane() : 536870912);
var suspenseHandler = suspenseHandlerStackCursor.current;
null !== suspenseHandler && (suspenseHandler.flags |= 32);
return workInProgressDeferredLane;
}
function scheduleUpdateOnFiber(root2, fiber, lane) {
if (root2 === workInProgressRoot && (2 === workInProgressSuspendedReason || 9 === workInProgressSuspendedReason) || null !== root2.cancelPendingCommit)
prepareFreshStack(root2, 0), markRootSuspended(
root2,
workInProgressRootRenderLanes,
workInProgressDeferredLane,
false
);
markRootUpdated$1(root2, lane);
if (0 === (executionContext & 2) || root2 !== workInProgressRoot)
root2 === workInProgressRoot && (0 === (executionContext & 2) && (workInProgressRootInterleavedUpdatedLanes |= lane), 4 === workInProgressRootExitStatus && markRootSuspended(
root2,
workInProgressRootRenderLanes,
workInProgressDeferredLane,
false
)), ensureRootIsScheduled(root2);
}
function performWorkOnRoot(root$jscomp$0, lanes, forceSync) {
if (0 !== (executionContext & 6)) throw Error(formatProdErrorMessage(327));
var shouldTimeSlice = !forceSync && 0 === (lanes & 124) && 0 === (lanes & root$jscomp$0.expiredLanes) || checkIfRootIsPrerendering(root$jscomp$0, lanes), exitStatus = shouldTimeSlice ? renderRootConcurrent(root$jscomp$0, lanes) : renderRootSync(root$jscomp$0, lanes, true), renderWasConcurrent = shouldTimeSlice;
do {
if (0 === exitStatus) {
workInProgressRootIsPrerendering && !shouldTimeSlice && markRootSuspended(root$jscomp$0, lanes, 0, false);
break;
} else {
forceSync = root$jscomp$0.current.alternate;
if (renderWasConcurrent && !isRenderConsistentWithExternalStores(forceSync)) {
exitStatus = renderRootSync(root$jscomp$0, lanes, false);
renderWasConcurrent = false;
continue;
}
if (2 === exitStatus) {
renderWasConcurrent = lanes;
if (root$jscomp$0.errorRecoveryDisabledLanes & renderWasConcurrent)
var JSCompiler_inline_result = 0;
else
JSCompiler_inline_result = root$jscomp$0.pendingLanes & -536870913, JSCompiler_inline_result = 0 !== JSCompiler_inline_result ? JSCompiler_inline_result : JSCompiler_inline_result & 536870912 ? 536870912 : 0;
if (0 !== JSCompiler_inline_result) {
lanes = JSCompiler_inline_result;
a: {
var root2 = root$jscomp$0;
exitStatus = workInProgressRootConcurrentErrors;
var wasRootDehydrated = root2.current.memoizedState.isDehydrated;
wasRootDehydrated && (prepareFreshStack(root2, JSCompiler_inline_result).flags |= 256);
JSCompiler_inline_result = renderRootSync(
root2,
JSCompiler_inline_result,
false
);
if (2 !== JSCompiler_inline_result) {
if (workInProgressRootDidAttachPingListener && !wasRootDehydrated) {
root2.errorRecoveryDisabledLanes |= renderWasConcurrent;
workInProgressRootInterleavedUpdatedLanes |= renderWasConcurrent;
exitStatus = 4;
break a;
}
renderWasConcurrent = workInProgressRootRecoverableErrors;
workInProgressRootRecoverableErrors = exitStatus;
null !== renderWasConcurrent && (null === workInProgressRootRecoverableErrors ? workInProgressRootRecoverableErrors = renderWasConcurrent : workInProgressRootRecoverableErrors.push.apply(
workInProgressRootRecoverableErrors,
renderWasConcurrent
));
}
exitStatus = JSCompiler_inline_result;
}
renderWasConcurrent = false;
if (2 !== exitStatus) continue;
}
}
if (1 === exitStatus) {
prepareFreshStack(root$jscomp$0, 0);
markRootSuspended(root$jscomp$0, lanes, 0, true);
break;
}
a: {
shouldTimeSlice = root$jscomp$0;
renderWasConcurrent = exitStatus;
switch (renderWasConcurrent) {
case 0:
case 1:
throw Error(formatProdErrorMessage(345));
case 4:
if ((lanes & 4194048) !== lanes) break;
case 6:
markRootSuspended(
shouldTimeSlice,
lanes,
workInProgressDeferredLane,
!workInProgressRootDidSkipSuspendedSiblings
);
break a;
case 2:
workInProgressRootRecoverableErrors = null;
break;
case 3:
case 5:
break;
default:
throw Error(formatProdErrorMessage(329));
}
if ((lanes & 62914560) === lanes && (exitStatus = globalMostRecentFallbackTime + 300 - now(), 10 < exitStatus)) {
markRootSuspended(
shouldTimeSlice,
lanes,
workInProgressDeferredLane,
!workInProgressRootDidSkipSuspendedSiblings
);
if (0 !== getNextLanes(shouldTimeSlice, 0, true)) break a;
shouldTimeSlice.timeoutHandle = scheduleTimeout(
commitRootWhenReady.bind(
null,
shouldTimeSlice,
forceSync,
workInProgressRootRecoverableErrors,
workInProgressTransitions,
workInProgressRootDidIncludeRecursiveRenderUpdate,
lanes,
workInProgressDeferredLane,
workInProgressRootInterleavedUpdatedLanes,
workInProgressSuspendedRetryLanes,
workInProgressRootDidSkipSuspendedSiblings,
renderWasConcurrent,
2,
-0,
0
),
exitStatus
);
break a;
}
commitRootWhenReady(
shouldTimeSlice,
forceSync,
workInProgressRootRecoverableErrors,
workInProgressTransitions,
workInProgressRootDidIncludeRecursiveRenderUpdate,
lanes,
workInProgressDeferredLane,
workInProgressRootInterleavedUpdatedLanes,
workInProgressSuspendedRetryLanes,
workInProgressRootDidSkipSuspendedSiblings,
renderWasConcurrent,
0,
-0,
0
);
}
}
break;
} while (1);
ensureRootIsScheduled(root$jscomp$0);
}
function commitRootWhenReady(root2, finishedWork, recoverableErrors, transitions, didIncludeRenderPhaseUpdate, lanes, spawnedLane, updatedLanes, suspendedRetryLanes, didSkipSuspendedSiblings, exitStatus, suspendedCommitReason, completedRenderStartTime, completedRenderEndTime) {
root2.timeoutHandle = -1;
suspendedCommitReason = finishedWork.subtreeFlags;
if (suspendedCommitReason & 8192 || 16785408 === (suspendedCommitReason & 16785408)) {
if (suspendedState = { stylesheets: null, count: 0, unsuspend: noop }, accumulateSuspenseyCommitOnFiber(finishedWork), suspendedCommitReason = waitForCommitToBeReady(), null !== suspendedCommitReason) {
root2.cancelPendingCommit = suspendedCommitReason(
commitRoot.bind(
null,
root2,
finishedWork,
lanes,
recoverableErrors,
transitions,
didIncludeRenderPhaseUpdate,
spawnedLane,
updatedLanes,
suspendedRetryLanes,
exitStatus,
1,
completedRenderStartTime,
completedRenderEndTime
)
);
markRootSuspended(root2, lanes, spawnedLane, !didSkipSuspendedSiblings);
return;
}
}
commitRoot(
root2,
finishedWork,
lanes,
recoverableErrors,
transitions,
didIncludeRenderPhaseUpdate,
spawnedLane,
updatedLanes,
suspendedRetryLanes
);
}
function isRenderConsistentWithExternalStores(finishedWork) {
for (var node = finishedWork; ; ) {
var tag = node.tag;
if ((0 === tag || 11 === tag || 15 === tag) && node.flags & 16384 && (tag = node.updateQueue, null !== tag && (tag = tag.stores, null !== tag)))
for (var i = 0; i < tag.length; i++) {
var check = tag[i], getSnapshot = check.getSnapshot;
check = check.value;
try {
if (!objectIs(getSnapshot(), check)) return false;
} catch (error) {
return false;
}
}
tag = node.child;
if (node.subtreeFlags & 16384 && null !== tag)
tag.return = node, node = tag;
else {
if (node === finishedWork) break;
for (; null === node.sibling; ) {
if (null === node.return || node.return === finishedWork) return true;
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
}
return true;
}
function markRootSuspended(root2, suspendedLanes, spawnedLane, didAttemptEntireTree) {
suspendedLanes &= ~workInProgressRootPingedLanes;
suspendedLanes &= ~workInProgressRootInterleavedUpdatedLanes;
root2.suspendedLanes |= suspendedLanes;
root2.pingedLanes &= ~suspendedLanes;
didAttemptEntireTree && (root2.warmLanes |= suspendedLanes);
didAttemptEntireTree = root2.expirationTimes;
for (var lanes = suspendedLanes; 0 < lanes; ) {
var index$4 = 31 - clz32(lanes), lane = 1 << index$4;
didAttemptEntireTree[index$4] = -1;
lanes &= ~lane;
}
0 !== spawnedLane && markSpawnedDeferredLane(root2, spawnedLane, suspendedLanes);
}
function flushSyncWork$1() {
return 0 === (executionContext & 6) ? (flushSyncWorkAcrossRoots_impl(0), false) : true;
}
function resetWorkInProgressStack() {
if (null !== workInProgress) {
if (0 === workInProgressSuspendedReason)
var interruptedWork = workInProgress.return;
else
interruptedWork = workInProgress, lastContextDependency = currentlyRenderingFiber$1 = null, resetHooksOnUnwind(interruptedWork), thenableState = null, thenableIndexCounter = 0, interruptedWork = workInProgress;
for (; null !== interruptedWork; )
unwindInterruptedWork(interruptedWork.alternate, interruptedWork), interruptedWork = interruptedWork.return;
workInProgress = null;
}
}
function prepareFreshStack(root2, lanes) {
var timeoutHandle = root2.timeoutHandle;
-1 !== timeoutHandle && (root2.timeoutHandle = -1, cancelTimeout(timeoutHandle));
timeoutHandle = root2.cancelPendingCommit;
null !== timeoutHandle && (root2.cancelPendingCommit = null, timeoutHandle());
resetWorkInProgressStack();
workInProgressRoot = root2;
workInProgress = timeoutHandle = createWorkInProgress(root2.current, null);
workInProgressRootRenderLanes = lanes;
workInProgressSuspendedReason = 0;
workInProgressThrownValue = null;
workInProgressRootDidSkipSuspendedSiblings = false;
workInProgressRootIsPrerendering = checkIfRootIsPrerendering(root2, lanes);
workInProgressRootDidAttachPingListener = false;
workInProgressSuspendedRetryLanes = workInProgressDeferredLane = workInProgressRootPingedLanes = workInProgressRootInterleavedUpdatedLanes = workInProgressRootSkippedLanes = workInProgressRootExitStatus = 0;
workInProgressRootRecoverableErrors = workInProgressRootConcurrentErrors = null;
workInProgressRootDidIncludeRecursiveRenderUpdate = false;
0 !== (lanes & 8) && (lanes |= lanes & 32);
var allEntangledLanes = root2.entangledLanes;
if (0 !== allEntangledLanes)
for (root2 = root2.entanglements, allEntangledLanes &= lanes; 0 < allEntangledLanes; ) {
var index$2 = 31 - clz32(allEntangledLanes), lane = 1 << index$2;
lanes |= root2[index$2];
allEntangledLanes &= ~lane;
}
entangledRenderLanes = lanes;
finishQueueingConcurrentUpdates();
return timeoutHandle;
}
function handleThrow(root2, thrownValue) {
currentlyRenderingFiber = null;
ReactSharedInternals.H = ContextOnlyDispatcher;
thrownValue === SuspenseException || thrownValue === SuspenseActionException ? (thrownValue = getSuspendedThenable(), workInProgressSuspendedReason = 3) : thrownValue === SuspenseyCommitException ? (thrownValue = getSuspendedThenable(), workInProgressSuspendedReason = 4) : workInProgressSuspendedReason = thrownValue === SelectiveHydrationException ? 8 : null !== thrownValue && "object" === typeof thrownValue && "function" === typeof thrownValue.then ? 6 : 1;
workInProgressThrownValue = thrownValue;
null === workInProgress && (workInProgressRootExitStatus = 1, logUncaughtError(
root2,
createCapturedValueAtFiber(thrownValue, root2.current)
));
}
function pushDispatcher() {
var prevDispatcher = ReactSharedInternals.H;
ReactSharedInternals.H = ContextOnlyDispatcher;
return null === prevDispatcher ? ContextOnlyDispatcher : prevDispatcher;
}
function pushAsyncDispatcher() {
var prevAsyncDispatcher = ReactSharedInternals.A;
ReactSharedInternals.A = DefaultAsyncDispatcher;
return prevAsyncDispatcher;
}
function renderDidSuspendDelayIfPossible() {
workInProgressRootExitStatus = 4;
workInProgressRootDidSkipSuspendedSiblings || (workInProgressRootRenderLanes & 4194048) !== workInProgressRootRenderLanes && null !== suspenseHandlerStackCursor.current || (workInProgressRootIsPrerendering = true);
0 === (workInProgressRootSkippedLanes & 134217727) && 0 === (workInProgressRootInterleavedUpdatedLanes & 134217727) || null === workInProgressRoot || markRootSuspended(
workInProgressRoot,
workInProgressRootRenderLanes,
workInProgressDeferredLane,
false
);
}
function renderRootSync(root2, lanes, shouldYieldForPrerendering) {
var prevExecutionContext = executionContext;
executionContext |= 2;
var prevDispatcher = pushDispatcher(), prevAsyncDispatcher = pushAsyncDispatcher();
if (workInProgressRoot !== root2 || workInProgressRootRenderLanes !== lanes)
workInProgressTransitions = null, prepareFreshStack(root2, lanes);
lanes = false;
var exitStatus = workInProgressRootExitStatus;
a: do
try {
if (0 !== workInProgressSuspendedReason && null !== workInProgress) {
var unitOfWork = workInProgress, thrownValue = workInProgressThrownValue;
switch (workInProgressSuspendedReason) {
case 8:
resetWorkInProgressStack();
exitStatus = 6;
break a;
case 3:
case 2:
case 9:
case 6:
null === suspenseHandlerStackCursor.current && (lanes = true);
var reason = workInProgressSuspendedReason;
workInProgressSuspendedReason = 0;
workInProgressThrownValue = null;
throwAndUnwindWorkLoop(root2, unitOfWork, thrownValue, reason);
if (shouldYieldForPrerendering && workInProgressRootIsPrerendering) {
exitStatus = 0;
break a;
}
break;
default:
reason = workInProgressSuspendedReason, workInProgressSuspendedReason = 0, workInProgressThrownValue = null, throwAndUnwindWorkLoop(root2, unitOfWork, thrownValue, reason);
}
}
workLoopSync();
exitStatus = workInProgressRootExitStatus;
break;
} catch (thrownValue$167) {
handleThrow(root2, thrownValue$167);
}
while (1);
lanes && root2.shellSuspendCounter++;
lastContextDependency = currentlyRenderingFiber$1 = null;
executionContext = prevExecutionContext;
ReactSharedInternals.H = prevDispatcher;
ReactSharedInternals.A = prevAsyncDispatcher;
null === workInProgress && (workInProgressRoot = null, workInProgressRootRenderLanes = 0, finishQueueingConcurrentUpdates());
return exitStatus;
}
function workLoopSync() {
for (; null !== workInProgress; ) performUnitOfWork(workInProgress);
}
function renderRootConcurrent(root2, lanes) {
var prevExecutionContext = executionContext;
executionContext |= 2;
var prevDispatcher = pushDispatcher(), prevAsyncDispatcher = pushAsyncDispatcher();
workInProgressRoot !== root2 || workInProgressRootRenderLanes !== lanes ? (workInProgressTransitions = null, workInProgressRootRenderTargetTime = now() + 500, prepareFreshStack(root2, lanes)) : workInProgressRootIsPrerendering = checkIfRootIsPrerendering(
root2,
lanes
);
a: do
try {
if (0 !== workInProgressSuspendedReason && null !== workInProgress) {
lanes = workInProgress;
var thrownValue = workInProgressThrownValue;
b: switch (workInProgressSuspendedReason) {
case 1:
workInProgressSuspendedReason = 0;
workInProgressThrownValue = null;
throwAndUnwindWorkLoop(root2, lanes, thrownValue, 1);
break;
case 2:
case 9:
if (isThenableResolved(thrownValue)) {
workInProgressSuspendedReason = 0;
workInProgressThrownValue = null;
replaySuspendedUnitOfWork(lanes);
break;
}
lanes = function() {
2 !== workInProgressSuspendedReason && 9 !== workInProgressSuspendedReason || workInProgressRoot !== root2 || (workInProgressSuspendedReason = 7);
ensureRootIsScheduled(root2);
};
thrownValue.then(lanes, lanes);
break a;
case 3:
workInProgressSuspendedReason = 7;
break a;
case 4:
workInProgressSuspendedReason = 5;
break a;
case 7:
isThenableResolved(thrownValue) ? (workInProgressSuspendedReason = 0, workInProgressThrownValue = null, replaySuspendedUnitOfWork(lanes)) : (workInProgressSuspendedReason = 0, workInProgressThrownValue = null, throwAndUnwindWorkLoop(root2, lanes, thrownValue, 7));
break;
case 5:
var resource = null;
switch (workInProgress.tag) {
case 26:
resource = workInProgress.memoizedState;
case 5:
case 27:
var hostFiber = workInProgress;
if (resource ? preloadResource(resource) : 1) {
workInProgressSuspendedReason = 0;
workInProgressThrownValue = null;
var sibling = hostFiber.sibling;
if (null !== sibling) workInProgress = sibling;
else {
var returnFiber = hostFiber.return;
null !== returnFiber ? (workInProgress = returnFiber, completeUnitOfWork(returnFiber)) : workInProgress = null;
}
break b;
}
}
workInProgressSuspendedReason = 0;
workInProgressThrownValue = null;
throwAndUnwindWorkLoop(root2, lanes, thrownValue, 5);
break;
case 6:
workInProgressSuspendedReason = 0;
workInProgressThrownValue = null;
throwAndUnwindWorkLoop(root2, lanes, thrownValue, 6);
break;
case 8:
resetWorkInProgressStack();
workInProgressRootExitStatus = 6;
break a;
default:
throw Error(formatProdErrorMessage(462));
}
}
workLoopConcurrentByScheduler();
break;
} catch (thrownValue$169) {
handleThrow(root2, thrownValue$169);
}
while (1);
lastContextDependency = currentlyRenderingFiber$1 = null;
ReactSharedInternals.H = prevDispatcher;
ReactSharedInternals.A = prevAsyncDispatcher;
executionContext = prevExecutionContext;
if (null !== workInProgress) return 0;
workInProgressRoot = null;
workInProgressRootRenderLanes = 0;
finishQueueingConcurrentUpdates();
return workInProgressRootExitStatus;
}
function workLoopConcurrentByScheduler() {
for (; null !== workInProgress && !shouldYield(); )
performUnitOfWork(workInProgress);
}
function performUnitOfWork(unitOfWork) {
var next = beginWork(unitOfWork.alternate, unitOfWork, entangledRenderLanes);
unitOfWork.memoizedProps = unitOfWork.pendingProps;
null === next ? completeUnitOfWork(unitOfWork) : workInProgress = next;
}
function replaySuspendedUnitOfWork(unitOfWork) {
var next = unitOfWork;
var current = next.alternate;
switch (next.tag) {
case 15:
case 0:
next = replayFunctionComponent(
current,
next,
next.pendingProps,
next.type,
void 0,
workInProgressRootRenderLanes
);
break;
case 11:
next = replayFunctionComponent(
current,
next,
next.pendingProps,
next.type.render,
next.ref,
workInProgressRootRenderLanes
);
break;
case 5:
resetHooksOnUnwind(next);
default:
unwindInterruptedWork(current, next), next = workInProgress = resetWorkInProgress(next, entangledRenderLanes), next = beginWork(current, next, entangledRenderLanes);
}
unitOfWork.memoizedProps = unitOfWork.pendingProps;
null === next ? completeUnitOfWork(unitOfWork) : workInProgress = next;
}
function throwAndUnwindWorkLoop(root2, unitOfWork, thrownValue, suspendedReason) {
lastContextDependency = currentlyRenderingFiber$1 = null;
resetHooksOnUnwind(unitOfWork);
thenableState = null;
thenableIndexCounter = 0;
var returnFiber = unitOfWork.return;
try {
if (throwException(
root2,
returnFiber,
unitOfWork,
thrownValue,
workInProgressRootRenderLanes
)) {
workInProgressRootExitStatus = 1;
logUncaughtError(
root2,
createCapturedValueAtFiber(thrownValue, root2.current)
);
workInProgress = null;
return;
}
} catch (error) {
if (null !== returnFiber) throw workInProgress = returnFiber, error;
workInProgressRootExitStatus = 1;
logUncaughtError(
root2,
createCapturedValueAtFiber(thrownValue, root2.current)
);
workInProgress = null;
return;
}
if (unitOfWork.flags & 32768) {
if (isHydrating || 1 === suspendedReason) root2 = true;
else if (workInProgressRootIsPrerendering || 0 !== (workInProgressRootRenderLanes & 536870912))
root2 = false;
else if (workInProgressRootDidSkipSuspendedSiblings = root2 = true, 2 === suspendedReason || 9 === suspendedReason || 3 === suspendedReason || 6 === suspendedReason)
suspendedReason = suspenseHandlerStackCursor.current, null !== suspendedReason && 13 === suspendedReason.tag && (suspendedReason.flags |= 16384);
unwindUnitOfWork(unitOfWork, root2);
} else completeUnitOfWork(unitOfWork);
}
function completeUnitOfWork(unitOfWork) {
var completedWork = unitOfWork;
do {
if (0 !== (completedWork.flags & 32768)) {
unwindUnitOfWork(
completedWork,
workInProgressRootDidSkipSuspendedSiblings
);
return;
}
unitOfWork = completedWork.return;
var next = completeWork(
completedWork.alternate,
completedWork,
entangledRenderLanes
);
if (null !== next) {
workInProgress = next;
return;
}
completedWork = completedWork.sibling;
if (null !== completedWork) {
workInProgress = completedWork;
return;
}
workInProgress = completedWork = unitOfWork;
} while (null !== completedWork);
0 === workInProgressRootExitStatus && (workInProgressRootExitStatus = 5);
}
function unwindUnitOfWork(unitOfWork, skipSiblings) {
do {
var next = unwindWork(unitOfWork.alternate, unitOfWork);
if (null !== next) {
next.flags &= 32767;
workInProgress = next;
return;
}
next = unitOfWork.return;
null !== next && (next.flags |= 32768, next.subtreeFlags = 0, next.deletions = null);
if (!skipSiblings && (unitOfWork = unitOfWork.sibling, null !== unitOfWork)) {
workInProgress = unitOfWork;
return;
}
workInProgress = unitOfWork = next;
} while (null !== unitOfWork);
workInProgressRootExitStatus = 6;
workInProgress = null;
}
function commitRoot(root2, finishedWork, lanes, recoverableErrors, transitions, didIncludeRenderPhaseUpdate, spawnedLane, updatedLanes, suspendedRetryLanes) {
root2.cancelPendingCommit = null;
do
flushPendingEffects();
while (0 !== pendingEffectsStatus);
if (0 !== (executionContext & 6)) throw Error(formatProdErrorMessage(327));
if (null !== finishedWork) {
if (finishedWork === root2.current) throw Error(formatProdErrorMessage(177));
didIncludeRenderPhaseUpdate = finishedWork.lanes | finishedWork.childLanes;
didIncludeRenderPhaseUpdate |= concurrentlyUpdatedLanes;
markRootFinished(
root2,
lanes,
didIncludeRenderPhaseUpdate,
spawnedLane,
updatedLanes,
suspendedRetryLanes
);
root2 === workInProgressRoot && (workInProgress = workInProgressRoot = null, workInProgressRootRenderLanes = 0);
pendingFinishedWork = finishedWork;
pendingEffectsRoot = root2;
pendingEffectsLanes = lanes;
pendingEffectsRemainingLanes = didIncludeRenderPhaseUpdate;
pendingPassiveTransitions = transitions;
pendingRecoverableErrors = recoverableErrors;
0 !== (finishedWork.subtreeFlags & 10256) || 0 !== (finishedWork.flags & 10256) ? (root2.callbackNode = null, root2.callbackPriority = 0, scheduleCallback$1(NormalPriority$1, function() {
flushPassiveEffects();
return null;
})) : (root2.callbackNode = null, root2.callbackPriority = 0);
recoverableErrors = 0 !== (finishedWork.flags & 13878);
if (0 !== (finishedWork.subtreeFlags & 13878) || recoverableErrors) {
recoverableErrors = ReactSharedInternals.T;
ReactSharedInternals.T = null;
transitions = ReactDOMSharedInternals.p;
ReactDOMSharedInternals.p = 2;
spawnedLane = executionContext;
executionContext |= 4;
try {
commitBeforeMutationEffects(root2, finishedWork, lanes);
} finally {
executionContext = spawnedLane, ReactDOMSharedInternals.p = transitions, ReactSharedInternals.T = recoverableErrors;
}
}
pendingEffectsStatus = 1;
flushMutationEffects();
flushLayoutEffects();
flushSpawnedWork();
}
}
function flushMutationEffects() {
if (1 === pendingEffectsStatus) {
pendingEffectsStatus = 0;
var root2 = pendingEffectsRoot, finishedWork = pendingFinishedWork, rootMutationHasEffect = 0 !== (finishedWork.flags & 13878);
if (0 !== (finishedWork.subtreeFlags & 13878) || rootMutationHasEffect) {
rootMutationHasEffect = ReactSharedInternals.T;
ReactSharedInternals.T = null;
var previousPriority = ReactDOMSharedInternals.p;
ReactDOMSharedInternals.p = 2;
var prevExecutionContext = executionContext;
executionContext |= 4;
try {
commitMutationEffectsOnFiber(finishedWork, root2);
var priorSelectionInformation = selectionInformation, curFocusedElem = getActiveElementDeep(root2.containerInfo), priorFocusedElem = priorSelectionInformation.focusedElem, priorSelectionRange = priorSelectionInformation.selectionRange;
if (curFocusedElem !== priorFocusedElem && priorFocusedElem && priorFocusedElem.ownerDocument && containsNode(
priorFocusedElem.ownerDocument.documentElement,
priorFocusedElem
)) {
if (null !== priorSelectionRange && hasSelectionCapabilities(priorFocusedElem)) {
var start = priorSelectionRange.start, end = priorSelectionRange.end;
void 0 === end && (end = start);
if ("selectionStart" in priorFocusedElem)
priorFocusedElem.selectionStart = start, priorFocusedElem.selectionEnd = Math.min(
end,
priorFocusedElem.value.length
);
else {
var doc = priorFocusedElem.ownerDocument || document, win = doc && doc.defaultView || window;
if (win.getSelection) {
var selection = win.getSelection(), length = priorFocusedElem.textContent.length, start$jscomp$0 = Math.min(priorSelectionRange.start, length), end$jscomp$0 = void 0 === priorSelectionRange.end ? start$jscomp$0 : Math.min(priorSelectionRange.end, length);
!selection.extend && start$jscomp$0 > end$jscomp$0 && (curFocusedElem = end$jscomp$0, end$jscomp$0 = start$jscomp$0, start$jscomp$0 = curFocusedElem);
var startMarker = getNodeForCharacterOffset(
priorFocusedElem,
start$jscomp$0
), endMarker = getNodeForCharacterOffset(
priorFocusedElem,
end$jscomp$0
);
if (startMarker && endMarker && (1 !== selection.rangeCount || selection.anchorNode !== startMarker.node || selection.anchorOffset !== startMarker.offset || selection.focusNode !== endMarker.node || selection.focusOffset !== endMarker.offset)) {
var range = doc.createRange();
range.setStart(startMarker.node, startMarker.offset);
selection.removeAllRanges();
start$jscomp$0 > end$jscomp$0 ? (selection.addRange(range), selection.extend(endMarker.node, endMarker.offset)) : (range.setEnd(endMarker.node, endMarker.offset), selection.addRange(range));
}
}
}
}
doc = [];
for (selection = priorFocusedElem; selection = selection.parentNode; )
1 === selection.nodeType && doc.push({
element: selection,
left: selection.scrollLeft,
top: selection.scrollTop
});
"function" === typeof priorFocusedElem.focus && priorFocusedElem.focus();
for (priorFocusedElem = 0; priorFocusedElem < doc.length; priorFocusedElem++) {
var info = doc[priorFocusedElem];
info.element.scrollLeft = info.left;
info.element.scrollTop = info.top;
}
}
_enabled = !!eventsEnabled;
selectionInformation = eventsEnabled = null;
} finally {
executionContext = prevExecutionContext, ReactDOMSharedInternals.p = previousPriority, ReactSharedInternals.T = rootMutationHasEffect;
}
}
root2.current = finishedWork;
pendingEffectsStatus = 2;
}
}
function flushLayoutEffects() {
if (2 === pendingEffectsStatus) {
pendingEffectsStatus = 0;
var root2 = pendingEffectsRoot, finishedWork = pendingFinishedWork, rootHasLayoutEffect = 0 !== (finishedWork.flags & 8772);
if (0 !== (finishedWork.subtreeFlags & 8772) || rootHasLayoutEffect) {
rootHasLayoutEffect = ReactSharedInternals.T;
ReactSharedInternals.T = null;
var previousPriority = ReactDOMSharedInternals.p;
ReactDOMSharedInternals.p = 2;
var prevExecutionContext = executionContext;
executionContext |= 4;
try {
commitLayoutEffectOnFiber(root2, finishedWork.alternate, finishedWork);
} finally {
executionContext = prevExecutionContext, ReactDOMSharedInternals.p = previousPriority, ReactSharedInternals.T = rootHasLayoutEffect;
}
}
pendingEffectsStatus = 3;
}
}
function flushSpawnedWork() {
if (4 === pendingEffectsStatus || 3 === pendingEffectsStatus) {
pendingEffectsStatus = 0;
requestPaint();
var root2 = pendingEffectsRoot, finishedWork = pendingFinishedWork, lanes = pendingEffectsLanes, recoverableErrors = pendingRecoverableErrors;
0 !== (finishedWork.subtreeFlags & 10256) || 0 !== (finishedWork.flags & 10256) ? pendingEffectsStatus = 5 : (pendingEffectsStatus = 0, pendingFinishedWork = pendingEffectsRoot = null, releaseRootPooledCache(root2, root2.pendingLanes));
var remainingLanes = root2.pendingLanes;
0 === remainingLanes && (legacyErrorBoundariesThatAlreadyFailed = null);
lanesToEventPriority(lanes);
finishedWork = finishedWork.stateNode;
if (injectedHook && "function" === typeof injectedHook.onCommitFiberRoot)
try {
injectedHook.onCommitFiberRoot(
rendererID,
finishedWork,
void 0,
128 === (finishedWork.current.flags & 128)
);
} catch (err) {
}
if (null !== recoverableErrors) {
finishedWork = ReactSharedInternals.T;
remainingLanes = ReactDOMSharedInternals.p;
ReactDOMSharedInternals.p = 2;
ReactSharedInternals.T = null;
try {
for (var onRecoverableError = root2.onRecoverableError, i = 0; i < recoverableErrors.length; i++) {
var recoverableError = recoverableErrors[i];
onRecoverableError(recoverableError.value, {
componentStack: recoverableError.stack
});
}
} finally {
ReactSharedInternals.T = finishedWork, ReactDOMSharedInternals.p = remainingLanes;
}
}
0 !== (pendingEffectsLanes & 3) && flushPendingEffects();
ensureRootIsScheduled(root2);
remainingLanes = root2.pendingLanes;
0 !== (lanes & 4194090) && 0 !== (remainingLanes & 42) ? root2 === rootWithNestedUpdates ? nestedUpdateCount++ : (nestedUpdateCount = 0, rootWithNestedUpdates = root2) : nestedUpdateCount = 0;
flushSyncWorkAcrossRoots_impl(0);
}
}
function releaseRootPooledCache(root2, remainingLanes) {
0 === (root2.pooledCacheLanes &= remainingLanes) && (remainingLanes = root2.pooledCache, null != remainingLanes && (root2.pooledCache = null, releaseCache(remainingLanes)));
}
function flushPendingEffects(wasDelayedCommit) {
flushMutationEffects();
flushLayoutEffects();
flushSpawnedWork();
return flushPassiveEffects();
}
function flushPassiveEffects() {
if (5 !== pendingEffectsStatus) return false;
var root2 = pendingEffectsRoot, remainingLanes = pendingEffectsRemainingLanes;
pendingEffectsRemainingLanes = 0;
var renderPriority = lanesToEventPriority(pendingEffectsLanes), prevTransition = ReactSharedInternals.T, previousPriority = ReactDOMSharedInternals.p;
try {
ReactDOMSharedInternals.p = 32 > renderPriority ? 32 : renderPriority;
ReactSharedInternals.T = null;
renderPriority = pendingPassiveTransitions;
pendingPassiveTransitions = null;
var root$jscomp$0 = pendingEffectsRoot, lanes = pendingEffectsLanes;
pendingEffectsStatus = 0;
pendingFinishedWork = pendingEffectsRoot = null;
pendingEffectsLanes = 0;
if (0 !== (executionContext & 6)) throw Error(formatProdErrorMessage(331));
var prevExecutionContext = executionContext;
executionContext |= 4;
commitPassiveUnmountOnFiber(root$jscomp$0.current);
commitPassiveMountOnFiber(
root$jscomp$0,
root$jscomp$0.current,
lanes,
renderPriority
);
executionContext = prevExecutionContext;
flushSyncWorkAcrossRoots_impl(0, false);
if (injectedHook && "function" === typeof injectedHook.onPostCommitFiberRoot)
try {
injectedHook.onPostCommitFiberRoot(rendererID, root$jscomp$0);
} catch (err) {
}
return true;
} finally {
ReactDOMSharedInternals.p = previousPriority, ReactSharedInternals.T = prevTransition, releaseRootPooledCache(root2, remainingLanes);
}
}
function captureCommitPhaseErrorOnRoot(rootFiber, sourceFiber, error) {
sourceFiber = createCapturedValueAtFiber(error, sourceFiber);
sourceFiber = createRootErrorUpdate(rootFiber.stateNode, sourceFiber, 2);
rootFiber = enqueueUpdate(rootFiber, sourceFiber, 2);
null !== rootFiber && (markRootUpdated$1(rootFiber, 2), ensureRootIsScheduled(rootFiber));
}
function captureCommitPhaseError(sourceFiber, nearestMountedAncestor, error) {
if (3 === sourceFiber.tag)
captureCommitPhaseErrorOnRoot(sourceFiber, sourceFiber, error);
else
for (; null !== nearestMountedAncestor; ) {
if (3 === nearestMountedAncestor.tag) {
captureCommitPhaseErrorOnRoot(
nearestMountedAncestor,
sourceFiber,
error
);
break;
} else if (1 === nearestMountedAncestor.tag) {
var instance = nearestMountedAncestor.stateNode;
if ("function" === typeof nearestMountedAncestor.type.getDerivedStateFromError || "function" === typeof instance.componentDidCatch && (null === legacyErrorBoundariesThatAlreadyFailed || !legacyErrorBoundariesThatAlreadyFailed.has(instance))) {
sourceFiber = createCapturedValueAtFiber(error, sourceFiber);
error = createClassErrorUpdate(2);
instance = enqueueUpdate(nearestMountedAncestor, error, 2);
null !== instance && (initializeClassErrorUpdate(
error,
instance,
nearestMountedAncestor,
sourceFiber
), markRootUpdated$1(instance, 2), ensureRootIsScheduled(instance));
break;
}
}
nearestMountedAncestor = nearestMountedAncestor.return;
}
}
function attachPingListener(root2, wakeable, lanes) {
var pingCache = root2.pingCache;
if (null === pingCache) {
pingCache = root2.pingCache = new PossiblyWeakMap();
var threadIDs = /* @__PURE__ */ new Set();
pingCache.set(wakeable, threadIDs);
} else
threadIDs = pingCache.get(wakeable), void 0 === threadIDs && (threadIDs = /* @__PURE__ */ new Set(), pingCache.set(wakeable, threadIDs));
threadIDs.has(lanes) || (workInProgressRootDidAttachPingListener = true, threadIDs.add(lanes), root2 = pingSuspendedRoot.bind(null, root2, wakeable, lanes), wakeable.then(root2, root2));
}
function pingSuspendedRoot(root2, wakeable, pingedLanes) {
var pingCache = root2.pingCache;
null !== pingCache && pingCache.delete(wakeable);
root2.pingedLanes |= root2.suspendedLanes & pingedLanes;
root2.warmLanes &= ~pingedLanes;
workInProgressRoot === root2 && (workInProgressRootRenderLanes & pingedLanes) === pingedLanes && (4 === workInProgressRootExitStatus || 3 === workInProgressRootExitStatus && (workInProgressRootRenderLanes & 62914560) === workInProgressRootRenderLanes && 300 > now() - globalMostRecentFallbackTime ? 0 === (executionContext & 2) && prepareFreshStack(root2, 0) : workInProgressRootPingedLanes |= pingedLanes, workInProgressSuspendedRetryLanes === workInProgressRootRenderLanes && (workInProgressSuspendedRetryLanes = 0));
ensureRootIsScheduled(root2);
}
function retryTimedOutBoundary(boundaryFiber, retryLane) {
0 === retryLane && (retryLane = claimNextRetryLane());
boundaryFiber = enqueueConcurrentRenderForLane(boundaryFiber, retryLane);
null !== boundaryFiber && (markRootUpdated$1(boundaryFiber, retryLane), ensureRootIsScheduled(boundaryFiber));
}
function retryDehydratedSuspenseBoundary(boundaryFiber) {
var suspenseState = boundaryFiber.memoizedState, retryLane = 0;
null !== suspenseState && (retryLane = suspenseState.retryLane);
retryTimedOutBoundary(boundaryFiber, retryLane);
}
function resolveRetryWakeable(boundaryFiber, wakeable) {
var retryLane = 0;
switch (boundaryFiber.tag) {
case 13:
var retryCache = boundaryFiber.stateNode;
var suspenseState = boundaryFiber.memoizedState;
null !== suspenseState && (retryLane = suspenseState.retryLane);
break;
case 19:
retryCache = boundaryFiber.stateNode;
break;
case 22:
retryCache = boundaryFiber.stateNode._retryCache;
break;
default:
throw Error(formatProdErrorMessage(314));
}
null !== retryCache && retryCache.delete(wakeable);
retryTimedOutBoundary(boundaryFiber, retryLane);
}
function scheduleCallback$1(priorityLevel, callback) {
return scheduleCallback$3(priorityLevel, callback);
}
var firstScheduledRoot = null, lastScheduledRoot = null, didScheduleMicrotask = false, mightHavePendingSyncWork = false, isFlushingWork = false, currentEventTransitionLane = 0;
function ensureRootIsScheduled(root2) {
root2 !== lastScheduledRoot && null === root2.next && (null === lastScheduledRoot ? firstScheduledRoot = lastScheduledRoot = root2 : lastScheduledRoot = lastScheduledRoot.next = root2);
mightHavePendingSyncWork = true;
didScheduleMicrotask || (didScheduleMicrotask = true, scheduleImmediateRootScheduleTask());
}
function flushSyncWorkAcrossRoots_impl(syncTransitionLanes, onlyLegacy) {
if (!isFlushingWork && mightHavePendingSyncWork) {
isFlushingWork = true;
do {
var didPerformSomeWork = false;
for (var root$174 = firstScheduledRoot; null !== root$174; ) {
if (0 !== syncTransitionLanes) {
var pendingLanes = root$174.pendingLanes;
if (0 === pendingLanes) var JSCompiler_inline_result = 0;
else {
var suspendedLanes = root$174.suspendedLanes, pingedLanes = root$174.pingedLanes;
JSCompiler_inline_result = (1 << 31 - clz32(42 | syncTransitionLanes) + 1) - 1;
JSCompiler_inline_result &= pendingLanes & ~(suspendedLanes & ~pingedLanes);
JSCompiler_inline_result = JSCompiler_inline_result & 201326741 ? JSCompiler_inline_result & 201326741 | 1 : JSCompiler_inline_result ? JSCompiler_inline_result | 2 : 0;
}
0 !== JSCompiler_inline_result && (didPerformSomeWork = true, performSyncWorkOnRoot(root$174, JSCompiler_inline_result));
} else
JSCompiler_inline_result = workInProgressRootRenderLanes, JSCompiler_inline_result = getNextLanes(
root$174,
root$174 === workInProgressRoot ? JSCompiler_inline_result : 0,
null !== root$174.cancelPendingCommit || -1 !== root$174.timeoutHandle
), 0 === (JSCompiler_inline_result & 3) || checkIfRootIsPrerendering(root$174, JSCompiler_inline_result) || (didPerformSomeWork = true, performSyncWorkOnRoot(root$174, JSCompiler_inline_result));
root$174 = root$174.next;
}
} while (didPerformSomeWork);
isFlushingWork = false;
}
}
function processRootScheduleInImmediateTask() {
processRootScheduleInMicrotask();
}
function processRootScheduleInMicrotask() {
mightHavePendingSyncWork = didScheduleMicrotask = false;
var syncTransitionLanes = 0;
0 !== currentEventTransitionLane && (shouldAttemptEagerTransition() && (syncTransitionLanes = currentEventTransitionLane), currentEventTransitionLane = 0);
for (var currentTime = now(), prev = null, root2 = firstScheduledRoot; null !== root2; ) {
var next = root2.next, nextLanes = scheduleTaskForRootDuringMicrotask(root2, currentTime);
if (0 === nextLanes)
root2.next = null, null === prev ? firstScheduledRoot = next : prev.next = next, null === next && (lastScheduledRoot = prev);
else if (prev = root2, 0 !== syncTransitionLanes || 0 !== (nextLanes & 3))
mightHavePendingSyncWork = true;
root2 = next;
}
flushSyncWorkAcrossRoots_impl(syncTransitionLanes);
}
function scheduleTaskForRootDuringMicrotask(root2, currentTime) {
for (var suspendedLanes = root2.suspendedLanes, pingedLanes = root2.pingedLanes, expirationTimes = root2.expirationTimes, lanes = root2.pendingLanes & -62914561; 0 < lanes; ) {
var index$3 = 31 - clz32(lanes), lane = 1 << index$3, expirationTime = expirationTimes[index$3];
if (-1 === expirationTime) {
if (0 === (lane & suspendedLanes) || 0 !== (lane & pingedLanes))
expirationTimes[index$3] = computeExpirationTime(lane, currentTime);
} else expirationTime <= currentTime && (root2.expiredLanes |= lane);
lanes &= ~lane;
}
currentTime = workInProgressRoot;
suspendedLanes = workInProgressRootRenderLanes;
suspendedLanes = getNextLanes(
root2,
root2 === currentTime ? suspendedLanes : 0,
null !== root2.cancelPendingCommit || -1 !== root2.timeoutHandle
);
pingedLanes = root2.callbackNode;
if (0 === suspendedLanes || root2 === currentTime && (2 === workInProgressSuspendedReason || 9 === workInProgressSuspendedReason) || null !== root2.cancelPendingCommit)
return null !== pingedLanes && null !== pingedLanes && cancelCallback$1(pingedLanes), root2.callbackNode = null, root2.callbackPriority = 0;
if (0 === (suspendedLanes & 3) || checkIfRootIsPrerendering(root2, suspendedLanes)) {
currentTime = suspendedLanes & -suspendedLanes;
if (currentTime === root2.callbackPriority) return currentTime;
null !== pingedLanes && cancelCallback$1(pingedLanes);
switch (lanesToEventPriority(suspendedLanes)) {
case 2:
case 8:
suspendedLanes = UserBlockingPriority;
break;
case 32:
suspendedLanes = NormalPriority$1;
break;
case 268435456:
suspendedLanes = IdlePriority;
break;
default:
suspendedLanes = NormalPriority$1;
}
pingedLanes = performWorkOnRootViaSchedulerTask.bind(null, root2);
suspendedLanes = scheduleCallback$3(suspendedLanes, pingedLanes);
root2.callbackPriority = currentTime;
root2.callbackNode = suspendedLanes;
return currentTime;
}
null !== pingedLanes && null !== pingedLanes && cancelCallback$1(pingedLanes);
root2.callbackPriority = 2;
root2.callbackNode = null;
return 2;
}
function performWorkOnRootViaSchedulerTask(root2, didTimeout) {
if (0 !== pendingEffectsStatus && 5 !== pendingEffectsStatus)
return root2.callbackNode = null, root2.callbackPriority = 0, null;
var originalCallbackNode = root2.callbackNode;
if (flushPendingEffects() && root2.callbackNode !== originalCallbackNode)
return null;
var workInProgressRootRenderLanes$jscomp$0 = workInProgressRootRenderLanes;
workInProgressRootRenderLanes$jscomp$0 = getNextLanes(
root2,
root2 === workInProgressRoot ? workInProgressRootRenderLanes$jscomp$0 : 0,
null !== root2.cancelPendingCommit || -1 !== root2.timeoutHandle
);
if (0 === workInProgressRootRenderLanes$jscomp$0) return null;
performWorkOnRoot(root2, workInProgressRootRenderLanes$jscomp$0, didTimeout);
scheduleTaskForRootDuringMicrotask(root2, now());
return null != root2.callbackNode && root2.callbackNode === originalCallbackNode ? performWorkOnRootViaSchedulerTask.bind(null, root2) : null;
}
function performSyncWorkOnRoot(root2, lanes) {
if (flushPendingEffects()) return null;
performWorkOnRoot(root2, lanes, true);
}
function scheduleImmediateRootScheduleTask() {
scheduleMicrotask(function() {
0 !== (executionContext & 6) ? scheduleCallback$3(
ImmediatePriority,
processRootScheduleInImmediateTask
) : processRootScheduleInMicrotask();
});
}
function requestTransitionLane() {
0 === currentEventTransitionLane && (currentEventTransitionLane = claimNextTransitionLane());
return currentEventTransitionLane;
}
function coerceFormActionProp(actionProp) {
return null == actionProp || "symbol" === typeof actionProp || "boolean" === typeof actionProp ? null : "function" === typeof actionProp ? actionProp : sanitizeURL("" + actionProp);
}
function createFormDataWithSubmitter(form, submitter) {
var temp = submitter.ownerDocument.createElement("input");
temp.name = submitter.name;
temp.value = submitter.value;
form.id && temp.setAttribute("form", form.id);
submitter.parentNode.insertBefore(temp, submitter);
form = new FormData(form);
temp.parentNode.removeChild(temp);
return form;
}
function extractEvents$1(dispatchQueue, domEventName, maybeTargetInst, nativeEvent, nativeEventTarget) {
if ("submit" === domEventName && maybeTargetInst && maybeTargetInst.stateNode === nativeEventTarget) {
var action = coerceFormActionProp(
(nativeEventTarget[internalPropsKey] || null).action
), submitter = nativeEvent.submitter;
submitter && (domEventName = (domEventName = submitter[internalPropsKey] || null) ? coerceFormActionProp(domEventName.formAction) : submitter.getAttribute("formAction"), null !== domEventName && (action = domEventName, submitter = null));
var event = new SyntheticEvent(
"action",
"action",
null,
nativeEvent,
nativeEventTarget
);
dispatchQueue.push({
event,
listeners: [
{
instance: null,
listener: function() {
if (nativeEvent.defaultPrevented) {
if (0 !== currentEventTransitionLane) {
var formData = submitter ? createFormDataWithSubmitter(nativeEventTarget, submitter) : new FormData(nativeEventTarget);
startHostTransition(
maybeTargetInst,
{
pending: true,
data: formData,
method: nativeEventTarget.method,
action
},
null,
formData
);
}
} else
"function" === typeof action && (event.preventDefault(), formData = submitter ? createFormDataWithSubmitter(nativeEventTarget, submitter) : new FormData(nativeEventTarget), startHostTransition(
maybeTargetInst,
{
pending: true,
data: formData,
method: nativeEventTarget.method,
action
},
action,
formData
));
},
currentTarget: nativeEventTarget
}
]
});
}
}
for (var i$jscomp$inline_1528 = 0; i$jscomp$inline_1528 < simpleEventPluginEvents.length; i$jscomp$inline_1528++) {
var eventName$jscomp$inline_1529 = simpleEventPluginEvents[i$jscomp$inline_1528], domEventName$jscomp$inline_1530 = eventName$jscomp$inline_1529.toLowerCase(), capitalizedEvent$jscomp$inline_1531 = eventName$jscomp$inline_1529[0].toUpperCase() + eventName$jscomp$inline_1529.slice(1);
registerSimpleEvent(
domEventName$jscomp$inline_1530,
"on" + capitalizedEvent$jscomp$inline_1531
);
}
registerSimpleEvent(ANIMATION_END, "onAnimationEnd");
registerSimpleEvent(ANIMATION_ITERATION, "onAnimationIteration");
registerSimpleEvent(ANIMATION_START, "onAnimationStart");
registerSimpleEvent("dblclick", "onDoubleClick");
registerSimpleEvent("focusin", "onFocus");
registerSimpleEvent("focusout", "onBlur");
registerSimpleEvent(TRANSITION_RUN, "onTransitionRun");
registerSimpleEvent(TRANSITION_START, "onTransitionStart");
registerSimpleEvent(TRANSITION_CANCEL, "onTransitionCancel");
registerSimpleEvent(TRANSITION_END, "onTransitionEnd");
registerDirectEvent("onMouseEnter", ["mouseout", "mouseover"]);
registerDirectEvent("onMouseLeave", ["mouseout", "mouseover"]);
registerDirectEvent("onPointerEnter", ["pointerout", "pointerover"]);
registerDirectEvent("onPointerLeave", ["pointerout", "pointerover"]);
registerTwoPhaseEvent(
"onChange",
"change click focusin focusout input keydown keyup selectionchange".split(" ")
);
registerTwoPhaseEvent(
"onSelect",
"focusout contextmenu dragend focusin keydown keyup mousedown mouseup selectionchange".split(
" "
)
);
registerTwoPhaseEvent("onBeforeInput", [
"compositionend",
"keypress",
"textInput",
"paste"
]);
registerTwoPhaseEvent(
"onCompositionEnd",
"compositionend focusout keydown keypress keyup mousedown".split(" ")
);
registerTwoPhaseEvent(
"onCompositionStart",
"compositionstart focusout keydown keypress keyup mousedown".split(" ")
);
registerTwoPhaseEvent(
"onCompositionUpdate",
"compositionupdate focusout keydown keypress keyup mousedown".split(" ")
);
var mediaEventTypes = "abort canplay canplaythrough durationchange emptied encrypted ended error loadeddata loadedmetadata loadstart pause play playing progress ratechange resize seeked seeking stalled suspend timeupdate volumechange waiting".split(
" "
), nonDelegatedEvents = new Set(
"beforetoggle cancel close invalid load scroll scrollend toggle".split(" ").concat(mediaEventTypes)
);
function processDispatchQueue(dispatchQueue, eventSystemFlags) {
eventSystemFlags = 0 !== (eventSystemFlags & 4);
for (var i = 0; i < dispatchQueue.length; i++) {
var _dispatchQueue$i = dispatchQueue[i], event = _dispatchQueue$i.event;
_dispatchQueue$i = _dispatchQueue$i.listeners;
a: {
var previousInstance = void 0;
if (eventSystemFlags)
for (var i$jscomp$0 = _dispatchQueue$i.length - 1; 0 <= i$jscomp$0; i$jscomp$0--) {
var _dispatchListeners$i = _dispatchQueue$i[i$jscomp$0], instance = _dispatchListeners$i.instance, currentTarget = _dispatchListeners$i.currentTarget;
_dispatchListeners$i = _dispatchListeners$i.listener;
if (instance !== previousInstance && event.isPropagationStopped())
break a;
previousInstance = _dispatchListeners$i;
event.currentTarget = currentTarget;
try {
previousInstance(event);
} catch (error) {
reportGlobalError(error);
}
event.currentTarget = null;
previousInstance = instance;
}
else
for (i$jscomp$0 = 0; i$jscomp$0 < _dispatchQueue$i.length; i$jscomp$0++) {
_dispatchListeners$i = _dispatchQueue$i[i$jscomp$0];
instance = _dispatchListeners$i.instance;
currentTarget = _dispatchListeners$i.currentTarget;
_dispatchListeners$i = _dispatchListeners$i.listener;
if (instance !== previousInstance && event.isPropagationStopped())
break a;
previousInstance = _dispatchListeners$i;
event.currentTarget = currentTarget;
try {
previousInstance(event);
} catch (error) {
reportGlobalError(error);
}
event.currentTarget = null;
previousInstance = instance;
}
}
}
}
function listenToNonDelegatedEvent(domEventName, targetElement) {
var JSCompiler_inline_result = targetElement[internalEventHandlersKey];
void 0 === JSCompiler_inline_result && (JSCompiler_inline_result = targetElement[internalEventHandlersKey] = /* @__PURE__ */ new Set());
var listenerSetKey = domEventName + "__bubble";
JSCompiler_inline_result.has(listenerSetKey) || (addTrappedEventListener(targetElement, domEventName, 2, false), JSCompiler_inline_result.add(listenerSetKey));
}
function listenToNativeEvent(domEventName, isCapturePhaseListener, target) {
var eventSystemFlags = 0;
isCapturePhaseListener && (eventSystemFlags |= 4);
addTrappedEventListener(
target,
domEventName,
eventSystemFlags,
isCapturePhaseListener
);
}
var listeningMarker = "_reactListening" + Math.random().toString(36).slice(2);
function listenToAllSupportedEvents(rootContainerElement) {
if (!rootContainerElement[listeningMarker]) {
rootContainerElement[listeningMarker] = true;
allNativeEvents.forEach(function(domEventName) {
"selectionchange" !== domEventName && (nonDelegatedEvents.has(domEventName) || listenToNativeEvent(domEventName, false, rootContainerElement), listenToNativeEvent(domEventName, true, rootContainerElement));
});
var ownerDocument = 9 === rootContainerElement.nodeType ? rootContainerElement : rootContainerElement.ownerDocument;
null === ownerDocument || ownerDocument[listeningMarker] || (ownerDocument[listeningMarker] = true, listenToNativeEvent("selectionchange", false, ownerDocument));
}
}
function addTrappedEventListener(targetContainer, domEventName, eventSystemFlags, isCapturePhaseListener) {
switch (getEventPriority(domEventName)) {
case 2:
var listenerWrapper = dispatchDiscreteEvent;
break;
case 8:
listenerWrapper = dispatchContinuousEvent;
break;
default:
listenerWrapper = dispatchEvent;
}
eventSystemFlags = listenerWrapper.bind(
null,
domEventName,
eventSystemFlags,
targetContainer
);
listenerWrapper = void 0;
!passiveBrowserEventsSupported || "touchstart" !== domEventName && "touchmove" !== domEventName && "wheel" !== domEventName || (listenerWrapper = true);
isCapturePhaseListener ? void 0 !== listenerWrapper ? targetContainer.addEventListener(domEventName, eventSystemFlags, {
capture: true,
passive: listenerWrapper
}) : targetContainer.addEventListener(domEventName, eventSystemFlags, true) : void 0 !== listenerWrapper ? targetContainer.addEventListener(domEventName, eventSystemFlags, {
passive: listenerWrapper
}) : targetContainer.addEventListener(domEventName, eventSystemFlags, false);
}
function dispatchEventForPluginEventSystem(domEventName, eventSystemFlags, nativeEvent, targetInst$jscomp$0, targetContainer) {
var ancestorInst = targetInst$jscomp$0;
if (0 === (eventSystemFlags & 1) && 0 === (eventSystemFlags & 2) && null !== targetInst$jscomp$0)
a: for (; ; ) {
if (null === targetInst$jscomp$0) return;
var nodeTag = targetInst$jscomp$0.tag;
if (3 === nodeTag || 4 === nodeTag) {
var container = targetInst$jscomp$0.stateNode.containerInfo;
if (container === targetContainer) break;
if (4 === nodeTag)
for (nodeTag = targetInst$jscomp$0.return; null !== nodeTag; ) {
var grandTag = nodeTag.tag;
if ((3 === grandTag || 4 === grandTag) && nodeTag.stateNode.containerInfo === targetContainer)
return;
nodeTag = nodeTag.return;
}
for (; null !== container; ) {
nodeTag = getClosestInstanceFromNode(container);
if (null === nodeTag) return;
grandTag = nodeTag.tag;
if (5 === grandTag || 6 === grandTag || 26 === grandTag || 27 === grandTag) {
targetInst$jscomp$0 = ancestorInst = nodeTag;
continue a;
}
container = container.parentNode;
}
}
targetInst$jscomp$0 = targetInst$jscomp$0.return;
}
batchedUpdates$1(function() {
var targetInst = ancestorInst, nativeEventTarget = getEventTarget(nativeEvent), dispatchQueue = [];
a: {
var reactName = topLevelEventsToReactNames.get(domEventName);
if (void 0 !== reactName) {
var SyntheticEventCtor = SyntheticEvent, reactEventType = domEventName;
switch (domEventName) {
case "keypress":
if (0 === getEventCharCode(nativeEvent)) break a;
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 (2 === nativeEvent.button) break a;
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":
case "scrollend":
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;
case "toggle":
case "beforetoggle":
SyntheticEventCtor = SyntheticToggleEvent;
}
var inCapturePhase = 0 !== (eventSystemFlags & 4), accumulateTargetOnly = !inCapturePhase && ("scroll" === domEventName || "scrollend" === domEventName), reactEventName = inCapturePhase ? null !== reactName ? reactName + "Capture" : null : reactName;
inCapturePhase = [];
for (var instance = targetInst, lastHostComponent; null !== instance; ) {
var _instance = instance;
lastHostComponent = _instance.stateNode;
_instance = _instance.tag;
5 !== _instance && 26 !== _instance && 27 !== _instance || null === lastHostComponent || null === reactEventName || (_instance = getListener(instance, reactEventName), null != _instance && inCapturePhase.push(
createDispatchListener(instance, _instance, lastHostComponent)
));
if (accumulateTargetOnly) break;
instance = instance.return;
}
0 < inCapturePhase.length && (reactName = new SyntheticEventCtor(
reactName,
reactEventType,
null,
nativeEvent,
nativeEventTarget
), dispatchQueue.push({ event: reactName, listeners: inCapturePhase }));
}
}
if (0 === (eventSystemFlags & 7)) {
a: {
reactName = "mouseover" === domEventName || "pointerover" === domEventName;
SyntheticEventCtor = "mouseout" === domEventName || "pointerout" === domEventName;
if (reactName && nativeEvent !== currentReplayingEvent && (reactEventType = nativeEvent.relatedTarget || nativeEvent.fromElement) && (getClosestInstanceFromNode(reactEventType) || reactEventType[internalContainerInstanceKey]))
break a;
if (SyntheticEventCtor || reactName) {
reactName = nativeEventTarget.window === nativeEventTarget ? nativeEventTarget : (reactName = nativeEventTarget.ownerDocument) ? reactName.defaultView || reactName.parentWindow : window;
if (SyntheticEventCtor) {
if (reactEventType = nativeEvent.relatedTarget || nativeEvent.toElement, SyntheticEventCtor = targetInst, reactEventType = reactEventType ? getClosestInstanceFromNode(reactEventType) : null, null !== reactEventType && (accumulateTargetOnly = getNearestMountedFiber(reactEventType), inCapturePhase = reactEventType.tag, reactEventType !== accumulateTargetOnly || 5 !== inCapturePhase && 27 !== inCapturePhase && 6 !== inCapturePhase))
reactEventType = null;
} else SyntheticEventCtor = null, reactEventType = targetInst;
if (SyntheticEventCtor !== reactEventType) {
inCapturePhase = SyntheticMouseEvent;
_instance = "onMouseLeave";
reactEventName = "onMouseEnter";
instance = "mouse";
if ("pointerout" === domEventName || "pointerover" === domEventName)
inCapturePhase = SyntheticPointerEvent, _instance = "onPointerLeave", reactEventName = "onPointerEnter", instance = "pointer";
accumulateTargetOnly = null == SyntheticEventCtor ? reactName : getNodeFromInstance(SyntheticEventCtor);
lastHostComponent = null == reactEventType ? reactName : getNodeFromInstance(reactEventType);
reactName = new inCapturePhase(
_instance,
instance + "leave",
SyntheticEventCtor,
nativeEvent,
nativeEventTarget
);
reactName.target = accumulateTargetOnly;
reactName.relatedTarget = lastHostComponent;
_instance = null;
getClosestInstanceFromNode(nativeEventTarget) === targetInst && (inCapturePhase = new inCapturePhase(
reactEventName,
instance + "enter",
reactEventType,
nativeEvent,
nativeEventTarget
), inCapturePhase.target = lastHostComponent, inCapturePhase.relatedTarget = accumulateTargetOnly, _instance = inCapturePhase);
accumulateTargetOnly = _instance;
if (SyntheticEventCtor && reactEventType)
b: {
inCapturePhase = SyntheticEventCtor;
reactEventName = reactEventType;
instance = 0;
for (lastHostComponent = inCapturePhase; lastHostComponent; lastHostComponent = getParent(lastHostComponent))
instance++;
lastHostComponent = 0;
for (_instance = reactEventName; _instance; _instance = getParent(_instance))
lastHostComponent++;
for (; 0 < instance - lastHostComponent; )
inCapturePhase = getParent(inCapturePhase), instance--;
for (; 0 < lastHostComponent - instance; )
reactEventName = getParent(reactEventName), lastHostComponent--;
for (; instance--; ) {
if (inCapturePhase === reactEventName || null !== reactEventName && inCapturePhase === reactEventName.alternate)
break b;
inCapturePhase = getParent(inCapturePhase);
reactEventName = getParent(reactEventName);
}
inCapturePhase = null;
}
else inCapturePhase = null;
null !== SyntheticEventCtor && accumulateEnterLeaveListenersForEvent(
dispatchQueue,
reactName,
SyntheticEventCtor,
inCapturePhase,
false
);
null !== reactEventType && null !== accumulateTargetOnly && accumulateEnterLeaveListenersForEvent(
dispatchQueue,
accumulateTargetOnly,
reactEventType,
inCapturePhase,
true
);
}
}
}
a: {
reactName = targetInst ? getNodeFromInstance(targetInst) : window;
SyntheticEventCtor = reactName.nodeName && reactName.nodeName.toLowerCase();
if ("select" === SyntheticEventCtor || "input" === SyntheticEventCtor && "file" === reactName.type)
var getTargetInstFunc = getTargetInstForChangeEvent;
else if (isTextInputElement(reactName))
if (isInputEventSupported)
getTargetInstFunc = getTargetInstForInputOrChangeEvent;
else {
getTargetInstFunc = getTargetInstForInputEventPolyfill;
var handleEventFunc = handleEventsForInputEventPolyfill;
}
else
SyntheticEventCtor = reactName.nodeName, !SyntheticEventCtor || "input" !== SyntheticEventCtor.toLowerCase() || "checkbox" !== reactName.type && "radio" !== reactName.type ? targetInst && isCustomElement(targetInst.elementType) && (getTargetInstFunc = getTargetInstForChangeEvent) : getTargetInstFunc = getTargetInstForClickEvent;
if (getTargetInstFunc && (getTargetInstFunc = getTargetInstFunc(domEventName, targetInst))) {
createAndAccumulateChangeEvent(
dispatchQueue,
getTargetInstFunc,
nativeEvent,
nativeEventTarget
);
break a;
}
handleEventFunc && handleEventFunc(domEventName, reactName, targetInst);
"focusout" === domEventName && targetInst && "number" === reactName.type && null != targetInst.memoizedProps.value && setDefaultValue(reactName, "number", reactName.value);
}
handleEventFunc = targetInst ? getNodeFromInstance(targetInst) : window;
switch (domEventName) {
case "focusin":
if (isTextInputElement(handleEventFunc) || "true" === handleEventFunc.contentEditable)
activeElement = handleEventFunc, activeElementInst = targetInst, lastSelection = null;
break;
case "focusout":
lastSelection = activeElementInst = activeElement = 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);
}
var fallbackData;
if (canUseCompositionEvent)
b: {
switch (domEventName) {
case "compositionstart":
var eventType = "onCompositionStart";
break b;
case "compositionend":
eventType = "onCompositionEnd";
break b;
case "compositionupdate":
eventType = "onCompositionUpdate";
break b;
}
eventType = void 0;
}
else
isComposing ? isFallbackCompositionEnd(domEventName, nativeEvent) && (eventType = "onCompositionEnd") : "keydown" === domEventName && 229 === nativeEvent.keyCode && (eventType = "onCompositionStart");
eventType && (useFallbackCompositionData && "ko" !== nativeEvent.locale && (isComposing || "onCompositionStart" !== eventType ? "onCompositionEnd" === eventType && isComposing && (fallbackData = getData()) : (root = nativeEventTarget, startText = "value" in root ? root.value : root.textContent, isComposing = true)), handleEventFunc = accumulateTwoPhaseListeners(targetInst, eventType), 0 < handleEventFunc.length && (eventType = new SyntheticCompositionEvent(
eventType,
domEventName,
null,
nativeEvent,
nativeEventTarget
), dispatchQueue.push({ event: eventType, listeners: handleEventFunc }), fallbackData ? eventType.data = fallbackData : (fallbackData = getDataFromCustomEvent(nativeEvent), null !== fallbackData && (eventType.data = fallbackData))));
if (fallbackData = canUseTextInputEvent ? getNativeBeforeInputChars(domEventName, nativeEvent) : getFallbackBeforeInputChars(domEventName, nativeEvent))
eventType = accumulateTwoPhaseListeners(targetInst, "onBeforeInput"), 0 < eventType.length && (handleEventFunc = new SyntheticCompositionEvent(
"onBeforeInput",
"beforeinput",
null,
nativeEvent,
nativeEventTarget
), dispatchQueue.push({
event: handleEventFunc,
listeners: eventType
}), handleEventFunc.data = fallbackData);
extractEvents$1(
dispatchQueue,
domEventName,
targetInst,
nativeEvent,
nativeEventTarget
);
}
processDispatchQueue(dispatchQueue, eventSystemFlags);
});
}
function createDispatchListener(instance, listener, currentTarget) {
return {
instance,
listener,
currentTarget
};
}
function accumulateTwoPhaseListeners(targetFiber, reactName) {
for (var captureName = reactName + "Capture", listeners = []; null !== targetFiber; ) {
var _instance2 = targetFiber, stateNode = _instance2.stateNode;
_instance2 = _instance2.tag;
5 !== _instance2 && 26 !== _instance2 && 27 !== _instance2 || null === stateNode || (_instance2 = getListener(targetFiber, captureName), null != _instance2 && listeners.unshift(
createDispatchListener(targetFiber, _instance2, stateNode)
), _instance2 = getListener(targetFiber, reactName), null != _instance2 && listeners.push(
createDispatchListener(targetFiber, _instance2, stateNode)
));
if (3 === targetFiber.tag) return listeners;
targetFiber = targetFiber.return;
}
return [];
}
function getParent(inst) {
if (null === inst) return null;
do
inst = inst.return;
while (inst && 5 !== inst.tag && 27 !== inst.tag);
return inst ? inst : null;
}
function accumulateEnterLeaveListenersForEvent(dispatchQueue, event, target, common, inCapturePhase) {
for (var registrationName = event._reactName, listeners = []; null !== target && target !== common; ) {
var _instance3 = target, alternate = _instance3.alternate, stateNode = _instance3.stateNode;
_instance3 = _instance3.tag;
if (null !== alternate && alternate === common) break;
5 !== _instance3 && 26 !== _instance3 && 27 !== _instance3 || null === stateNode || (alternate = stateNode, inCapturePhase ? (stateNode = getListener(target, registrationName), null != stateNode && listeners.unshift(
createDispatchListener(target, stateNode, alternate)
)) : inCapturePhase || (stateNode = getListener(target, registrationName), null != stateNode && listeners.push(
createDispatchListener(target, stateNode, alternate)
)));
target = target.return;
}
0 !== listeners.length && dispatchQueue.push({ event, listeners });
}
var NORMALIZE_NEWLINES_REGEX = /\r\n?/g, NORMALIZE_NULL_AND_REPLACEMENT_REGEX = /\u0000|\uFFFD/g;
function normalizeMarkupForTextOrAttribute(markup) {
return ("string" === typeof markup ? markup : "" + markup).replace(NORMALIZE_NEWLINES_REGEX, "\n").replace(NORMALIZE_NULL_AND_REPLACEMENT_REGEX, "");
}
function checkForUnmatchedText(serverText, clientText) {
clientText = normalizeMarkupForTextOrAttribute(clientText);
return normalizeMarkupForTextOrAttribute(serverText) === clientText ? true : false;
}
function noop$1() {
}
function setProp(domElement, tag, key, value, props, prevValue) {
switch (key) {
case "children":
"string" === typeof value ? "body" === tag || "textarea" === tag && "" === value || setTextContent(domElement, value) : ("number" === typeof value || "bigint" === typeof value) && "body" !== tag && setTextContent(domElement, "" + value);
break;
case "className":
setValueForKnownAttribute(domElement, "class", value);
break;
case "tabIndex":
setValueForKnownAttribute(domElement, "tabindex", value);
break;
case "dir":
case "role":
case "viewBox":
case "width":
case "height":
setValueForKnownAttribute(domElement, key, value);
break;
case "style":
setValueForStyles(domElement, value, prevValue);
break;
case "data":
if ("object" !== tag) {
setValueForKnownAttribute(domElement, "data", value);
break;
}
case "src":
case "href":
if ("" === value && ("a" !== tag || "href" !== key)) {
domElement.removeAttribute(key);
break;
}
if (null == value || "function" === typeof value || "symbol" === typeof value || "boolean" === typeof value) {
domElement.removeAttribute(key);
break;
}
value = sanitizeURL("" + value);
domElement.setAttribute(key, value);
break;
case "action":
case "formAction":
if ("function" === typeof value) {
domElement.setAttribute(
key,
"javascript:throw new Error('A React form was unexpectedly submitted. If you called form.submit() manually, consider using form.requestSubmit() instead. If you\\'re trying to use event.stopPropagation() in a submit event handler, consider also calling event.preventDefault().')"
);
break;
} else
"function" === typeof prevValue && ("formAction" === key ? ("input" !== tag && setProp(domElement, tag, "name", props.name, props, null), setProp(
domElement,
tag,
"formEncType",
props.formEncType,
props,
null
), setProp(
domElement,
tag,
"formMethod",
props.formMethod,
props,
null
), setProp(
domElement,
tag,
"formTarget",
props.formTarget,
props,
null
)) : (setProp(domElement, tag, "encType", props.encType, props, null), setProp(domElement, tag, "method", props.method, props, null), setProp(domElement, tag, "target", props.target, props, null)));
if (null == value || "symbol" === typeof value || "boolean" === typeof value) {
domElement.removeAttribute(key);
break;
}
value = sanitizeURL("" + value);
domElement.setAttribute(key, value);
break;
case "onClick":
null != value && (domElement.onclick = noop$1);
break;
case "onScroll":
null != value && listenToNonDelegatedEvent("scroll", domElement);
break;
case "onScrollEnd":
null != value && listenToNonDelegatedEvent("scrollend", domElement);
break;
case "dangerouslySetInnerHTML":
if (null != value) {
if ("object" !== typeof value || !("__html" in value))
throw Error(formatProdErrorMessage(61));
key = value.__html;
if (null != key) {
if (null != props.children) throw Error(formatProdErrorMessage(60));
domElement.innerHTML = key;
}
}
break;
case "multiple":
domElement.multiple = value && "function" !== typeof value && "symbol" !== typeof value;
break;
case "muted":
domElement.muted = value && "function" !== typeof value && "symbol" !== typeof value;
break;
case "suppressContentEditableWarning":
case "suppressHydrationWarning":
case "defaultValue":
case "defaultChecked":
case "innerHTML":
case "ref":
break;
case "autoFocus":
break;
case "xlinkHref":
if (null == value || "function" === typeof value || "boolean" === typeof value || "symbol" === typeof value) {
domElement.removeAttribute("xlink:href");
break;
}
key = sanitizeURL("" + value);
domElement.setAttributeNS(
"http://www.w3.org/1999/xlink",
"xlink:href",
key
);
break;
case "contentEditable":
case "spellCheck":
case "draggable":
case "value":
case "autoReverse":
case "externalResourcesRequired":
case "focusable":
case "preserveAlpha":
null != value && "function" !== typeof value && "symbol" !== typeof value ? domElement.setAttribute(key, "" + value) : domElement.removeAttribute(key);
break;
case "inert":
case "allowFullScreen":
case "async":
case "autoPlay":
case "controls":
case "default":
case "defer":
case "disabled":
case "disablePictureInPicture":
case "disableRemotePlayback":
case "formNoValidate":
case "hidden":
case "loop":
case "noModule":
case "noValidate":
case "open":
case "playsInline":
case "readOnly":
case "required":
case "reversed":
case "scoped":
case "seamless":
case "itemScope":
value && "function" !== typeof value && "symbol" !== typeof value ? domElement.setAttribute(key, "") : domElement.removeAttribute(key);
break;
case "capture":
case "download":
true === value ? domElement.setAttribute(key, "") : false !== value && null != value && "function" !== typeof value && "symbol" !== typeof value ? domElement.setAttribute(key, value) : domElement.removeAttribute(key);
break;
case "cols":
case "rows":
case "size":
case "span":
null != value && "function" !== typeof value && "symbol" !== typeof value && !isNaN(value) && 1 <= value ? domElement.setAttribute(key, value) : domElement.removeAttribute(key);
break;
case "rowSpan":
case "start":
null == value || "function" === typeof value || "symbol" === typeof value || isNaN(value) ? domElement.removeAttribute(key) : domElement.setAttribute(key, value);
break;
case "popover":
listenToNonDelegatedEvent("beforetoggle", domElement);
listenToNonDelegatedEvent("toggle", domElement);
setValueForAttribute(domElement, "popover", value);
break;
case "xlinkActuate":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/1999/xlink",
"xlink:actuate",
value
);
break;
case "xlinkArcrole":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/1999/xlink",
"xlink:arcrole",
value
);
break;
case "xlinkRole":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/1999/xlink",
"xlink:role",
value
);
break;
case "xlinkShow":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/1999/xlink",
"xlink:show",
value
);
break;
case "xlinkTitle":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/1999/xlink",
"xlink:title",
value
);
break;
case "xlinkType":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/1999/xlink",
"xlink:type",
value
);
break;
case "xmlBase":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/XML/1998/namespace",
"xml:base",
value
);
break;
case "xmlLang":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/XML/1998/namespace",
"xml:lang",
value
);
break;
case "xmlSpace":
setValueForNamespacedAttribute(
domElement,
"http://www.w3.org/XML/1998/namespace",
"xml:space",
value
);
break;
case "is":
setValueForAttribute(domElement, "is", value);
break;
case "innerText":
case "textContent":
break;
default:
if (!(2 < key.length) || "o" !== key[0] && "O" !== key[0] || "n" !== key[1] && "N" !== key[1])
key = aliases.get(key) || key, setValueForAttribute(domElement, key, value);
}
}
function setPropOnCustomElement(domElement, tag, key, value, props, prevValue) {
switch (key) {
case "style":
setValueForStyles(domElement, value, prevValue);
break;
case "dangerouslySetInnerHTML":
if (null != value) {
if ("object" !== typeof value || !("__html" in value))
throw Error(formatProdErrorMessage(61));
key = value.__html;
if (null != key) {
if (null != props.children) throw Error(formatProdErrorMessage(60));
domElement.innerHTML = key;
}
}
break;
case "children":
"string" === typeof value ? setTextContent(domElement, value) : ("number" === typeof value || "bigint" === typeof value) && setTextContent(domElement, "" + value);
break;
case "onScroll":
null != value && listenToNonDelegatedEvent("scroll", domElement);
break;
case "onScrollEnd":
null != value && listenToNonDelegatedEvent("scrollend", domElement);
break;
case "onClick":
null != value && (domElement.onclick = noop$1);
break;
case "suppressContentEditableWarning":
case "suppressHydrationWarning":
case "innerHTML":
case "ref":
break;
case "innerText":
case "textContent":
break;
default:
if (!registrationNameDependencies.hasOwnProperty(key))
a: {
if ("o" === key[0] && "n" === key[1] && (props = key.endsWith("Capture"), tag = key.slice(2, props ? key.length - 7 : void 0), prevValue = domElement[internalPropsKey] || null, prevValue = null != prevValue ? prevValue[key] : null, "function" === typeof prevValue && domElement.removeEventListener(tag, prevValue, props), "function" === typeof value)) {
"function" !== typeof prevValue && null !== prevValue && (key in domElement ? domElement[key] = null : domElement.hasAttribute(key) && domElement.removeAttribute(key));
domElement.addEventListener(tag, value, props);
break a;
}
key in domElement ? domElement[key] = value : true === value ? domElement.setAttribute(key, "") : setValueForAttribute(domElement, key, value);
}
}
}
function setInitialProperties(domElement, tag, props) {
switch (tag) {
case "div":
case "span":
case "svg":
case "path":
case "a":
case "g":
case "p":
case "li":
break;
case "img":
listenToNonDelegatedEvent("error", domElement);
listenToNonDelegatedEvent("load", domElement);
var hasSrc = false, hasSrcSet = false, propKey;
for (propKey in props)
if (props.hasOwnProperty(propKey)) {
var propValue = props[propKey];
if (null != propValue)
switch (propKey) {
case "src":
hasSrc = true;
break;
case "srcSet":
hasSrcSet = true;
break;
case "children":
case "dangerouslySetInnerHTML":
throw Error(formatProdErrorMessage(137, tag));
default:
setProp(domElement, tag, propKey, propValue, props, null);
}
}
hasSrcSet && setProp(domElement, tag, "srcSet", props.srcSet, props, null);
hasSrc && setProp(domElement, tag, "src", props.src, props, null);
return;
case "input":
listenToNonDelegatedEvent("invalid", domElement);
var defaultValue = propKey = propValue = hasSrcSet = null, checked = null, defaultChecked = null;
for (hasSrc in props)
if (props.hasOwnProperty(hasSrc)) {
var propValue$188 = props[hasSrc];
if (null != propValue$188)
switch (hasSrc) {
case "name":
hasSrcSet = propValue$188;
break;
case "type":
propValue = propValue$188;
break;
case "checked":
checked = propValue$188;
break;
case "defaultChecked":
defaultChecked = propValue$188;
break;
case "value":
propKey = propValue$188;
break;
case "defaultValue":
defaultValue = propValue$188;
break;
case "children":
case "dangerouslySetInnerHTML":
if (null != propValue$188)
throw Error(formatProdErrorMessage(137, tag));
break;
default:
setProp(domElement, tag, hasSrc, propValue$188, props, null);
}
}
initInput(
domElement,
propKey,
defaultValue,
checked,
defaultChecked,
propValue,
hasSrcSet,
false
);
track(domElement);
return;
case "select":
listenToNonDelegatedEvent("invalid", domElement);
hasSrc = propValue = propKey = null;
for (hasSrcSet in props)
if (props.hasOwnProperty(hasSrcSet) && (defaultValue = props[hasSrcSet], null != defaultValue))
switch (hasSrcSet) {
case "value":
propKey = defaultValue;
break;
case "defaultValue":
propValue = defaultValue;
break;
case "multiple":
hasSrc = defaultValue;
default:
setProp(domElement, tag, hasSrcSet, defaultValue, props, null);
}
tag = propKey;
props = propValue;
domElement.multiple = !!hasSrc;
null != tag ? updateOptions(domElement, !!hasSrc, tag, false) : null != props && updateOptions(domElement, !!hasSrc, props, true);
return;
case "textarea":
listenToNonDelegatedEvent("invalid", domElement);
propKey = hasSrcSet = hasSrc = null;
for (propValue in props)
if (props.hasOwnProperty(propValue) && (defaultValue = props[propValue], null != defaultValue))
switch (propValue) {
case "value":
hasSrc = defaultValue;
break;
case "defaultValue":
hasSrcSet = defaultValue;
break;
case "children":
propKey = defaultValue;
break;
case "dangerouslySetInnerHTML":
if (null != defaultValue) throw Error(formatProdErrorMessage(91));
break;
default:
setProp(domElement, tag, propValue, defaultValue, props, null);
}
initTextarea(domElement, hasSrc, hasSrcSet, propKey);
track(domElement);
return;
case "option":
for (checked in props)
if (props.hasOwnProperty(checked) && (hasSrc = props[checked], null != hasSrc))
switch (checked) {
case "selected":
domElement.selected = hasSrc && "function" !== typeof hasSrc && "symbol" !== typeof hasSrc;
break;
default:
setProp(domElement, tag, checked, hasSrc, props, null);
}
return;
case "dialog":
listenToNonDelegatedEvent("beforetoggle", domElement);
listenToNonDelegatedEvent("toggle", domElement);
listenToNonDelegatedEvent("cancel", domElement);
listenToNonDelegatedEvent("close", domElement);
break;
case "iframe":
case "object":
listenToNonDelegatedEvent("load", domElement);
break;
case "video":
case "audio":
for (hasSrc = 0; hasSrc < mediaEventTypes.length; hasSrc++)
listenToNonDelegatedEvent(mediaEventTypes[hasSrc], domElement);
break;
case "image":
listenToNonDelegatedEvent("error", domElement);
listenToNonDelegatedEvent("load", domElement);
break;
case "details":
listenToNonDelegatedEvent("toggle", domElement);
break;
case "embed":
case "source":
case "link":
listenToNonDelegatedEvent("error", domElement), listenToNonDelegatedEvent("load", domElement);
case "area":
case "base":
case "br":
case "col":
case "hr":
case "keygen":
case "meta":
case "param":
case "track":
case "wbr":
case "menuitem":
for (defaultChecked in props)
if (props.hasOwnProperty(defaultChecked) && (hasSrc = props[defaultChecked], null != hasSrc))
switch (defaultChecked) {
case "children":
case "dangerouslySetInnerHTML":
throw Error(formatProdErrorMessage(137, tag));
default:
setProp(domElement, tag, defaultChecked, hasSrc, props, null);
}
return;
default:
if (isCustomElement(tag)) {
for (propValue$188 in props)
props.hasOwnProperty(propValue$188) && (hasSrc = props[propValue$188], void 0 !== hasSrc && setPropOnCustomElement(
domElement,
tag,
propValue$188,
hasSrc,
props,
void 0
));
return;
}
}
for (defaultValue in props)
props.hasOwnProperty(defaultValue) && (hasSrc = props[defaultValue], null != hasSrc && setProp(domElement, tag, defaultValue, hasSrc, props, null));
}
function updateProperties(domElement, tag, lastProps, nextProps) {
switch (tag) {
case "div":
case "span":
case "svg":
case "path":
case "a":
case "g":
case "p":
case "li":
break;
case "input":
var name = null, type = null, value = null, defaultValue = null, lastDefaultValue = null, checked = null, defaultChecked = null;
for (propKey in lastProps) {
var lastProp = lastProps[propKey];
if (lastProps.hasOwnProperty(propKey) && null != lastProp)
switch (propKey) {
case "checked":
break;
case "value":
break;
case "defaultValue":
lastDefaultValue = lastProp;
default:
nextProps.hasOwnProperty(propKey) || setProp(domElement, tag, propKey, null, nextProps, lastProp);
}
}
for (var propKey$205 in nextProps) {
var propKey = nextProps[propKey$205];
lastProp = lastProps[propKey$205];
if (nextProps.hasOwnProperty(propKey$205) && (null != propKey || null != lastProp))
switch (propKey$205) {
case "type":
type = propKey;
break;
case "name":
name = propKey;
break;
case "checked":
checked = propKey;
break;
case "defaultChecked":
defaultChecked = propKey;
break;
case "value":
value = propKey;
break;
case "defaultValue":
defaultValue = propKey;
break;
case "children":
case "dangerouslySetInnerHTML":
if (null != propKey)
throw Error(formatProdErrorMessage(137, tag));
break;
default:
propKey !== lastProp && setProp(
domElement,
tag,
propKey$205,
propKey,
nextProps,
lastProp
);
}
}
updateInput(
domElement,
value,
defaultValue,
lastDefaultValue,
checked,
defaultChecked,
type,
name
);
return;
case "select":
propKey = value = defaultValue = propKey$205 = null;
for (type in lastProps)
if (lastDefaultValue = lastProps[type], lastProps.hasOwnProperty(type) && null != lastDefaultValue)
switch (type) {
case "value":
break;
case "multiple":
propKey = lastDefaultValue;
default:
nextProps.hasOwnProperty(type) || setProp(
domElement,
tag,
type,
null,
nextProps,
lastDefaultValue
);
}
for (name in nextProps)
if (type = nextProps[name], lastDefaultValue = lastProps[name], nextProps.hasOwnProperty(name) && (null != type || null != lastDefaultValue))
switch (name) {
case "value":
propKey$205 = type;
break;
case "defaultValue":
defaultValue = type;
break;
case "multiple":
value = type;
default:
type !== lastDefaultValue && setProp(
domElement,
tag,
name,
type,
nextProps,
lastDefaultValue
);
}
tag = defaultValue;
lastProps = value;
nextProps = propKey;
null != propKey$205 ? updateOptions(domElement, !!lastProps, propKey$205, false) : !!nextProps !== !!lastProps && (null != tag ? updateOptions(domElement, !!lastProps, tag, true) : updateOptions(domElement, !!lastProps, lastProps ? [] : "", false));
return;
case "textarea":
propKey = propKey$205 = null;
for (defaultValue in lastProps)
if (name = lastProps[defaultValue], lastProps.hasOwnProperty(defaultValue) && null != name && !nextProps.hasOwnProperty(defaultValue))
switch (defaultValue) {
case "value":
break;
case "children":
break;
default:
setProp(domElement, tag, defaultValue, null, nextProps, name);
}
for (value in nextProps)
if (name = nextProps[value], type = lastProps[value], nextProps.hasOwnProperty(value) && (null != name || null != type))
switch (value) {
case "value":
propKey$205 = name;
break;
case "defaultValue":
propKey = name;
break;
case "children":
break;
case "dangerouslySetInnerHTML":
if (null != name) throw Error(formatProdErrorMessage(91));
break;
default:
name !== type && setProp(domElement, tag, value, name, nextProps, type);
}
updateTextarea(domElement, propKey$205, propKey);
return;
case "option":
for (var propKey$221 in lastProps)
if (propKey$205 = lastProps[propKey$221], lastProps.hasOwnProperty(propKey$221) && null != propKey$205 && !nextProps.hasOwnProperty(propKey$221))
switch (propKey$221) {
case "selected":
domElement.selected = false;
break;
default:
setProp(
domElement,
tag,
propKey$221,
null,
nextProps,
propKey$205
);
}
for (lastDefaultValue in nextProps)
if (propKey$205 = nextProps[lastDefaultValue], propKey = lastProps[lastDefaultValue], nextProps.hasOwnProperty(lastDefaultValue) && propKey$205 !== propKey && (null != propKey$205 || null != propKey))
switch (lastDefaultValue) {
case "selected":
domElement.selected = propKey$205 && "function" !== typeof propKey$205 && "symbol" !== typeof propKey$205;
break;
default:
setProp(
domElement,
tag,
lastDefaultValue,
propKey$205,
nextProps,
propKey
);
}
return;
case "img":
case "link":
case "area":
case "base":
case "br":
case "col":
case "embed":
case "hr":
case "keygen":
case "meta":
case "param":
case "source":
case "track":
case "wbr":
case "menuitem":
for (var propKey$226 in lastProps)
propKey$205 = lastProps[propKey$226], lastProps.hasOwnProperty(propKey$226) && null != propKey$205 && !nextProps.hasOwnProperty(propKey$226) && setProp(domElement, tag, propKey$226, null, nextProps, propKey$205);
for (checked in nextProps)
if (propKey$205 = nextProps[checked], propKey = lastProps[checked], nextProps.hasOwnProperty(checked) && propKey$205 !== propKey && (null != propKey$205 || null != propKey))
switch (checked) {
case "children":
case "dangerouslySetInnerHTML":
if (null != propKey$205)
throw Error(formatProdErrorMessage(137, tag));
break;
default:
setProp(
domElement,
tag,
checked,
propKey$205,
nextProps,
propKey
);
}
return;
default:
if (isCustomElement(tag)) {
for (var propKey$231 in lastProps)
propKey$205 = lastProps[propKey$231], lastProps.hasOwnProperty(propKey$231) && void 0 !== propKey$205 && !nextProps.hasOwnProperty(propKey$231) && setPropOnCustomElement(
domElement,
tag,
propKey$231,
void 0,
nextProps,
propKey$205
);
for (defaultChecked in nextProps)
propKey$205 = nextProps[defaultChecked], propKey = lastProps[defaultChecked], !nextProps.hasOwnProperty(defaultChecked) || propKey$205 === propKey || void 0 === propKey$205 && void 0 === propKey || setPropOnCustomElement(
domElement,
tag,
defaultChecked,
propKey$205,
nextProps,
propKey
);
return;
}
}
for (var propKey$236 in lastProps)
propKey$205 = lastProps[propKey$236], lastProps.hasOwnProperty(propKey$236) && null != propKey$205 && !nextProps.hasOwnProperty(propKey$236) && setProp(domElement, tag, propKey$236, null, nextProps, propKey$205);
for (lastProp in nextProps)
propKey$205 = nextProps[lastProp], propKey = lastProps[lastProp], !nextProps.hasOwnProperty(lastProp) || propKey$205 === propKey || null == propKey$205 && null == propKey || setProp(domElement, tag, lastProp, propKey$205, nextProps, propKey);
}
var eventsEnabled = null, selectionInformation = null;
function getOwnerDocumentFromRootContainer(rootContainerElement) {
return 9 === rootContainerElement.nodeType ? rootContainerElement : rootContainerElement.ownerDocument;
}
function getOwnHostContext(namespaceURI) {
switch (namespaceURI) {
case "http://www.w3.org/2000/svg":
return 1;
case "http://www.w3.org/1998/Math/MathML":
return 2;
default:
return 0;
}
}
function getChildHostContextProd(parentNamespace, type) {
if (0 === parentNamespace)
switch (type) {
case "svg":
return 1;
case "math":
return 2;
default:
return 0;
}
return 1 === parentNamespace && "foreignObject" === type ? 0 : parentNamespace;
}
function shouldSetTextContent(type, props) {
return "textarea" === type || "noscript" === type || "string" === typeof props.children || "number" === typeof props.children || "bigint" === typeof props.children || "object" === typeof props.dangerouslySetInnerHTML && null !== props.dangerouslySetInnerHTML && null != props.dangerouslySetInnerHTML.__html;
}
var currentPopstateTransitionEvent = null;
function shouldAttemptEagerTransition() {
var event = window.event;
if (event && "popstate" === event.type) {
if (event === currentPopstateTransitionEvent) return false;
currentPopstateTransitionEvent = event;
return true;
}
currentPopstateTransitionEvent = null;
return false;
}
var scheduleTimeout = "function" === typeof setTimeout ? setTimeout : void 0, cancelTimeout = "function" === typeof clearTimeout ? clearTimeout : void 0, localPromise = "function" === typeof Promise ? Promise : void 0, scheduleMicrotask = "function" === typeof queueMicrotask ? queueMicrotask : "undefined" !== typeof localPromise ? function(callback) {
return localPromise.resolve(null).then(callback).catch(handleErrorInNextTick);
} : scheduleTimeout;
function handleErrorInNextTick(error) {
setTimeout(function() {
throw error;
});
}
function isSingletonScope(type) {
return "head" === type;
}
function clearSuspenseBoundary(parentInstance, suspenseInstance) {
var node = suspenseInstance, possiblePreambleContribution = 0, depth = 0;
do {
var nextNode = node.nextSibling;
parentInstance.removeChild(node);
if (nextNode && 8 === nextNode.nodeType)
if (node = nextNode.data, "/$" === node) {
if (0 < possiblePreambleContribution && 8 > possiblePreambleContribution) {
node = possiblePreambleContribution;
var ownerDocument = parentInstance.ownerDocument;
node & 1 && releaseSingletonInstance(ownerDocument.documentElement);
node & 2 && releaseSingletonInstance(ownerDocument.body);
if (node & 4)
for (node = ownerDocument.head, releaseSingletonInstance(node), ownerDocument = node.firstChild; ownerDocument; ) {
var nextNode$jscomp$0 = ownerDocument.nextSibling, nodeName = ownerDocument.nodeName;
ownerDocument[internalHoistableMarker] || "SCRIPT" === nodeName || "STYLE" === nodeName || "LINK" === nodeName && "stylesheet" === ownerDocument.rel.toLowerCase() || node.removeChild(ownerDocument);
ownerDocument = nextNode$jscomp$0;
}
}
if (0 === depth) {
parentInstance.removeChild(nextNode);
retryIfBlockedOn(suspenseInstance);
return;
}
depth--;
} else
"$" === node || "$?" === node || "$!" === node ? depth++ : possiblePreambleContribution = node.charCodeAt(0) - 48;
else possiblePreambleContribution = 0;
node = nextNode;
} while (node);
retryIfBlockedOn(suspenseInstance);
}
function clearContainerSparingly(container) {
var nextNode = container.firstChild;
nextNode && 10 === nextNode.nodeType && (nextNode = nextNode.nextSibling);
for (; nextNode; ) {
var node = nextNode;
nextNode = nextNode.nextSibling;
switch (node.nodeName) {
case "HTML":
case "HEAD":
case "BODY":
clearContainerSparingly(node);
detachDeletedInstance(node);
continue;
case "SCRIPT":
case "STYLE":
continue;
case "LINK":
if ("stylesheet" === node.rel.toLowerCase()) continue;
}
container.removeChild(node);
}
}
function canHydrateInstance(instance, type, props, inRootOrSingleton) {
for (; 1 === instance.nodeType; ) {
var anyProps = props;
if (instance.nodeName.toLowerCase() !== type.toLowerCase()) {
if (!inRootOrSingleton && ("INPUT" !== instance.nodeName || "hidden" !== instance.type))
break;
} else if (!inRootOrSingleton)
if ("input" === type && "hidden" === instance.type) {
var name = null == anyProps.name ? null : "" + anyProps.name;
if ("hidden" === anyProps.type && instance.getAttribute("name") === name)
return instance;
} else return instance;
else if (!instance[internalHoistableMarker])
switch (type) {
case "meta":
if (!instance.hasAttribute("itemprop")) break;
return instance;
case "link":
name = instance.getAttribute("rel");
if ("stylesheet" === name && instance.hasAttribute("data-precedence"))
break;
else if (name !== anyProps.rel || instance.getAttribute("href") !== (null == anyProps.href || "" === anyProps.href ? null : anyProps.href) || instance.getAttribute("crossorigin") !== (null == anyProps.crossOrigin ? null : anyProps.crossOrigin) || instance.getAttribute("title") !== (null == anyProps.title ? null : anyProps.title))
break;
return instance;
case "style":
if (instance.hasAttribute("data-precedence")) break;
return instance;
case "script":
name = instance.getAttribute("src");
if ((name !== (null == anyProps.src ? null : anyProps.src) || instance.getAttribute("type") !== (null == anyProps.type ? null : anyProps.type) || instance.getAttribute("crossorigin") !== (null == anyProps.crossOrigin ? null : anyProps.crossOrigin)) && name && instance.hasAttribute("async") && !instance.hasAttribute("itemprop"))
break;
return instance;
default:
return instance;
}
instance = getNextHydratable(instance.nextSibling);
if (null === instance) break;
}
return null;
}
function canHydrateTextInstance(instance, text2, inRootOrSingleton) {
if ("" === text2) return null;
for (; 3 !== instance.nodeType; ) {
if ((1 !== instance.nodeType || "INPUT" !== instance.nodeName || "hidden" !== instance.type) && !inRootOrSingleton)
return null;
instance = getNextHydratable(instance.nextSibling);
if (null === instance) return null;
}
return instance;
}
function isSuspenseInstanceFallback(instance) {
return "$!" === instance.data || "$?" === instance.data && "complete" === instance.ownerDocument.readyState;
}
function registerSuspenseInstanceRetry(instance, callback) {
var ownerDocument = instance.ownerDocument;
if ("$?" !== instance.data || "complete" === ownerDocument.readyState)
callback();
else {
var listener = function() {
callback();
ownerDocument.removeEventListener("DOMContentLoaded", listener);
};
ownerDocument.addEventListener("DOMContentLoaded", listener);
instance._reactRetry = listener;
}
}
function getNextHydratable(node) {
for (; null != node; node = node.nextSibling) {
var nodeType = node.nodeType;
if (1 === nodeType || 3 === nodeType) break;
if (8 === nodeType) {
nodeType = node.data;
if ("$" === nodeType || "$!" === nodeType || "$?" === nodeType || "F!" === nodeType || "F" === nodeType)
break;
if ("/$" === nodeType) return null;
}
}
return node;
}
var previousHydratableOnEnteringScopedSingleton = null;
function getParentSuspenseInstance(targetInstance) {
targetInstance = targetInstance.previousSibling;
for (var depth = 0; targetInstance; ) {
if (8 === targetInstance.nodeType) {
var data = targetInstance.data;
if ("$" === data || "$!" === data || "$?" === data) {
if (0 === depth) return targetInstance;
depth--;
} else "/$" === data && depth++;
}
targetInstance = targetInstance.previousSibling;
}
return null;
}
function resolveSingletonInstance(type, props, rootContainerInstance) {
props = getOwnerDocumentFromRootContainer(rootContainerInstance);
switch (type) {
case "html":
type = props.documentElement;
if (!type) throw Error(formatProdErrorMessage(452));
return type;
case "head":
type = props.head;
if (!type) throw Error(formatProdErrorMessage(453));
return type;
case "body":
type = props.body;
if (!type) throw Error(formatProdErrorMessage(454));
return type;
default:
throw Error(formatProdErrorMessage(451));
}
}
function releaseSingletonInstance(instance) {
for (var attributes = instance.attributes; attributes.length; )
instance.removeAttributeNode(attributes[0]);
detachDeletedInstance(instance);
}
var preloadPropsMap = /* @__PURE__ */ new Map(), preconnectsSet = /* @__PURE__ */ new Set();
function getHoistableRoot(container) {
return "function" === typeof container.getRootNode ? container.getRootNode() : 9 === container.nodeType ? container : container.ownerDocument;
}
var previousDispatcher = ReactDOMSharedInternals.d;
ReactDOMSharedInternals.d = {
f: flushSyncWork,
r: requestFormReset,
D: prefetchDNS,
C: preconnect,
L: preload,
m: preloadModule,
X: preinitScript,
S: preinitStyle,
M: preinitModuleScript
};
function flushSyncWork() {
var previousWasRendering = previousDispatcher.f(), wasRendering = flushSyncWork$1();
return previousWasRendering || wasRendering;
}
function requestFormReset(form) {
var formInst = getInstanceFromNode(form);
null !== formInst && 5 === formInst.tag && "form" === formInst.type ? requestFormReset$1(formInst) : previousDispatcher.r(form);
}
var globalDocument = "undefined" === typeof document ? null : document;
function preconnectAs(rel, href, crossOrigin) {
var ownerDocument = globalDocument;
if (ownerDocument && "string" === typeof href && href) {
var limitedEscapedHref = escapeSelectorAttributeValueInsideDoubleQuotes(href);
limitedEscapedHref = 'link[rel="' + rel + '"][href="' + limitedEscapedHref + '"]';
"string" === typeof crossOrigin && (limitedEscapedHref += '[crossorigin="' + crossOrigin + '"]');
preconnectsSet.has(limitedEscapedHref) || (preconnectsSet.add(limitedEscapedHref), rel = { rel, crossOrigin, href }, null === ownerDocument.querySelector(limitedEscapedHref) && (href = ownerDocument.createElement("link"), setInitialProperties(href, "link", rel), markNodeAsHoistable(href), ownerDocument.head.appendChild(href)));
}
}
function prefetchDNS(href) {
previousDispatcher.D(href);
preconnectAs("dns-prefetch", href, null);
}
function preconnect(href, crossOrigin) {
previousDispatcher.C(href, crossOrigin);
preconnectAs("preconnect", href, crossOrigin);
}
function preload(href, as, options2) {
previousDispatcher.L(href, as, options2);
var ownerDocument = globalDocument;
if (ownerDocument && href && as) {
var preloadSelector = 'link[rel="preload"][as="' + escapeSelectorAttributeValueInsideDoubleQuotes(as) + '"]';
"image" === as ? options2 && options2.imageSrcSet ? (preloadSelector += '[imagesrcset="' + escapeSelectorAttributeValueInsideDoubleQuotes(
options2.imageSrcSet
) + '"]', "string" === typeof options2.imageSizes && (preloadSelector += '[imagesizes="' + escapeSelectorAttributeValueInsideDoubleQuotes(
options2.imageSizes
) + '"]')) : preloadSelector += '[href="' + escapeSelectorAttributeValueInsideDoubleQuotes(href) + '"]' : preloadSelector += '[href="' + escapeSelectorAttributeValueInsideDoubleQuotes(href) + '"]';
var key = preloadSelector;
switch (as) {
case "style":
key = getStyleKey(href);
break;
case "script":
key = getScriptKey(href);
}
preloadPropsMap.has(key) || (href = assign(
{
rel: "preload",
href: "image" === as && options2 && options2.imageSrcSet ? void 0 : href,
as
},
options2
), preloadPropsMap.set(key, href), null !== ownerDocument.querySelector(preloadSelector) || "style" === as && ownerDocument.querySelector(getStylesheetSelectorFromKey(key)) || "script" === as && ownerDocument.querySelector(getScriptSelectorFromKey(key)) || (as = ownerDocument.createElement("link"), setInitialProperties(as, "link", href), markNodeAsHoistable(as), ownerDocument.head.appendChild(as)));
}
}
function preloadModule(href, options2) {
previousDispatcher.m(href, options2);
var ownerDocument = globalDocument;
if (ownerDocument && href) {
var as = options2 && "string" === typeof options2.as ? options2.as : "script", preloadSelector = 'link[rel="modulepreload"][as="' + escapeSelectorAttributeValueInsideDoubleQuotes(as) + '"][href="' + escapeSelectorAttributeValueInsideDoubleQuotes(href) + '"]', key = preloadSelector;
switch (as) {
case "audioworklet":
case "paintworklet":
case "serviceworker":
case "sharedworker":
case "worker":
case "script":
key = getScriptKey(href);
}
if (!preloadPropsMap.has(key) && (href = assign({ rel: "modulepreload", href }, options2), preloadPropsMap.set(key, href), null === ownerDocument.querySelector(preloadSelector))) {
switch (as) {
case "audioworklet":
case "paintworklet":
case "serviceworker":
case "sharedworker":
case "worker":
case "script":
if (ownerDocument.querySelector(getScriptSelectorFromKey(key)))
return;
}
as = ownerDocument.createElement("link");
setInitialProperties(as, "link", href);
markNodeAsHoistable(as);
ownerDocument.head.appendChild(as);
}
}
}
function preinitStyle(href, precedence, options2) {
previousDispatcher.S(href, precedence, options2);
var ownerDocument = globalDocument;
if (ownerDocument && href) {
var styles = getResourcesFromRoot(ownerDocument).hoistableStyles, key = getStyleKey(href);
precedence = precedence || "default";
var resource = styles.get(key);
if (!resource) {
var state = { loading: 0, preload: null };
if (resource = ownerDocument.querySelector(
getStylesheetSelectorFromKey(key)
))
state.loading = 5;
else {
href = assign(
{ rel: "stylesheet", href, "data-precedence": precedence },
options2
);
(options2 = preloadPropsMap.get(key)) && adoptPreloadPropsForStylesheet(href, options2);
var link = resource = ownerDocument.createElement("link");
markNodeAsHoistable(link);
setInitialProperties(link, "link", href);
link._p = new Promise(function(resolve, reject) {
link.onload = resolve;
link.onerror = reject;
});
link.addEventListener("load", function() {
state.loading |= 1;
});
link.addEventListener("error", function() {
state.loading |= 2;
});
state.loading |= 4;
insertStylesheet(resource, precedence, ownerDocument);
}
resource = {
type: "stylesheet",
instance: resource,
count: 1,
state
};
styles.set(key, resource);
}
}
}
function preinitScript(src, options2) {
previousDispatcher.X(src, options2);
var ownerDocument = globalDocument;
if (ownerDocument && src) {
var scripts = getResourcesFromRoot(ownerDocument).hoistableScripts, key = getScriptKey(src), resource = scripts.get(key);
resource || (resource = ownerDocument.querySelector(getScriptSelectorFromKey(key)), resource || (src = assign({ src, async: true }, options2), (options2 = preloadPropsMap.get(key)) && adoptPreloadPropsForScript(src, options2), resource = ownerDocument.createElement("script"), markNodeAsHoistable(resource), setInitialProperties(resource, "link", src), ownerDocument.head.appendChild(resource)), resource = {
type: "script",
instance: resource,
count: 1,
state: null
}, scripts.set(key, resource));
}
}
function preinitModuleScript(src, options2) {
previousDispatcher.M(src, options2);
var ownerDocument = globalDocument;
if (ownerDocument && src) {
var scripts = getResourcesFromRoot(ownerDocument).hoistableScripts, key = getScriptKey(src), resource = scripts.get(key);
resource || (resource = ownerDocument.querySelector(getScriptSelectorFromKey(key)), resource || (src = assign({ src, async: true, type: "module" }, options2), (options2 = preloadPropsMap.get(key)) && adoptPreloadPropsForScript(src, options2), resource = ownerDocument.createElement("script"), markNodeAsHoistable(resource), setInitialProperties(resource, "link", src), ownerDocument.head.appendChild(resource)), resource = {
type: "script",
instance: resource,
count: 1,
state: null
}, scripts.set(key, resource));
}
}
function getResource(type, currentProps, pendingProps, currentResource) {
var JSCompiler_inline_result = (JSCompiler_inline_result = rootInstanceStackCursor.current) ? getHoistableRoot(JSCompiler_inline_result) : null;
if (!JSCompiler_inline_result) throw Error(formatProdErrorMessage(446));
switch (type) {
case "meta":
case "title":
return null;
case "style":
return "string" === typeof pendingProps.precedence && "string" === typeof pendingProps.href ? (currentProps = getStyleKey(pendingProps.href), pendingProps = getResourcesFromRoot(
JSCompiler_inline_result
).hoistableStyles, currentResource = pendingProps.get(currentProps), currentResource || (currentResource = {
type: "style",
instance: null,
count: 0,
state: null
}, pendingProps.set(currentProps, currentResource)), currentResource) : { type: "void", instance: null, count: 0, state: null };
case "link":
if ("stylesheet" === pendingProps.rel && "string" === typeof pendingProps.href && "string" === typeof pendingProps.precedence) {
type = getStyleKey(pendingProps.href);
var styles$244 = getResourcesFromRoot(
JSCompiler_inline_result
).hoistableStyles, resource$245 = styles$244.get(type);
resource$245 || (JSCompiler_inline_result = JSCompiler_inline_result.ownerDocument || JSCompiler_inline_result, resource$245 = {
type: "stylesheet",
instance: null,
count: 0,
state: { loading: 0, preload: null }
}, styles$244.set(type, resource$245), (styles$244 = JSCompiler_inline_result.querySelector(
getStylesheetSelectorFromKey(type)
)) && !styles$244._p && (resource$245.instance = styles$244, resource$245.state.loading = 5), preloadPropsMap.has(type) || (pendingProps = {
rel: "preload",
as: "style",
href: pendingProps.href,
crossOrigin: pendingProps.crossOrigin,
integrity: pendingProps.integrity,
media: pendingProps.media,
hrefLang: pendingProps.hrefLang,
referrerPolicy: pendingProps.referrerPolicy
}, preloadPropsMap.set(type, pendingProps), styles$244 || preloadStylesheet(
JSCompiler_inline_result,
type,
pendingProps,
resource$245.state
)));
if (currentProps && null === currentResource)
throw Error(formatProdErrorMessage(528, ""));
return resource$245;
}
if (currentProps && null !== currentResource)
throw Error(formatProdErrorMessage(529, ""));
return null;
case "script":
return currentProps = pendingProps.async, pendingProps = pendingProps.src, "string" === typeof pendingProps && currentProps && "function" !== typeof currentProps && "symbol" !== typeof currentProps ? (currentProps = getScriptKey(pendingProps), pendingProps = getResourcesFromRoot(
JSCompiler_inline_result
).hoistableScripts, currentResource = pendingProps.get(currentProps), currentResource || (currentResource = {
type: "script",
instance: null,
count: 0,
state: null
}, pendingProps.set(currentProps, currentResource)), currentResource) : { type: "void", instance: null, count: 0, state: null };
default:
throw Error(formatProdErrorMessage(444, type));
}
}
function getStyleKey(href) {
return 'href="' + escapeSelectorAttributeValueInsideDoubleQuotes(href) + '"';
}
function getStylesheetSelectorFromKey(key) {
return 'link[rel="stylesheet"][' + key + "]";
}
function stylesheetPropsFromRawProps(rawProps) {
return assign({}, rawProps, {
"data-precedence": rawProps.precedence,
precedence: null
});
}
function preloadStylesheet(ownerDocument, key, preloadProps, state) {
ownerDocument.querySelector('link[rel="preload"][as="style"][' + key + "]") ? state.loading = 1 : (key = ownerDocument.createElement("link"), state.preload = key, key.addEventListener("load", function() {
return state.loading |= 1;
}), key.addEventListener("error", function() {
return state.loading |= 2;
}), setInitialProperties(key, "link", preloadProps), markNodeAsHoistable(key), ownerDocument.head.appendChild(key));
}
function getScriptKey(src) {
return '[src="' + escapeSelectorAttributeValueInsideDoubleQuotes(src) + '"]';
}
function getScriptSelectorFromKey(key) {
return "script[async]" + key;
}
function acquireResource(hoistableRoot, resource, props) {
resource.count++;
if (null === resource.instance)
switch (resource.type) {
case "style":
var instance = hoistableRoot.querySelector(
'style[data-href~="' + escapeSelectorAttributeValueInsideDoubleQuotes(props.href) + '"]'
);
if (instance)
return resource.instance = instance, markNodeAsHoistable(instance), instance;
var styleProps = assign({}, props, {
"data-href": props.href,
"data-precedence": props.precedence,
href: null,
precedence: null
});
instance = (hoistableRoot.ownerDocument || hoistableRoot).createElement(
"style"
);
markNodeAsHoistable(instance);
setInitialProperties(instance, "style", styleProps);
insertStylesheet(instance, props.precedence, hoistableRoot);
return resource.instance = instance;
case "stylesheet":
styleProps = getStyleKey(props.href);
var instance$250 = hoistableRoot.querySelector(
getStylesheetSelectorFromKey(styleProps)
);
if (instance$250)
return resource.state.loading |= 4, resource.instance = instance$250, markNodeAsHoistable(instance$250), instance$250;
instance = stylesheetPropsFromRawProps(props);
(styleProps = preloadPropsMap.get(styleProps)) && adoptPreloadPropsForStylesheet(instance, styleProps);
instance$250 = (hoistableRoot.ownerDocument || hoistableRoot).createElement("link");
markNodeAsHoistable(instance$250);
var linkInstance = instance$250;
linkInstance._p = new Promise(function(resolve, reject) {
linkInstance.onload = resolve;
linkInstance.onerror = reject;
});
setInitialProperties(instance$250, "link", instance);
resource.state.loading |= 4;
insertStylesheet(instance$250, props.precedence, hoistableRoot);
return resource.instance = instance$250;
case "script":
instance$250 = getScriptKey(props.src);
if (styleProps = hoistableRoot.querySelector(
getScriptSelectorFromKey(instance$250)
))
return resource.instance = styleProps, markNodeAsHoistable(styleProps), styleProps;
instance = props;
if (styleProps = preloadPropsMap.get(instance$250))
instance = assign({}, props), adoptPreloadPropsForScript(instance, styleProps);
hoistableRoot = hoistableRoot.ownerDocument || hoistableRoot;
styleProps = hoistableRoot.createElement("script");
markNodeAsHoistable(styleProps);
setInitialProperties(styleProps, "link", instance);
hoistableRoot.head.appendChild(styleProps);
return resource.instance = styleProps;
case "void":
return null;
default:
throw Error(formatProdErrorMessage(443, resource.type));
}
else
"stylesheet" === resource.type && 0 === (resource.state.loading & 4) && (instance = resource.instance, resource.state.loading |= 4, insertStylesheet(instance, props.precedence, hoistableRoot));
return resource.instance;
}
function insertStylesheet(instance, precedence, root2) {
for (var nodes = root2.querySelectorAll(
'link[rel="stylesheet"][data-precedence],style[data-precedence]'
), last = nodes.length ? nodes[nodes.length - 1] : null, prior = last, i = 0; i < nodes.length; i++) {
var node = nodes[i];
if (node.dataset.precedence === precedence) prior = node;
else if (prior !== last) break;
}
prior ? prior.parentNode.insertBefore(instance, prior.nextSibling) : (precedence = 9 === root2.nodeType ? root2.head : root2, precedence.insertBefore(instance, precedence.firstChild));
}
function adoptPreloadPropsForStylesheet(stylesheetProps, preloadProps) {
null == stylesheetProps.crossOrigin && (stylesheetProps.crossOrigin = preloadProps.crossOrigin);
null == stylesheetProps.referrerPolicy && (stylesheetProps.referrerPolicy = preloadProps.referrerPolicy);
null == stylesheetProps.title && (stylesheetProps.title = preloadProps.title);
}
function adoptPreloadPropsForScript(scriptProps, preloadProps) {
null == scriptProps.crossOrigin && (scriptProps.crossOrigin = preloadProps.crossOrigin);
null == scriptProps.referrerPolicy && (scriptProps.referrerPolicy = preloadProps.referrerPolicy);
null == scriptProps.integrity && (scriptProps.integrity = preloadProps.integrity);
}
var tagCaches = null;
function getHydratableHoistableCache(type, keyAttribute, ownerDocument) {
if (null === tagCaches) {
var cache = /* @__PURE__ */ new Map();
var caches = tagCaches = /* @__PURE__ */ new Map();
caches.set(ownerDocument, cache);
} else
caches = tagCaches, cache = caches.get(ownerDocument), cache || (cache = /* @__PURE__ */ new Map(), caches.set(ownerDocument, cache));
if (cache.has(type)) return cache;
cache.set(type, null);
ownerDocument = ownerDocument.getElementsByTagName(type);
for (caches = 0; caches < ownerDocument.length; caches++) {
var node = ownerDocument[caches];
if (!(node[internalHoistableMarker] || node[internalInstanceKey] || "link" === type && "stylesheet" === node.getAttribute("rel")) && "http://www.w3.org/2000/svg" !== node.namespaceURI) {
var nodeKey = node.getAttribute(keyAttribute) || "";
nodeKey = type + nodeKey;
var existing = cache.get(nodeKey);
existing ? existing.push(node) : cache.set(nodeKey, [node]);
}
}
return cache;
}
function mountHoistable(hoistableRoot, type, instance) {
hoistableRoot = hoistableRoot.ownerDocument || hoistableRoot;
hoistableRoot.head.insertBefore(
instance,
"title" === type ? hoistableRoot.querySelector("head > title") : null
);
}
function isHostHoistableType(type, props, hostContext) {
if (1 === hostContext || null != props.itemProp) return false;
switch (type) {
case "meta":
case "title":
return true;
case "style":
if ("string" !== typeof props.precedence || "string" !== typeof props.href || "" === props.href)
break;
return true;
case "link":
if ("string" !== typeof props.rel || "string" !== typeof props.href || "" === props.href || props.onLoad || props.onError)
break;
switch (props.rel) {
case "stylesheet":
return type = props.disabled, "string" === typeof props.precedence && null == type;
default:
return true;
}
case "script":
if (props.async && "function" !== typeof props.async && "symbol" !== typeof props.async && !props.onLoad && !props.onError && props.src && "string" === typeof props.src)
return true;
}
return false;
}
function preloadResource(resource) {
return "stylesheet" === resource.type && 0 === (resource.state.loading & 3) ? false : true;
}
var suspendedState = null;
function noop() {
}
function suspendResource(hoistableRoot, resource, props) {
if (null === suspendedState) throw Error(formatProdErrorMessage(475));
var state = suspendedState;
if ("stylesheet" === resource.type && ("string" !== typeof props.media || false !== matchMedia(props.media).matches) && 0 === (resource.state.loading & 4)) {
if (null === resource.instance) {
var key = getStyleKey(props.href), instance = hoistableRoot.querySelector(
getStylesheetSelectorFromKey(key)
);
if (instance) {
hoistableRoot = instance._p;
null !== hoistableRoot && "object" === typeof hoistableRoot && "function" === typeof hoistableRoot.then && (state.count++, state = onUnsuspend.bind(state), hoistableRoot.then(state, state));
resource.state.loading |= 4;
resource.instance = instance;
markNodeAsHoistable(instance);
return;
}
instance = hoistableRoot.ownerDocument || hoistableRoot;
props = stylesheetPropsFromRawProps(props);
(key = preloadPropsMap.get(key)) && adoptPreloadPropsForStylesheet(props, key);
instance = instance.createElement("link");
markNodeAsHoistable(instance);
var linkInstance = instance;
linkInstance._p = new Promise(function(resolve, reject) {
linkInstance.onload = resolve;
linkInstance.onerror = reject;
});
setInitialProperties(instance, "link", props);
resource.instance = instance;
}
null === state.stylesheets && (state.stylesheets = /* @__PURE__ */ new Map());
state.stylesheets.set(resource, hoistableRoot);
(hoistableRoot = resource.state.preload) && 0 === (resource.state.loading & 3) && (state.count++, resource = onUnsuspend.bind(state), hoistableRoot.addEventListener("load", resource), hoistableRoot.addEventListener("error", resource));
}
}
function waitForCommitToBeReady() {
if (null === suspendedState) throw Error(formatProdErrorMessage(475));
var state = suspendedState;
state.stylesheets && 0 === state.count && insertSuspendedStylesheets(state, state.stylesheets);
return 0 < state.count ? function(commit) {
var stylesheetTimer = setTimeout(function() {
state.stylesheets && insertSuspendedStylesheets(state, state.stylesheets);
if (state.unsuspend) {
var unsuspend = state.unsuspend;
state.unsuspend = null;
unsuspend();
}
}, 6e4);
state.unsuspend = commit;
return function() {
state.unsuspend = null;
clearTimeout(stylesheetTimer);
};
} : null;
}
function onUnsuspend() {
this.count--;
if (0 === this.count) {
if (this.stylesheets) insertSuspendedStylesheets(this, this.stylesheets);
else if (this.unsuspend) {
var unsuspend = this.unsuspend;
this.unsuspend = null;
unsuspend();
}
}
}
var precedencesByRoot = null;
function insertSuspendedStylesheets(state, resources) {
state.stylesheets = null;
null !== state.unsuspend && (state.count++, precedencesByRoot = /* @__PURE__ */ new Map(), resources.forEach(insertStylesheetIntoRoot, state), precedencesByRoot = null, onUnsuspend.call(state));
}
function insertStylesheetIntoRoot(root2, resource) {
if (!(resource.state.loading & 4)) {
var precedences = precedencesByRoot.get(root2);
if (precedences) var last = precedences.get(null);
else {
precedences = /* @__PURE__ */ new Map();
precedencesByRoot.set(root2, precedences);
for (var nodes = root2.querySelectorAll(
"link[data-precedence],style[data-precedence]"
), i = 0; i < nodes.length; i++) {
var node = nodes[i];
if ("LINK" === node.nodeName || "not all" !== node.getAttribute("media"))
precedences.set(node.dataset.precedence, node), last = node;
}
last && precedences.set(null, last);
}
nodes = resource.instance;
node = nodes.getAttribute("data-precedence");
i = precedences.get(node) || last;
i === last && precedences.set(null, nodes);
precedences.set(node, nodes);
this.count++;
last = onUnsuspend.bind(this);
nodes.addEventListener("load", last);
nodes.addEventListener("error", last);
i ? i.parentNode.insertBefore(nodes, i.nextSibling) : (root2 = 9 === root2.nodeType ? root2.head : root2, root2.insertBefore(nodes, root2.firstChild));
resource.state.loading |= 4;
}
}
var HostTransitionContext = {
$$typeof: REACT_CONTEXT_TYPE,
Provider: null,
Consumer: null,
_currentValue: sharedNotPendingObject,
_currentValue2: sharedNotPendingObject,
_threadCount: 0
};
function FiberRootNode(containerInfo, tag, hydrate, identifierPrefix, onUncaughtError, onCaughtError, onRecoverableError, formState) {
this.tag = 1;
this.containerInfo = containerInfo;
this.pingCache = this.current = this.pendingChildren = null;
this.timeoutHandle = -1;
this.callbackNode = this.next = this.pendingContext = this.context = this.cancelPendingCommit = null;
this.callbackPriority = 0;
this.expirationTimes = createLaneMap(-1);
this.entangledLanes = this.shellSuspendCounter = this.errorRecoveryDisabledLanes = this.expiredLanes = this.warmLanes = this.pingedLanes = this.suspendedLanes = this.pendingLanes = 0;
this.entanglements = createLaneMap(0);
this.hiddenUpdates = createLaneMap(null);
this.identifierPrefix = identifierPrefix;
this.onUncaughtError = onUncaughtError;
this.onCaughtError = onCaughtError;
this.onRecoverableError = onRecoverableError;
this.pooledCache = null;
this.pooledCacheLanes = 0;
this.formState = formState;
this.incompleteTransitions = /* @__PURE__ */ new Map();
}
function createFiberRoot(containerInfo, tag, hydrate, initialChildren, hydrationCallbacks, isStrictMode, identifierPrefix, onUncaughtError, onCaughtError, onRecoverableError, transitionCallbacks, formState) {
containerInfo = new FiberRootNode(
containerInfo,
tag,
hydrate,
identifierPrefix,
onUncaughtError,
onCaughtError,
onRecoverableError,
formState
);
tag = 1;
true === isStrictMode && (tag |= 24);
isStrictMode = createFiberImplClass(3, null, null, tag);
containerInfo.current = isStrictMode;
isStrictMode.stateNode = containerInfo;
tag = createCache();
tag.refCount++;
containerInfo.pooledCache = tag;
tag.refCount++;
isStrictMode.memoizedState = {
element: initialChildren,
isDehydrated: hydrate,
cache: tag
};
initializeUpdateQueue(isStrictMode);
return containerInfo;
}
function getContextForSubtree(parentComponent) {
if (!parentComponent) return emptyContextObject;
parentComponent = emptyContextObject;
return parentComponent;
}
function updateContainerImpl(rootFiber, lane, element, container, parentComponent, callback) {
parentComponent = getContextForSubtree(parentComponent);
null === container.context ? container.context = parentComponent : container.pendingContext = parentComponent;
container = createUpdate(lane);
container.payload = { element };
callback = void 0 === callback ? null : callback;
null !== callback && (container.callback = callback);
element = enqueueUpdate(rootFiber, container, lane);
null !== element && (scheduleUpdateOnFiber(element, rootFiber, lane), entangleTransitions(element, rootFiber, lane));
}
function markRetryLaneImpl(fiber, retryLane) {
fiber = fiber.memoizedState;
if (null !== fiber && null !== fiber.dehydrated) {
var a = fiber.retryLane;
fiber.retryLane = 0 !== a && a < retryLane ? a : retryLane;
}
}
function markRetryLaneIfNotHydrated(fiber, retryLane) {
markRetryLaneImpl(fiber, retryLane);
(fiber = fiber.alternate) && markRetryLaneImpl(fiber, retryLane);
}
function attemptContinuousHydration(fiber) {
if (13 === fiber.tag) {
var root2 = enqueueConcurrentRenderForLane(fiber, 67108864);
null !== root2 && scheduleUpdateOnFiber(root2, fiber, 67108864);
markRetryLaneIfNotHydrated(fiber, 67108864);
}
}
var _enabled = true;
function dispatchDiscreteEvent(domEventName, eventSystemFlags, container, nativeEvent) {
var prevTransition = ReactSharedInternals.T;
ReactSharedInternals.T = null;
var previousPriority = ReactDOMSharedInternals.p;
try {
ReactDOMSharedInternals.p = 2, dispatchEvent(domEventName, eventSystemFlags, container, nativeEvent);
} finally {
ReactDOMSharedInternals.p = previousPriority, ReactSharedInternals.T = prevTransition;
}
}
function dispatchContinuousEvent(domEventName, eventSystemFlags, container, nativeEvent) {
var prevTransition = ReactSharedInternals.T;
ReactSharedInternals.T = null;
var previousPriority = ReactDOMSharedInternals.p;
try {
ReactDOMSharedInternals.p = 8, dispatchEvent(domEventName, eventSystemFlags, container, nativeEvent);
} finally {
ReactDOMSharedInternals.p = previousPriority, ReactSharedInternals.T = prevTransition;
}
}
function dispatchEvent(domEventName, eventSystemFlags, targetContainer, nativeEvent) {
if (_enabled) {
var blockedOn = findInstanceBlockingEvent(nativeEvent);
if (null === blockedOn)
dispatchEventForPluginEventSystem(
domEventName,
eventSystemFlags,
nativeEvent,
return_targetInst,
targetContainer
), clearIfContinuousEvent(domEventName, nativeEvent);
else if (queueIfContinuousEvent(
blockedOn,
domEventName,
eventSystemFlags,
targetContainer,
nativeEvent
))
nativeEvent.stopPropagation();
else if (clearIfContinuousEvent(domEventName, nativeEvent), eventSystemFlags & 4 && -1 < discreteReplayableEvents.indexOf(domEventName)) {
for (; null !== blockedOn; ) {
var fiber = getInstanceFromNode(blockedOn);
if (null !== fiber)
switch (fiber.tag) {
case 3:
fiber = fiber.stateNode;
if (fiber.current.memoizedState.isDehydrated) {
var lanes = getHighestPriorityLanes(fiber.pendingLanes);
if (0 !== lanes) {
var root2 = fiber;
root2.pendingLanes |= 2;
for (root2.entangledLanes |= 2; lanes; ) {
var lane = 1 << 31 - clz32(lanes);
root2.entanglements[1] |= lane;
lanes &= ~lane;
}
ensureRootIsScheduled(fiber);
0 === (executionContext & 6) && (workInProgressRootRenderTargetTime = now() + 500, flushSyncWorkAcrossRoots_impl(0));
}
}
break;
case 13:
root2 = enqueueConcurrentRenderForLane(fiber, 2), null !== root2 && scheduleUpdateOnFiber(root2, fiber, 2), flushSyncWork$1(), markRetryLaneIfNotHydrated(fiber, 2);
}
fiber = findInstanceBlockingEvent(nativeEvent);
null === fiber && dispatchEventForPluginEventSystem(
domEventName,
eventSystemFlags,
nativeEvent,
return_targetInst,
targetContainer
);
if (fiber === blockedOn) break;
blockedOn = fiber;
}
null !== blockedOn && nativeEvent.stopPropagation();
} else
dispatchEventForPluginEventSystem(
domEventName,
eventSystemFlags,
nativeEvent,
null,
targetContainer
);
}
}
function findInstanceBlockingEvent(nativeEvent) {
nativeEvent = getEventTarget(nativeEvent);
return findInstanceBlockingTarget(nativeEvent);
}
var return_targetInst = null;
function findInstanceBlockingTarget(targetNode) {
return_targetInst = null;
targetNode = getClosestInstanceFromNode(targetNode);
if (null !== targetNode) {
var nearestMounted = getNearestMountedFiber(targetNode);
if (null === nearestMounted) targetNode = null;
else {
var tag = nearestMounted.tag;
if (13 === tag) {
targetNode = getSuspenseInstanceFromFiber(nearestMounted);
if (null !== targetNode) return targetNode;
targetNode = null;
} else if (3 === tag) {
if (nearestMounted.stateNode.current.memoizedState.isDehydrated)
return 3 === nearestMounted.tag ? nearestMounted.stateNode.containerInfo : null;
targetNode = null;
} else nearestMounted !== targetNode && (targetNode = null);
}
}
return_targetInst = targetNode;
return null;
}
function getEventPriority(domEventName) {
switch (domEventName) {
case "beforetoggle":
case "cancel":
case "click":
case "close":
case "contextmenu":
case "copy":
case "cut":
case "auxclick":
case "dblclick":
case "dragend":
case "dragstart":
case "drop":
case "focusin":
case "focusout":
case "input":
case "invalid":
case "keydown":
case "keypress":
case "keyup":
case "mousedown":
case "mouseup":
case "paste":
case "pause":
case "play":
case "pointercancel":
case "pointerdown":
case "pointerup":
case "ratechange":
case "reset":
case "resize":
case "seeked":
case "submit":
case "toggle":
case "touchcancel":
case "touchend":
case "touchstart":
case "volumechange":
case "change":
case "selectionchange":
case "textInput":
case "compositionstart":
case "compositionend":
case "compositionupdate":
case "beforeblur":
case "afterblur":
case "beforeinput":
case "blur":
case "fullscreenchange":
case "focus":
case "hashchange":
case "popstate":
case "select":
case "selectstart":
return 2;
case "drag":
case "dragenter":
case "dragexit":
case "dragleave":
case "dragover":
case "mousemove":
case "mouseout":
case "mouseover":
case "pointermove":
case "pointerout":
case "pointerover":
case "scroll":
case "touchmove":
case "wheel":
case "mouseenter":
case "mouseleave":
case "pointerenter":
case "pointerleave":
return 8;
case "message":
switch (getCurrentPriorityLevel()) {
case ImmediatePriority:
return 2;
case UserBlockingPriority:
return 8;
case NormalPriority$1:
case LowPriority:
return 32;
case IdlePriority:
return 268435456;
default:
return 32;
}
default:
return 32;
}
}
var hasScheduledReplayAttempt = false, queuedFocus = null, queuedDrag = null, queuedMouse = null, queuedPointers = /* @__PURE__ */ new Map(), queuedPointerCaptures = /* @__PURE__ */ new Map(), queuedExplicitHydrationTargets = [], discreteReplayableEvents = "mousedown mouseup touchcancel touchend touchstart auxclick dblclick pointercancel pointerdown pointerup dragend dragstart drop compositionend compositionstart keydown keypress keyup input textInput copy cut paste click change contextmenu reset".split(
" "
);
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":
queuedPointers.delete(nativeEvent.pointerId);
break;
case "gotpointercapture":
case "lostpointercapture":
queuedPointerCaptures.delete(nativeEvent.pointerId);
}
}
function accumulateOrCreateContinuousQueuedReplayableEvent(existingQueuedEvent, blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
if (null === existingQueuedEvent || existingQueuedEvent.nativeEvent !== nativeEvent)
return existingQueuedEvent = {
blockedOn,
domEventName,
eventSystemFlags,
nativeEvent,
targetContainers: [targetContainer]
}, null !== blockedOn && (blockedOn = getInstanceFromNode(blockedOn), null !== blockedOn && attemptContinuousHydration(blockedOn)), existingQueuedEvent;
existingQueuedEvent.eventSystemFlags |= eventSystemFlags;
blockedOn = existingQueuedEvent.targetContainers;
null !== targetContainer && -1 === blockedOn.indexOf(targetContainer) && blockedOn.push(targetContainer);
return existingQueuedEvent;
}
function queueIfContinuousEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
switch (domEventName) {
case "focusin":
return queuedFocus = accumulateOrCreateContinuousQueuedReplayableEvent(
queuedFocus,
blockedOn,
domEventName,
eventSystemFlags,
targetContainer,
nativeEvent
), true;
case "dragenter":
return queuedDrag = accumulateOrCreateContinuousQueuedReplayableEvent(
queuedDrag,
blockedOn,
domEventName,
eventSystemFlags,
targetContainer,
nativeEvent
), true;
case "mouseover":
return queuedMouse = accumulateOrCreateContinuousQueuedReplayableEvent(
queuedMouse,
blockedOn,
domEventName,
eventSystemFlags,
targetContainer,
nativeEvent
), true;
case "pointerover":
var pointerId = nativeEvent.pointerId;
queuedPointers.set(
pointerId,
accumulateOrCreateContinuousQueuedReplayableEvent(
queuedPointers.get(pointerId) || null,
blockedOn,
domEventName,
eventSystemFlags,
targetContainer,
nativeEvent
)
);
return true;
case "gotpointercapture":
return pointerId = nativeEvent.pointerId, queuedPointerCaptures.set(
pointerId,
accumulateOrCreateContinuousQueuedReplayableEvent(
queuedPointerCaptures.get(pointerId) || null,
blockedOn,
domEventName,
eventSystemFlags,
targetContainer,
nativeEvent
)
), true;
}
return false;
}
function attemptExplicitHydrationTarget(queuedTarget) {
var targetInst = getClosestInstanceFromNode(queuedTarget.target);
if (null !== targetInst) {
var nearestMounted = getNearestMountedFiber(targetInst);
if (null !== nearestMounted) {
if (targetInst = nearestMounted.tag, 13 === targetInst) {
if (targetInst = getSuspenseInstanceFromFiber(nearestMounted), null !== targetInst) {
queuedTarget.blockedOn = targetInst;
runWithPriority(queuedTarget.priority, function() {
if (13 === nearestMounted.tag) {
var lane = requestUpdateLane();
lane = getBumpedLaneForHydrationByLane(lane);
var root2 = enqueueConcurrentRenderForLane(nearestMounted, lane);
null !== root2 && scheduleUpdateOnFiber(root2, nearestMounted, lane);
markRetryLaneIfNotHydrated(nearestMounted, lane);
}
});
return;
}
} else if (3 === targetInst && nearestMounted.stateNode.current.memoizedState.isDehydrated) {
queuedTarget.blockedOn = 3 === nearestMounted.tag ? nearestMounted.stateNode.containerInfo : null;
return;
}
}
}
queuedTarget.blockedOn = null;
}
function attemptReplayContinuousQueuedEvent(queuedEvent) {
if (null !== queuedEvent.blockedOn) return false;
for (var targetContainers = queuedEvent.targetContainers; 0 < targetContainers.length; ) {
var nextBlockedOn = findInstanceBlockingEvent(queuedEvent.nativeEvent);
if (null === nextBlockedOn) {
nextBlockedOn = queuedEvent.nativeEvent;
var nativeEventClone = new nextBlockedOn.constructor(
nextBlockedOn.type,
nextBlockedOn
);
currentReplayingEvent = nativeEventClone;
nextBlockedOn.target.dispatchEvent(nativeEventClone);
currentReplayingEvent = null;
} else
return targetContainers = getInstanceFromNode(nextBlockedOn), null !== targetContainers && attemptContinuousHydration(targetContainers), queuedEvent.blockedOn = nextBlockedOn, false;
targetContainers.shift();
}
return true;
}
function attemptReplayContinuousQueuedEventInMap(queuedEvent, key, map) {
attemptReplayContinuousQueuedEvent(queuedEvent) && map.delete(key);
}
function replayUnblockedEvents() {
hasScheduledReplayAttempt = false;
null !== queuedFocus && attemptReplayContinuousQueuedEvent(queuedFocus) && (queuedFocus = null);
null !== queuedDrag && attemptReplayContinuousQueuedEvent(queuedDrag) && (queuedDrag = null);
null !== queuedMouse && attemptReplayContinuousQueuedEvent(queuedMouse) && (queuedMouse = null);
queuedPointers.forEach(attemptReplayContinuousQueuedEventInMap);
queuedPointerCaptures.forEach(attemptReplayContinuousQueuedEventInMap);
}
function scheduleCallbackIfUnblocked(queuedEvent, unblocked) {
queuedEvent.blockedOn === unblocked && (queuedEvent.blockedOn = null, hasScheduledReplayAttempt || (hasScheduledReplayAttempt = true, Scheduler.unstable_scheduleCallback(
Scheduler.unstable_NormalPriority,
replayUnblockedEvents
)));
}
var lastScheduledReplayQueue = null;
function scheduleReplayQueueIfNeeded(formReplayingQueue) {
lastScheduledReplayQueue !== formReplayingQueue && (lastScheduledReplayQueue = formReplayingQueue, Scheduler.unstable_scheduleCallback(
Scheduler.unstable_NormalPriority,
function() {
lastScheduledReplayQueue === formReplayingQueue && (lastScheduledReplayQueue = null);
for (var i = 0; i < formReplayingQueue.length; i += 3) {
var form = formReplayingQueue[i], submitterOrAction = formReplayingQueue[i + 1], formData = formReplayingQueue[i + 2];
if ("function" !== typeof submitterOrAction)
if (null === findInstanceBlockingTarget(submitterOrAction || form))
continue;
else break;
var formInst = getInstanceFromNode(form);
null !== formInst && (formReplayingQueue.splice(i, 3), i -= 3, startHostTransition(
formInst,
{
pending: true,
data: formData,
method: form.method,
action: submitterOrAction
},
submitterOrAction,
formData
));
}
}
));
}
function retryIfBlockedOn(unblocked) {
function unblock(queuedEvent) {
return scheduleCallbackIfUnblocked(queuedEvent, unblocked);
}
null !== queuedFocus && scheduleCallbackIfUnblocked(queuedFocus, unblocked);
null !== queuedDrag && scheduleCallbackIfUnblocked(queuedDrag, unblocked);
null !== queuedMouse && scheduleCallbackIfUnblocked(queuedMouse, unblocked);
queuedPointers.forEach(unblock);
queuedPointerCaptures.forEach(unblock);
for (var i = 0; i < queuedExplicitHydrationTargets.length; i++) {
var queuedTarget = queuedExplicitHydrationTargets[i];
queuedTarget.blockedOn === unblocked && (queuedTarget.blockedOn = null);
}
for (; 0 < queuedExplicitHydrationTargets.length && (i = queuedExplicitHydrationTargets[0], null === i.blockedOn); )
attemptExplicitHydrationTarget(i), null === i.blockedOn && queuedExplicitHydrationTargets.shift();
i = (unblocked.ownerDocument || unblocked).$$reactFormReplay;
if (null != i)
for (queuedTarget = 0; queuedTarget < i.length; queuedTarget += 3) {
var form = i[queuedTarget], submitterOrAction = i[queuedTarget + 1], formProps = form[internalPropsKey] || null;
if ("function" === typeof submitterOrAction)
formProps || scheduleReplayQueueIfNeeded(i);
else if (formProps) {
var action = null;
if (submitterOrAction && submitterOrAction.hasAttribute("formAction"))
if (form = submitterOrAction, formProps = submitterOrAction[internalPropsKey] || null)
action = formProps.formAction;
else {
if (null !== findInstanceBlockingTarget(form)) continue;
}
else action = formProps.action;
"function" === typeof action ? i[queuedTarget + 1] = action : (i.splice(queuedTarget, 3), queuedTarget -= 3);
scheduleReplayQueueIfNeeded(i);
}
}
}
function ReactDOMRoot(internalRoot) {
this._internalRoot = internalRoot;
}
ReactDOMHydrationRoot.prototype.render = ReactDOMRoot.prototype.render = function(children) {
var root2 = this._internalRoot;
if (null === root2) throw Error(formatProdErrorMessage(409));
var current = root2.current, lane = requestUpdateLane();
updateContainerImpl(current, lane, children, root2, null, null);
};
ReactDOMHydrationRoot.prototype.unmount = ReactDOMRoot.prototype.unmount = function() {
var root2 = this._internalRoot;
if (null !== root2) {
this._internalRoot = null;
var container = root2.containerInfo;
updateContainerImpl(root2.current, 2, null, root2, null, null);
flushSyncWork$1();
container[internalContainerInstanceKey] = null;
}
};
function ReactDOMHydrationRoot(internalRoot) {
this._internalRoot = internalRoot;
}
ReactDOMHydrationRoot.prototype.unstable_scheduleHydration = function(target) {
if (target) {
var updatePriority = resolveUpdatePriority();
target = { blockedOn: null, target, priority: updatePriority };
for (var i = 0; i < queuedExplicitHydrationTargets.length && 0 !== updatePriority && updatePriority < queuedExplicitHydrationTargets[i].priority; i++) ;
queuedExplicitHydrationTargets.splice(i, 0, target);
0 === i && attemptExplicitHydrationTarget(target);
}
};
var isomorphicReactPackageVersion$jscomp$inline_1785 = React2.version;
if ("19.1.1" !== isomorphicReactPackageVersion$jscomp$inline_1785)
throw Error(
formatProdErrorMessage(
527,
isomorphicReactPackageVersion$jscomp$inline_1785,
"19.1.1"
)
);
ReactDOMSharedInternals.findDOMNode = function(componentOrElement) {
var fiber = componentOrElement._reactInternals;
if (void 0 === fiber) {
if ("function" === typeof componentOrElement.render)
throw Error(formatProdErrorMessage(188));
componentOrElement = Object.keys(componentOrElement).join(",");
throw Error(formatProdErrorMessage(268, componentOrElement));
}
componentOrElement = findCurrentFiberUsingSlowPath(fiber);
componentOrElement = null !== componentOrElement ? findCurrentHostFiberImpl(componentOrElement) : null;
componentOrElement = null === componentOrElement ? null : componentOrElement.stateNode;
return componentOrElement;
};
var internals$jscomp$inline_2256 = {
bundleType: 0,
version: "19.1.1",
rendererPackageName: "react-dom",
currentDispatcherRef: ReactSharedInternals,
reconcilerVersion: "19.1.1"
};
if ("undefined" !== typeof __REACT_DEVTOOLS_GLOBAL_HOOK__) {
var hook$jscomp$inline_2257 = __REACT_DEVTOOLS_GLOBAL_HOOK__;
if (!hook$jscomp$inline_2257.isDisabled && hook$jscomp$inline_2257.supportsFiber)
try {
rendererID = hook$jscomp$inline_2257.inject(
internals$jscomp$inline_2256
), injectedHook = hook$jscomp$inline_2257;
} catch (err) {
}
}
reactDomClient_production.createRoot = function(container, options2) {
if (!isValidContainer(container)) throw Error(formatProdErrorMessage(299));
var isStrictMode = false, identifierPrefix = "", onUncaughtError = defaultOnUncaughtError, onCaughtError = defaultOnCaughtError, onRecoverableError = defaultOnRecoverableError, transitionCallbacks = null;
null !== options2 && void 0 !== options2 && (true === options2.unstable_strictMode && (isStrictMode = true), void 0 !== options2.identifierPrefix && (identifierPrefix = options2.identifierPrefix), void 0 !== options2.onUncaughtError && (onUncaughtError = options2.onUncaughtError), void 0 !== options2.onCaughtError && (onCaughtError = options2.onCaughtError), void 0 !== options2.onRecoverableError && (onRecoverableError = options2.onRecoverableError), void 0 !== options2.unstable_transitionCallbacks && (transitionCallbacks = options2.unstable_transitionCallbacks));
options2 = createFiberRoot(
container,
1,
false,
null,
null,
isStrictMode,
identifierPrefix,
onUncaughtError,
onCaughtError,
onRecoverableError,
transitionCallbacks,
null
);
container[internalContainerInstanceKey] = options2.current;
listenToAllSupportedEvents(container);
return new ReactDOMRoot(options2);
};
reactDomClient_production.hydrateRoot = function(container, initialChildren, options2) {
if (!isValidContainer(container)) throw Error(formatProdErrorMessage(299));
var isStrictMode = false, identifierPrefix = "", onUncaughtError = defaultOnUncaughtError, onCaughtError = defaultOnCaughtError, onRecoverableError = defaultOnRecoverableError, transitionCallbacks = null, formState = null;
null !== options2 && void 0 !== options2 && (true === options2.unstable_strictMode && (isStrictMode = true), void 0 !== options2.identifierPrefix && (identifierPrefix = options2.identifierPrefix), void 0 !== options2.onUncaughtError && (onUncaughtError = options2.onUncaughtError), void 0 !== options2.onCaughtError && (onCaughtError = options2.onCaughtError), void 0 !== options2.onRecoverableError && (onRecoverableError = options2.onRecoverableError), void 0 !== options2.unstable_transitionCallbacks && (transitionCallbacks = options2.unstable_transitionCallbacks), void 0 !== options2.formState && (formState = options2.formState));
initialChildren = createFiberRoot(
container,
1,
true,
initialChildren,
null != options2 ? options2 : null,
isStrictMode,
identifierPrefix,
onUncaughtError,
onCaughtError,
onRecoverableError,
transitionCallbacks,
formState
);
initialChildren.context = getContextForSubtree(null);
options2 = initialChildren.current;
isStrictMode = requestUpdateLane();
isStrictMode = getBumpedLaneForHydrationByLane(isStrictMode);
identifierPrefix = createUpdate(isStrictMode);
identifierPrefix.callback = null;
enqueueUpdate(options2, identifierPrefix, isStrictMode);
options2 = isStrictMode;
initialChildren.current.lanes = options2;
markRootUpdated$1(initialChildren, options2);
ensureRootIsScheduled(initialChildren);
container[internalContainerInstanceKey] = initialChildren.current;
listenToAllSupportedEvents(container);
return new ReactDOMHydrationRoot(initialChildren);
};
reactDomClient_production.version = "19.1.1";
return reactDomClient_production;
}
var hasRequiredClient;
function requireClient() {
if (hasRequiredClient) return client.exports;
hasRequiredClient = 1;
function checkDCE() {
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ === "undefined" || typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.checkDCE !== "function") {
return;
}
try {
__REACT_DEVTOOLS_GLOBAL_HOOK__.checkDCE(checkDCE);
} catch (err) {
console.error(err);
}
}
{
checkDCE();
client.exports = requireReactDomClient_production();
}
return client.exports;
}
var clientExports = requireClient();
function addLocationChangeCallback(callback) {
window.setTimeout(callback, 0);
let oldHref = window.location.href;
const body = document.querySelector("body");
const observer = new MutationObserver((mutations) => {
if (mutations.some(() => oldHref !== document.location.href)) {
oldHref = document.location.href;
callback();
}
});
observer.observe(body, { childList: true, subtree: true });
return observer;
}
function log(...args) {
console.log("%cTemplate Manager:", "color: purple; font-weight: bold", ...args);
}
async function awaitElement(selector) {
const MAX_TRIES = 60;
let tries = 0;
return new Promise((resolve, reject) => {
function probe() {
tries++;
return document.querySelector(selector);
}
function delayedProbe() {
if (tries >= MAX_TRIES) {
log("Can't find element with selector", selector);
reject();
return;
}
const elm = probe();
if (elm) {
resolve(elm);
return;
}
window.setTimeout(delayedProbe, 250);
}
delayedProbe();
});
}
const RouteContext = reactExports.createContext({
route: null,
params: {},
setRoute: (route) => {
},
routeNodes: /* @__PURE__ */ new Map()
});
const RouteProvider = ({
children,
routes: routes2
}) => {
const [route, setRoute] = reactExports.useState(null);
const [params, setParams] = reactExports.useState({});
const matchRoute = (path) => {
const pathSegments = path.split("/").filter(Boolean);
for (const [routePath, _] of routes2) {
const routeSegments = routePath.split("/").filter(Boolean);
if (pathSegments.length !== routeSegments.length) {
continue;
}
const extractedParams = {};
let isMatch = true;
for (let i = 0; i < routeSegments.length; i++) {
const routeSegment = routeSegments[i];
const pathSegment = pathSegments[i];
if (routeSegment.startsWith("{") && routeSegment.endsWith("}")) {
const paramName = routeSegment.slice(1, -1);
extractedParams[paramName] = pathSegment;
} else if (routeSegment !== pathSegment) {
isMatch = false;
break;
}
}
if (isMatch) {
return [routePath, extractedParams];
}
}
return null;
};
reactExports.useEffect(() => {
setRoute(routes2.get("/"));
}, [routes2]);
const setRouteAction = (route2) => {
if (route2 === "/") {
setRoute(routes2.get("/"));
setParams({});
return;
}
const match = matchRoute(route2);
if (match) {
const [routePath, extractedParams] = match;
setRoute(routes2.get(routePath));
setParams(extractedParams);
} else {
setRoute(null);
setParams({});
}
};
return /* @__PURE__ */ React.createElement(
RouteContext.Provider,
{
value: { route, setRoute: setRouteAction, params, routeNodes: routes2 }
},
children
);
};
const Outlet = () => {
const { route } = reactExports.useContext(RouteContext);
return /* @__PURE__ */ React.createElement(React.Fragment, null, route);
};
const useNavigate = () => {
const { setRoute } = reactExports.useContext(RouteContext);
return (route) => {
setRoute(route);
};
};
const Location = (props) => {
return /* @__PURE__ */ React.createElement(
"svg",
{
...props,
width: "800px",
height: "800px",
viewBox: "0 0 16 16",
xmlns: "http://www.w3.org/2000/svg"
},
/* @__PURE__ */ React.createElement(
"path",
{
fill: "#000000",
d: "M8,0 C11.3137,0 14,2.68629 14,6 C14,7.33918 13.5613,8.57588 12.8197,9.57422 L7.99994,16 L3.1803,9.57422 C2.43873,8.57588 2,7.33918 2,6 C2,2.68629 4.68629,0 8,0 Z M8,2 C5.79086,2 4,3.79086 4,6 C4,6.89363 4.29068,7.71358 4.78334,8.37826 L7.99996,12.6668 L11.2167,8.37817 C11.7093,7.71351 12,6.89359 12,6 C12,3.79086 10.2091,2 8,2 Z M8,4 C9.10457,4 10,4.89543 10,6 C10,7.10457 9.10457,8 8,8 C6.89543,8 6,7.10457 6,6 C6,4.89543 6.89543,4 8,4 Z"
}
)
);
};
const Cog = (props) => {
return /* @__PURE__ */ React.createElement(
"svg",
{
...props,
fill: "#000000",
width: "800px",
height: "800px",
viewBox: "0 0 32 32",
version: "1.1",
xmlns: "http://www.w3.org/2000/svg"
},
/* @__PURE__ */ React.createElement("title", null, "cog"),
/* @__PURE__ */ React.createElement("path", { d: "M0 16q0-0.832 0.576-1.408t1.44-0.576h1.984q0.032 0 0.064 0t0.064 0.032 0.064 0q0.448-2.72 2.080-4.992-0.128-0.064-0.16-0.096l-1.408-1.44q-0.608-0.576-0.608-1.408t0.608-1.408 1.408-0.608 1.408 0.608l1.408 1.408q0.032 0.032 0.096 0.16 2.304-1.632 5.024-2.048 0-0.032-0.032-0.096t0-0.128v-1.984q0-0.832 0.576-1.408t1.408-0.608 1.408 0.608 0.608 1.408v1.984q0 0.032-0.032 0.096t0 0.128q2.72 0.416 4.992 2.048 0.064-0.128 0.096-0.16l1.408-1.408q0.576-0.608 1.408-0.608t1.44 0.608 0.576 1.408-0.576 1.408l-1.408 1.408q-0.064 0.064-0.192 0.128 1.632 2.272 2.080 4.992 0.032 0 0.096 0t0.096-0.032h2.016q0.8 0 1.408 0.576t0.576 1.408-0.576 1.44-1.408 0.576h-2.016q-0.032 0-0.096-0.032t-0.096-0.032q-0.448 2.752-2.080 5.024 0.128 0.064 0.192 0.128l1.408 1.408q0.576 0.576 0.576 1.376t-0.576 1.44-1.44 0.576-1.408-0.576l-1.408-1.408q-0.032-0.064-0.096-0.16-2.272 1.6-4.992 2.048 0 0.032 0 0.096t0.032 0.096v2.016q0 0.832-0.608 1.408t-1.408 0.576-1.408-0.576-0.576-1.408v-2.016q0-0.032 0-0.096t0.032-0.096q-2.72-0.448-5.024-2.048-0.064 0.128-0.096 0.16l-1.408 1.408q-0.576 0.576-1.408 0.576t-1.408-0.576-0.608-1.44 0.608-1.376l1.408-1.408q0.064-0.064 0.16-0.128-1.632-2.272-2.080-5.024 0 0-0.064 0.032t-0.128 0.032h-1.984q-0.832 0-1.44-0.576t-0.576-1.44zM8 16q0 3.328 2.336 5.664t5.664 2.336 5.664-2.336 2.336-5.664-2.336-5.632-5.664-2.368-5.664 2.368-2.336 5.632z" })
);
};
const OverlayListEntry = ({ name, image, chunk, position }) => {
const navigate = useNavigate();
const imgRef = reactExports.useRef(null);
reactExports.useEffect(() => {
if (!imgRef.current) return;
imgRef.current.src = "data:image/bmp;base64," + image;
}, [image]);
return /* @__PURE__ */ React.createElement("tr", null, /* @__PURE__ */ React.createElement("td", { className: "groupRow" }, /* @__PURE__ */ React.createElement("img", { ref: imgRef, alt: "logo", style: { width: "2.5rem" } }), /* @__PURE__ */ React.createElement("span", null, " ", name, " ")), /* @__PURE__ */ React.createElement(
"td",
{
className: "groupRow coordinates",
style: { flexGrow: 1, justifyContent: "flex-end" }
},
/* @__PURE__ */ React.createElement("span", { className: "btn btn-sm coordinate-display" }, " ", chunk[0], " "),
/* @__PURE__ */ React.createElement("span", { className: "btn btn-sm coordinate-display" }, " ", chunk[1], " "),
/* @__PURE__ */ React.createElement("span", { className: "btn btn-sm coordinate-display" }, " ", position[0], " "),
/* @__PURE__ */ React.createElement("span", { className: "btn btn-sm coordinate-display" }, " ", position[1], " ")
), /* @__PURE__ */ React.createElement("td", { className: "groupRow", style: { gap: "2rem" } }, /* @__PURE__ */ React.createElement("button", { onClick: () => navigate("/edit/" + name) }, /* @__PURE__ */ React.createElement(Cog, { className: "icon" })), /* @__PURE__ */ React.createElement(
"button",
{
onClick: () => {
window.postMessage({
source: "overlay-location-service",
chunk,
position
});
awaitElement("button[title='Explore']").then((button) => {
button.dispatchEvent(
new Event("click", { bubbles: true, cancelable: true })
);
});
}
},
/* @__PURE__ */ React.createElement(Location, { className: "icon" })
)));
};
const __vite_import_meta_env__$3 = {};
const isSelfAtom = (atom2, a) => atom2.unstable_is ? atom2.unstable_is(a) : a === atom2;
const hasInitialValue = (atom2) => "init" in atom2;
const isActuallyWritableAtom = (atom2) => !!atom2.write;
const isAtomStateInitialized = (atomState) => "v" in atomState || "e" in atomState;
const returnAtomValue = (atomState) => {
if ("e" in atomState) {
throw atomState.e;
}
if ((__vite_import_meta_env__$3 ? "production" : void 0) !== "production" && !("v" in atomState)) {
throw new Error("[Bug] atom state is not initialized");
}
return atomState.v;
};
const promiseStateMap = /* @__PURE__ */ new WeakMap();
const isPendingPromise = (value) => {
var _a;
return isPromiseLike$1(value) && !!((_a = promiseStateMap.get(value)) == null ? void 0 : _a[0]);
};
const abortPromise = (promise) => {
const promiseState = promiseStateMap.get(promise);
if (promiseState == null ? void 0 : promiseState[0]) {
promiseState[0] = false;
promiseState[1].forEach((fn) => fn());
}
};
const registerAbortHandler = (promise, abortHandler) => {
let promiseState = promiseStateMap.get(promise);
if (!promiseState) {
promiseState = [true, /* @__PURE__ */ new Set()];
promiseStateMap.set(promise, promiseState);
const settle = () => {
promiseState[0] = false;
};
promise.then(settle, settle);
}
promiseState[1].add(abortHandler);
};
const isPromiseLike$1 = (p) => typeof (p == null ? void 0 : p.then) === "function";
const addPendingPromiseToDependency = (atom2, promise, dependencyAtomState) => {
if (!dependencyAtomState.p.has(atom2)) {
dependencyAtomState.p.add(atom2);
promise.then(
() => {
dependencyAtomState.p.delete(atom2);
},
() => {
dependencyAtomState.p.delete(atom2);
}
);
}
};
const setAtomStateValueOrPromise = (atom2, valueOrPromise, ensureAtomState) => {
const atomState = ensureAtomState(atom2);
const hasPrevValue = "v" in atomState;
const prevValue = atomState.v;
if (isPromiseLike$1(valueOrPromise)) {
for (const a of atomState.d.keys()) {
addPendingPromiseToDependency(atom2, valueOrPromise, ensureAtomState(a));
}
}
atomState.v = valueOrPromise;
delete atomState.e;
if (!hasPrevValue || !Object.is(prevValue, atomState.v)) {
++atomState.n;
if (isPromiseLike$1(prevValue)) {
abortPromise(prevValue);
}
}
};
const getMountedOrPendingDependents = (atom2, atomState, mountedMap) => {
var _a;
const dependents = /* @__PURE__ */ new Set();
for (const a of ((_a = mountedMap.get(atom2)) == null ? void 0 : _a.t) || []) {
if (mountedMap.has(a)) {
dependents.add(a);
}
}
for (const atomWithPendingPromise of atomState.p) {
dependents.add(atomWithPendingPromise);
}
return dependents;
};
const BUILDING_BLOCKS = Symbol();
const buildStore = (atomStateMap = /* @__PURE__ */ new WeakMap(), mountedMap = /* @__PURE__ */ new WeakMap(), invalidatedAtoms = /* @__PURE__ */ new WeakMap(), changedAtoms = /* @__PURE__ */ new Set(), mountCallbacks = /* @__PURE__ */ new Set(), unmountCallbacks = /* @__PURE__ */ new Set(), storeHooks = {}, atomRead = (atom2, ...params) => atom2.read(...params), atomWrite = (atom2, ...params) => atom2.write(...params), atomOnInit = (atom2, store) => {
var _a;
return (_a = atom2.unstable_onInit) == null ? void 0 : _a.call(atom2, store);
}, atomOnMount = (atom2, setAtom) => {
var _a;
return (_a = atom2.onMount) == null ? void 0 : _a.call(atom2, setAtom);
}, ...buildingBlockFunctions) => {
const ensureAtomState = buildingBlockFunctions[0] || ((atom2) => {
if ((__vite_import_meta_env__$3 ? "production" : void 0) !== "production" && !atom2) {
throw new Error("Atom is undefined or null");
}
let atomState = atomStateMap.get(atom2);
if (!atomState) {
atomState = { d: /* @__PURE__ */ new Map(), p: /* @__PURE__ */ new Set(), n: 0 };
atomStateMap.set(atom2, atomState);
atomOnInit == null ? void 0 : atomOnInit(atom2, store);
}
return atomState;
});
const flushCallbacks = buildingBlockFunctions[1] || (() => {
const errors = [];
const call = (fn) => {
try {
fn();
} catch (e) {
errors.push(e);
}
};
do {
if (storeHooks.f) {
call(storeHooks.f);
}
const callbacks = /* @__PURE__ */ new Set();
const add = callbacks.add.bind(callbacks);
changedAtoms.forEach((atom2) => {
var _a;
return (_a = mountedMap.get(atom2)) == null ? void 0 : _a.l.forEach(add);
});
changedAtoms.clear();
unmountCallbacks.forEach(add);
unmountCallbacks.clear();
mountCallbacks.forEach(add);
mountCallbacks.clear();
callbacks.forEach(call);
if (changedAtoms.size) {
recomputeInvalidatedAtoms();
}
} while (changedAtoms.size || unmountCallbacks.size || mountCallbacks.size);
if (errors.length) {
throw new AggregateError(errors);
}
});
const recomputeInvalidatedAtoms = buildingBlockFunctions[2] || (() => {
const topSortedReversed = [];
const visiting = /* @__PURE__ */ new WeakSet();
const visited = /* @__PURE__ */ new WeakSet();
const stack = Array.from(changedAtoms);
while (stack.length) {
const a = stack[stack.length - 1];
const aState = ensureAtomState(a);
if (visited.has(a)) {
stack.pop();
continue;
}
if (visiting.has(a)) {
if (invalidatedAtoms.get(a) === aState.n) {
topSortedReversed.push([a, aState]);
} else if ((__vite_import_meta_env__$3 ? "production" : void 0) !== "production" && invalidatedAtoms.has(a)) {
throw new Error("[Bug] invalidated atom exists");
}
visited.add(a);
stack.pop();
continue;
}
visiting.add(a);
for (const d of getMountedOrPendingDependents(a, aState, mountedMap)) {
if (!visiting.has(d)) {
stack.push(d);
}
}
}
for (let i = topSortedReversed.length - 1; i >= 0; --i) {
const [a, aState] = topSortedReversed[i];
let hasChangedDeps = false;
for (const dep of aState.d.keys()) {
if (dep !== a && changedAtoms.has(dep)) {
hasChangedDeps = true;
break;
}
}
if (hasChangedDeps) {
readAtomState(a);
mountDependencies(a);
}
invalidatedAtoms.delete(a);
}
});
const readAtomState = buildingBlockFunctions[3] || ((atom2) => {
var _a;
const atomState = ensureAtomState(atom2);
if (isAtomStateInitialized(atomState)) {
if (mountedMap.has(atom2) && invalidatedAtoms.get(atom2) !== atomState.n) {
return atomState;
}
if (Array.from(atomState.d).every(
([a, n]) => (
// Recursively, read the atom state of the dependency, and
// check if the atom epoch number is unchanged
readAtomState(a).n === n
)
)) {
return atomState;
}
}
atomState.d.clear();
let isSync = true;
const mountDependenciesIfAsync = () => {
if (mountedMap.has(atom2)) {
mountDependencies(atom2);
recomputeInvalidatedAtoms();
flushCallbacks();
}
};
const getter = (a) => {
var _a2;
if (isSelfAtom(atom2, a)) {
const aState2 = ensureAtomState(a);
if (!isAtomStateInitialized(aState2)) {
if (hasInitialValue(a)) {
setAtomStateValueOrPromise(a, a.init, ensureAtomState);
} else {
throw new Error("no atom init");
}
}
return returnAtomValue(aState2);
}
const aState = readAtomState(a);
try {
return returnAtomValue(aState);
} finally {
atomState.d.set(a, aState.n);
if (isPendingPromise(atomState.v)) {
addPendingPromiseToDependency(atom2, atomState.v, aState);
}
(_a2 = mountedMap.get(a)) == null ? void 0 : _a2.t.add(atom2);
if (!isSync) {
mountDependenciesIfAsync();
}
}
};
let controller;
let setSelf;
const options = {
get signal() {
if (!controller) {
controller = new AbortController();
}
return controller.signal;
},
get setSelf() {
if ((__vite_import_meta_env__$3 ? "production" : void 0) !== "production" && !isActuallyWritableAtom(atom2)) {
console.warn("setSelf function cannot be used with read-only atom");
}
if (!setSelf && isActuallyWritableAtom(atom2)) {
setSelf = (...args) => {
if ((__vite_import_meta_env__$3 ? "production" : void 0) !== "production" && isSync) {
console.warn("setSelf function cannot be called in sync");
}
if (!isSync) {
try {
return writeAtomState(atom2, ...args);
} finally {
recomputeInvalidatedAtoms();
flushCallbacks();
}
}
};
}
return setSelf;
}
};
const prevEpochNumber = atomState.n;
try {
const valueOrPromise = atomRead(atom2, getter, options);
setAtomStateValueOrPromise(atom2, valueOrPromise, ensureAtomState);
if (isPromiseLike$1(valueOrPromise)) {
registerAbortHandler(valueOrPromise, () => controller == null ? void 0 : controller.abort());
valueOrPromise.then(
mountDependenciesIfAsync,
mountDependenciesIfAsync
);
}
return atomState;
} catch (error) {
delete atomState.v;
atomState.e = error;
++atomState.n;
return atomState;
} finally {
isSync = false;
if (prevEpochNumber !== atomState.n && invalidatedAtoms.get(atom2) === prevEpochNumber) {
invalidatedAtoms.set(atom2, atomState.n);
changedAtoms.add(atom2);
(_a = storeHooks.c) == null ? void 0 : _a.call(storeHooks, atom2);
}
}
});
const invalidateDependents = buildingBlockFunctions[4] || ((atom2) => {
const stack = [atom2];
while (stack.length) {
const a = stack.pop();
const aState = ensureAtomState(a);
for (const d of getMountedOrPendingDependents(a, aState, mountedMap)) {
const dState = ensureAtomState(d);
invalidatedAtoms.set(d, dState.n);
stack.push(d);
}
}
});
const writeAtomState = buildingBlockFunctions[5] || ((atom2, ...args) => {
let isSync = true;
const getter = (a) => returnAtomValue(readAtomState(a));
const setter = (a, ...args2) => {
var _a;
const aState = ensureAtomState(a);
try {
if (isSelfAtom(atom2, a)) {
if (!hasInitialValue(a)) {
throw new Error("atom not writable");
}
const prevEpochNumber = aState.n;
const v = args2[0];
setAtomStateValueOrPromise(a, v, ensureAtomState);
mountDependencies(a);
if (prevEpochNumber !== aState.n) {
changedAtoms.add(a);
(_a = storeHooks.c) == null ? void 0 : _a.call(storeHooks, a);
invalidateDependents(a);
}
return void 0;
} else {
return writeAtomState(a, ...args2);
}
} finally {
if (!isSync) {
recomputeInvalidatedAtoms();
flushCallbacks();
}
}
};
try {
return atomWrite(atom2, getter, setter, ...args);
} finally {
isSync = false;
}
});
const mountDependencies = buildingBlockFunctions[6] || ((atom2) => {
var _a;
const atomState = ensureAtomState(atom2);
const mounted = mountedMap.get(atom2);
if (mounted && !isPendingPromise(atomState.v)) {
for (const [a, n] of atomState.d) {
if (!mounted.d.has(a)) {
const aState = ensureAtomState(a);
const aMounted = mountAtom(a);
aMounted.t.add(atom2);
mounted.d.add(a);
if (n !== aState.n) {
changedAtoms.add(a);
(_a = storeHooks.c) == null ? void 0 : _a.call(storeHooks, a);
invalidateDependents(a);
}
}
}
for (const a of mounted.d || []) {
if (!atomState.d.has(a)) {
mounted.d.delete(a);
const aMounted = unmountAtom(a);
aMounted == null ? void 0 : aMounted.t.delete(atom2);
}
}
}
});
const mountAtom = buildingBlockFunctions[7] || ((atom2) => {
var _a;
const atomState = ensureAtomState(atom2);
let mounted = mountedMap.get(atom2);
if (!mounted) {
readAtomState(atom2);
for (const a of atomState.d.keys()) {
const aMounted = mountAtom(a);
aMounted.t.add(atom2);
}
mounted = {
l: /* @__PURE__ */ new Set(),
d: new Set(atomState.d.keys()),
t: /* @__PURE__ */ new Set()
};
mountedMap.set(atom2, mounted);
(_a = storeHooks.m) == null ? void 0 : _a.call(storeHooks, atom2);
if (isActuallyWritableAtom(atom2)) {
const processOnMount = () => {
let isSync = true;
const setAtom = (...args) => {
try {
return writeAtomState(atom2, ...args);
} finally {
if (!isSync) {
recomputeInvalidatedAtoms();
flushCallbacks();
}
}
};
try {
const onUnmount = atomOnMount(atom2, setAtom);
if (onUnmount) {
mounted.u = () => {
isSync = true;
try {
onUnmount();
} finally {
isSync = false;
}
};
}
} finally {
isSync = false;
}
};
mountCallbacks.add(processOnMount);
}
}
return mounted;
});
const unmountAtom = buildingBlockFunctions[8] || ((atom2) => {
var _a;
const atomState = ensureAtomState(atom2);
let mounted = mountedMap.get(atom2);
if (mounted && !mounted.l.size && !Array.from(mounted.t).some((a) => {
var _a2;
return (_a2 = mountedMap.get(a)) == null ? void 0 : _a2.d.has(atom2);
})) {
if (mounted.u) {
unmountCallbacks.add(mounted.u);
}
mounted = void 0;
mountedMap.delete(atom2);
(_a = storeHooks.u) == null ? void 0 : _a.call(storeHooks, atom2);
for (const a of atomState.d.keys()) {
const aMounted = unmountAtom(a);
aMounted == null ? void 0 : aMounted.t.delete(atom2);
}
return void 0;
}
return mounted;
});
const buildingBlocks = [
// store state
atomStateMap,
mountedMap,
invalidatedAtoms,
changedAtoms,
mountCallbacks,
unmountCallbacks,
storeHooks,
// atom interceptors
atomRead,
atomWrite,
atomOnInit,
atomOnMount,
// building-block functions
ensureAtomState,
flushCallbacks,
recomputeInvalidatedAtoms,
readAtomState,
invalidateDependents,
writeAtomState,
mountDependencies,
mountAtom,
unmountAtom
];
const store = {
get: (atom2) => returnAtomValue(readAtomState(atom2)),
set: (atom2, ...args) => {
try {
return writeAtomState(atom2, ...args);
} finally {
recomputeInvalidatedAtoms();
flushCallbacks();
}
},
sub: (atom2, listener) => {
const mounted = mountAtom(atom2);
const listeners = mounted.l;
listeners.add(listener);
flushCallbacks();
return () => {
listeners.delete(listener);
unmountAtom(atom2);
flushCallbacks();
};
}
};
Object.defineProperty(store, BUILDING_BLOCKS, { value: buildingBlocks });
return store;
};
const INTERNAL_buildStoreRev1 = buildStore;
const INTERNAL_registerAbortHandler = registerAbortHandler;
const __vite_import_meta_env__$2 = {};
let keyCount = 0;
function atom(read, write) {
const key = `atom${++keyCount}`;
const config = {
toString() {
return (__vite_import_meta_env__$2 ? "production" : void 0) !== "production" && this.debugLabel ? key + ":" + this.debugLabel : key;
}
};
if (typeof read === "function") {
config.read = read;
} else {
config.init = read;
config.read = defaultRead;
config.write = defaultWrite;
}
if (write) {
config.write = write;
}
return config;
}
function defaultRead(get) {
return get(this);
}
function defaultWrite(get, set, arg) {
return set(
this,
typeof arg === "function" ? arg(get(this)) : arg
);
}
function createStore() {
return INTERNAL_buildStoreRev1();
}
let defaultStore;
function getDefaultStore() {
if (!defaultStore) {
defaultStore = createStore();
if ((__vite_import_meta_env__$2 ? "production" : void 0) !== "production") {
globalThis.__JOTAI_DEFAULT_STORE__ || (globalThis.__JOTAI_DEFAULT_STORE__ = defaultStore);
if (globalThis.__JOTAI_DEFAULT_STORE__ !== defaultStore) {
console.warn(
"Detected multiple Jotai instances. It may cause unexpected behavior with the default store. https://github.com/pmndrs/jotai/discussions/2044"
);
}
}
}
return defaultStore;
}
const __vite_import_meta_env__$1 = {};
const StoreContext = reactExports.createContext(
void 0
);
function useStore(options) {
const store = reactExports.useContext(StoreContext);
return store || getDefaultStore();
}
const isPromiseLike = (x) => typeof (x == null ? void 0 : x.then) === "function";
const attachPromiseStatus = (promise) => {
if (!promise.status) {
promise.status = "pending";
promise.then(
(v) => {
promise.status = "fulfilled";
promise.value = v;
},
(e) => {
promise.status = "rejected";
promise.reason = e;
}
);
}
};
const use = React.use || // A shim for older React versions
((promise) => {
if (promise.status === "pending") {
throw promise;
} else if (promise.status === "fulfilled") {
return promise.value;
} else if (promise.status === "rejected") {
throw promise.reason;
} else {
attachPromiseStatus(promise);
throw promise;
}
});
const continuablePromiseMap = /* @__PURE__ */ new WeakMap();
const createContinuablePromise = (promise, getValue) => {
let continuablePromise = continuablePromiseMap.get(promise);
if (!continuablePromise) {
continuablePromise = new Promise((resolve, reject) => {
let curr = promise;
const onFulfilled = (me) => (v) => {
if (curr === me) {
resolve(v);
}
};
const onRejected = (me) => (e) => {
if (curr === me) {
reject(e);
}
};
const onAbort = () => {
try {
const nextValue = getValue();
if (isPromiseLike(nextValue)) {
continuablePromiseMap.set(nextValue, continuablePromise);
curr = nextValue;
nextValue.then(onFulfilled(nextValue), onRejected(nextValue));
INTERNAL_registerAbortHandler(nextValue, onAbort);
} else {
resolve(nextValue);
}
} catch (e) {
reject(e);
}
};
promise.then(onFulfilled(promise), onRejected(promise));
INTERNAL_registerAbortHandler(promise, onAbort);
});
continuablePromiseMap.set(promise, continuablePromise);
}
return continuablePromise;
};
function useAtomValue(atom2, options) {
const { delay, unstable_promiseStatus: promiseStatus = !React.use } = {};
const store = useStore();
const [[valueFromReducer, storeFromReducer, atomFromReducer], rerender] = reactExports.useReducer(
(prev) => {
const nextValue = store.get(atom2);
if (Object.is(prev[0], nextValue) && prev[1] === store && prev[2] === atom2) {
return prev;
}
return [nextValue, store, atom2];
},
void 0,
() => [store.get(atom2), store, atom2]
);
let value = valueFromReducer;
if (storeFromReducer !== store || atomFromReducer !== atom2) {
rerender();
value = store.get(atom2);
}
reactExports.useEffect(() => {
const unsub = store.sub(atom2, () => {
if (promiseStatus) {
try {
const value2 = store.get(atom2);
if (isPromiseLike(value2)) {
attachPromiseStatus(
createContinuablePromise(value2, () => store.get(atom2))
);
}
} catch (e) {
}
}
if (typeof delay === "number") {
setTimeout(rerender, delay);
return;
}
rerender();
});
rerender();
return unsub;
}, [store, atom2, delay, promiseStatus]);
reactExports.useDebugValue(value);
if (isPromiseLike(value)) {
const promise = createContinuablePromise(value, () => store.get(atom2));
if (promiseStatus) {
attachPromiseStatus(promise);
}
return use(promise);
}
return value;
}
function useSetAtom(atom2, options) {
const store = useStore();
const setAtom = reactExports.useCallback(
(...args) => {
if ((__vite_import_meta_env__$1 ? "production" : void 0) !== "production" && !("write" in atom2)) {
throw new Error("not writable atom");
}
return store.set(atom2, ...args);
},
[store, atom2]
);
return setAtom;
}
function useAtom(atom2, options) {
return [
useAtomValue(atom2),
// We do wrong type assertion here, which results in throwing an error.
useSetAtom(atom2)
];
}
const __vite_import_meta_env__ = {};
const RESET = Symbol(
(__vite_import_meta_env__ ? "production" : void 0) !== "production" ? "RESET" : ""
);
const isPromiseLike$3 = (x) => typeof (x == null ? void 0 : x.then) === "function";
function createJSONStorage(getStringStorage = () => {
try {
return window.localStorage;
} catch (e) {
if ((__vite_import_meta_env__ ? "production" : void 0) !== "production") {
if (typeof window !== "undefined") {
console.warn(e);
}
}
return void 0;
}
}, options) {
var _a;
let lastStr;
let lastValue;
const storage = {
getItem: (key, initialValue) => {
var _a2, _b;
const parse = (str2) => {
str2 = str2 || "";
if (lastStr !== str2) {
try {
lastValue = JSON.parse(str2, options == null ? void 0 : options.reviver);
} catch (e) {
return initialValue;
}
lastStr = str2;
}
return lastValue;
};
const str = (_b = (_a2 = getStringStorage()) == null ? void 0 : _a2.getItem(key)) != null ? _b : null;
if (isPromiseLike$3(str)) {
return str.then(parse);
}
return parse(str);
},
setItem: (key, newValue) => {
var _a2;
return (_a2 = getStringStorage()) == null ? void 0 : _a2.setItem(
key,
JSON.stringify(newValue, void 0)
);
},
removeItem: (key) => {
var _a2;
return (_a2 = getStringStorage()) == null ? void 0 : _a2.removeItem(key);
}
};
const createHandleSubscribe = (subscriber2) => (key, callback, initialValue) => subscriber2(key, (v) => {
let newValue;
try {
newValue = JSON.parse(v || "");
} catch (e) {
newValue = initialValue;
}
callback(newValue);
});
let subscriber;
try {
subscriber = (_a = getStringStorage()) == null ? void 0 : _a.subscribe;
} catch (e) {
}
if (!subscriber && typeof window !== "undefined" && typeof window.addEventListener === "function" && window.Storage) {
subscriber = (key, callback) => {
if (!(getStringStorage() instanceof window.Storage)) {
return () => {
};
}
const storageEventCallback = (e) => {
if (e.storageArea === getStringStorage() && e.key === key) {
callback(e.newValue);
}
};
window.addEventListener("storage", storageEventCallback);
return () => {
window.removeEventListener("storage", storageEventCallback);
};
};
}
if (subscriber) {
storage.subscribe = createHandleSubscribe(subscriber);
}
return storage;
}
const defaultStorage = createJSONStorage();
function atomWithStorage(key, initialValue, storage = defaultStorage, options) {
const baseAtom = atom(
initialValue
);
if ((__vite_import_meta_env__ ? "production" : void 0) !== "production") {
baseAtom.debugPrivate = true;
}
baseAtom.onMount = (setAtom) => {
setAtom(storage.getItem(key, initialValue));
let unsub;
if (storage.subscribe) {
unsub = storage.subscribe(key, setAtom, initialValue);
}
return unsub;
};
const anAtom = atom(
(get) => get(baseAtom),
(get, set, update) => {
const nextValue = typeof update === "function" ? update(get(baseAtom)) : update;
if (nextValue === RESET) {
set(baseAtom, initialValue);
return storage.removeItem(key);
}
if (isPromiseLike$3(nextValue)) {
return nextValue.then((resolvedValue) => {
set(baseAtom, resolvedValue);
return storage.setItem(key, resolvedValue);
});
}
set(baseAtom, nextValue);
return storage.setItem(key, nextValue);
}
);
return anAtom;
}
const overlayAtom = atomWithStorage("overlays", []);
const OverlayList = () => {
const overlays = useAtomValue(overlayAtom);
const overlaysList = overlays.map(({ image, name, chunk, coordinate }) => {
return /* @__PURE__ */ React.createElement(
OverlayListEntry,
{
name,
image,
key: name,
chunk,
position: coordinate
}
);
});
return /* @__PURE__ */ React.createElement("table", { className: "table max-sm:text-sm" }, /* @__PURE__ */ React.createElement("tbody", null, overlaysList));
};
const Chevron = (props) => {
return /* @__PURE__ */ React.createElement(
"svg",
{
...props,
width: "800px",
height: "800px",
viewBox: "-5.5 0 26 26",
version: "1.1",
xmlns: "http://www.w3.org/2000/svg"
},
/* @__PURE__ */ React.createElement("title", null, "chevron-left"),
/* @__PURE__ */ React.createElement("desc", null, "Created with Sketch Beta."),
/* @__PURE__ */ React.createElement("defs", null),
/* @__PURE__ */ React.createElement("g", { id: "Page-1", stroke: "none", "stroke-width": "1", fill: "none", "fill-rule": "evenodd" }, /* @__PURE__ */ React.createElement(
"g",
{
id: "Icon-Set-Filled",
transform: "translate(-423.000000, -1196.000000)",
fill: "#000000"
},
/* @__PURE__ */ React.createElement(
"path",
{
d: "M428.115,1209 L437.371,1200.6 C438.202,1199.77 438.202,1198.43 437.371,1197.6 C436.541,1196.76 435.194,1196.76 434.363,1197.6 L423.596,1207.36 C423.146,1207.81 422.948,1208.41 422.985,1209 C422.948,1209.59 423.146,1210.19 423.596,1210.64 L434.363,1220.4 C435.194,1221.24 436.541,1221.24 437.371,1220.4 C438.202,1219.57 438.202,1218.23 437.371,1217.4 L428.115,1209",
id: "chevron-left"
}
)
))
);
};
const showOverlayAtom = atom(false);
const X = (props) => {
return /* @__PURE__ */ React.createElement(
"svg",
{
...props,
width: "800px",
height: "800px",
viewBox: "0 0 24 24",
fill: "none",
xmlns: "http://www.w3.org/2000/svg"
},
/* @__PURE__ */ React.createElement(
"path",
{
"fill-rule": "evenodd",
"clip-rule": "evenodd",
d: "M5.29289 5.29289C5.68342 4.90237 6.31658 4.90237 6.70711 5.29289L12 10.5858L17.2929 5.29289C17.6834 4.90237 18.3166 4.90237 18.7071 5.29289C19.0976 5.68342 19.0976 6.31658 18.7071 6.70711L13.4142 12L18.7071 17.2929C19.0976 17.6834 19.0976 18.3166 18.7071 18.7071C18.3166 19.0976 17.6834 19.0976 17.2929 18.7071L12 13.4142L6.70711 18.7071C6.31658 19.0976 5.68342 19.0976 5.29289 18.7071C4.90237 18.3166 4.90237 17.6834 5.29289 17.2929L10.5858 12L5.29289 6.70711C4.90237 6.31658 4.90237 5.68342 5.29289 5.29289Z",
fill: "#000000"
}
)
);
};
const Overlay = ({ children, headline, showBack, customRenderer }) => {
const navigate = useNavigate();
const setShowOverlay = useSetAtom(showOverlayAtom);
return /* @__PURE__ */ React.createElement("div", { className: "Overlay dropdown-content menu bg-base-100 rounded-box border-base-300 shadow-xl p-4 shadow-md" }, (showBack || headline) && /* @__PURE__ */ React.createElement("nav", null, /* @__PURE__ */ React.createElement("div", null, showBack && /* @__PURE__ */ React.createElement("button", { onClick: () => navigate("/") }, /* @__PURE__ */ React.createElement(Chevron, { className: "icon" })), headline && /* @__PURE__ */ React.createElement("h3", { className: "text-lg" }, headline)), /* @__PURE__ */ React.createElement("div", null, customRenderer, /* @__PURE__ */ React.createElement(
"button",
{
onClick: () => {
setShowOverlay(false);
}
},
/* @__PURE__ */ React.createElement(X, { className: "icon mobile-only" })
))), children);
};
const Overview = () => {
const navigate = useNavigate();
return /* @__PURE__ */ React.createElement(
Overlay,
{
headline: "Template Manager",
customRenderer: /* @__PURE__ */ React.createElement(
"button",
{
className: "btn btn-sm",
onClick: () => {
navigate("/import");
}
},
"Import Template"
)
},
/* @__PURE__ */ React.createElement(OverlayList, null),
/* @__PURE__ */ React.createElement(
"button",
{
className: "btn btn-primary",
onClick: () => {
navigate("/create");
}
},
"Create new Overlay"
)
);
};
const positionAtom = atom({
position: [],
chunk: []
});
const CoordinateForm = ({ chunkValue, coordinateValue, setChunkValue, setCoordinateValue, hidePostitionButton }) => {
const [position] = useAtom(positionAtom);
return /* @__PURE__ */ React.createElement("div", { className: "row", style: { flexWrap: "nowrap" } }, /* @__PURE__ */ React.createElement("div", { className: "row" }, /* @__PURE__ */ React.createElement("label", { className: "input" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "CX"), /* @__PURE__ */ React.createElement(
"input",
{
placeholder: "Chunk",
type: "number",
value: chunkValue[0],
onChange: (event) => setChunkValue(([x, y]) => [Number(event.target.value), y])
}
)), /* @__PURE__ */ React.createElement("label", { className: "input" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "CY"), /* @__PURE__ */ React.createElement(
"input",
{
placeholder: "Chunk",
type: "number",
value: chunkValue[1],
onChange: (event) => setChunkValue(([x, y]) => [x, Number(event.target.value)])
}
)), /* @__PURE__ */ React.createElement("label", { className: "input" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "PX"), /* @__PURE__ */ React.createElement(
"input",
{
placeholder: "Pos.",
type: "number",
value: coordinateValue[0],
onChange: (event) => setCoordinateValue(([x, y]) => [Number(event.target.value), y])
}
)), /* @__PURE__ */ React.createElement("label", { className: "input" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "PY"), /* @__PURE__ */ React.createElement(
"input",
{
placeholder: "Pos.",
type: "number",
value: coordinateValue[1],
onChange: (event) => setCoordinateValue(([x, y]) => [x, Number(event.target.value)])
}
))), !hidePostitionButton && /* @__PURE__ */ React.createElement(
"button",
{
className: "btn btn-md",
onClick: () => {
if (position.position.length && position.chunk.length) {
setChunkValue(position.chunk);
setCoordinateValue(position.position);
}
}
},
/* @__PURE__ */ React.createElement(Location, { className: "icon" })
));
};
var FreeColor = /* @__PURE__ */ ((FreeColor2) => {
FreeColor2["BLACK"] = "#000000";
FreeColor2["DARK_GRAY"] = "#3c3c3c";
FreeColor2["GRAY"] = "#787878";
FreeColor2["LIGHT_GRAY"] = "#d2d2d2";
FreeColor2["WHITE"] = "#ffffff";
FreeColor2["DEEP_RED"] = "#600018";
FreeColor2["RED"] = "#ed1c24";
FreeColor2["ORANGE"] = "#ff7f27";
FreeColor2["GOLD"] = "#f6aa09";
FreeColor2["YELLOW"] = "#f9dd3b";
FreeColor2["LIGHT_YELLOW"] = "#fffabc";
FreeColor2["DARK_GREEN"] = "#0eb968";
FreeColor2["GREEN"] = "#13e67b";
FreeColor2["LIGHT_GREEN"] = "#87ff5e";
FreeColor2["DARK_TEAL"] = "#0c816e";
FreeColor2["TEAL"] = "#10aea6";
FreeColor2["LIGHT_TEAL"] = "#13e1be";
FreeColor2["CYAN"] = "#60f7f2";
FreeColor2["DARK_BLUE"] = "#28509e";
FreeColor2["BLUE"] = "#4093e4";
FreeColor2["INDIGO"] = "#6b50f6";
FreeColor2["LIGHT_INDIGO"] = "#99b1fb";
FreeColor2["DARK_PURPLE"] = "#780c99";
FreeColor2["PURPLE"] = "#aa38b9";
FreeColor2["LIGHT_PURPLE"] = "#e09ff9";
FreeColor2["DARK_PINK"] = "#cb007a";
FreeColor2["PINK"] = "#ec1f80";
FreeColor2["LIGHT_PINK"] = "#f38da9";
FreeColor2["DARK_BROWN"] = "#684634";
FreeColor2["BROWN"] = "#95682a";
FreeColor2["BEIGE"] = "#f8b277";
return FreeColor2;
})(FreeColor || {});
var PaidColor = /* @__PURE__ */ ((PaidColor2) => {
PaidColor2["MEDIUM_GRAY"] = "#aaaaaa";
PaidColor2["DARK_RED"] = "#a50e1e";
PaidColor2["LIGHT_RED"] = "#fa8072";
PaidColor2["DARK_ORANGE"] = "#e45c1a";
PaidColor2["DARK_GOLDENROD"] = "#9c8431";
PaidColor2["GOLDENROD"] = "#c5ad31";
PaidColor2["LIGHT_GOLDENROD"] = "#e8d45f";
PaidColor2["DARK_OLIVE"] = "#4a6b3a";
PaidColor2["OLIVE"] = "#5a944a";
PaidColor2["LIGHT_OLIVE"] = "#84c573";
PaidColor2["DARK_CYAN"] = "#0f799f";
PaidColor2["LIGHT_CYAN"] = "#bbfaf2";
PaidColor2["LIGHT_BLUE"] = "#7dc7ff";
PaidColor2["DARK_INDIGO"] = "#4d31b8";
PaidColor2["DARK_SLATE_BLUE"] = "#4a4284";
PaidColor2["SLATE_BLUE"] = "#7a71c4";
PaidColor2["LIGHT_SLATE_BLUE"] = "#b5aef1";
PaidColor2["DARK_PEACH"] = "#9b5249";
PaidColor2["PEACH"] = "#d18078";
PaidColor2["LIGHT_PEACH"] = "#fab6a4";
PaidColor2["LIGHT_BROWN"] = "#dba463";
PaidColor2["DARK_TAN"] = "#7b6352";
PaidColor2["TAN"] = "#9c846b";
PaidColor2["LIGHT_TAN"] = "#d6b594";
PaidColor2["DARK_BEIGE"] = "#d18051";
PaidColor2["LIGHT_BEIGE"] = "#ffc5a5";
PaidColor2["DARK_STONE"] = "#6d643f";
PaidColor2["STONE"] = "#948c6b";
PaidColor2["LIGHT_STONE"] = "#cdc59e";
PaidColor2["DARK_SLATE"] = "#333941";
PaidColor2["SLATE"] = "#6d758d";
PaidColor2["LIGHT_SLATE"] = "#b3b9d1";
return PaidColor2;
})(PaidColor || {});
const FreeColorEntries = Object.entries(FreeColor);
const PaidColorEntries = Object.entries(PaidColor);
const FreeColorMap = new Map(FreeColorEntries);
const PaidColorMap = new Map(PaidColorEntries);
const InvertedFreeColorMap = new Map(
FreeColorEntries.map(([first, second]) => [second, first])
);
const InvertedPaidColorMap = new Map(
PaidColorEntries.map(([first, second]) => [second, first])
);
const formatString = (input) => {
return input.split("_").map((word) => word.charAt(0).toUpperCase() + word.toLowerCase().slice(1)).join(" ");
};
const ColorCheckbox = ({ checked, onChange, name, color }) => {
return /* @__PURE__ */ React.createElement("label", { className: "ColorCheckbox" }, /* @__PURE__ */ React.createElement(
"input",
{
type: "checkbox",
checked,
onChange,
style: { backgroundColor: color }
}
), /* @__PURE__ */ React.createElement("span", null, formatString(name)));
};
const ColorPicker = ({ colorList, selectedColorState, setSelectedColorState }) => {
const [search, setSearch] = reactExports.useState("");
const [allFree, setAllFree] = reactExports.useState(true);
const [allPaid, setAllPaid] = reactExports.useState(true);
const availableFreeColors = reactExports.useMemo(() => {
return Array.from(FreeColorMap.keys()).filter(
(key) => colorList?.length ? colorList.includes(key) : true
);
}, [colorList]);
reactExports.useEffect(() => {
const allFreeColorsSelected = availableFreeColors.every(
(color) => selectedColorState.includes(color)
);
setAllFree(allFreeColorsSelected);
}, [selectedColorState, availableFreeColors]);
const handleAllFreeChange = (event) => {
const checked = event.target.checked;
setAllFree(checked);
if (checked) {
setSelectedColorState((prev) => {
const newSelection = [...prev];
availableFreeColors.forEach((color) => {
if (!newSelection.includes(color)) {
newSelection.push(color);
}
});
return newSelection;
});
} else {
setSelectedColorState(
(prev) => prev.filter(
(color) => !availableFreeColors.includes(color)
)
);
}
};
const availablePaidColors = reactExports.useMemo(() => {
return Array.from(PaidColorMap.keys()).filter(
(key) => colorList?.length ? colorList.includes(key) : true
);
}, [colorList]);
reactExports.useEffect(() => {
const allPaidColorsSelected = availablePaidColors.every(
(color) => selectedColorState.includes(color)
);
setAllPaid(allPaidColorsSelected);
}, [selectedColorState, availablePaidColors]);
const handleAllPaidChange = (event) => {
const checked = event.target.checked;
setAllPaid(checked);
if (checked) {
setSelectedColorState((prev) => {
const newSelection = [...prev];
availablePaidColors.forEach((color) => {
if (!newSelection.includes(color)) {
newSelection.push(color);
}
});
return newSelection;
});
} else {
setSelectedColorState(
(prev) => prev.filter(
(color) => !availablePaidColors.includes(color)
)
);
}
};
const colorCheckboxOnchange = (event, key) => {
if (event.target.checked) {
setSelectedColorState((prev) => [...prev, key]);
} else {
setSelectedColorState((prev) => prev.filter((color) => color !== key));
}
};
const createColorCheckRenderer = (input) => {
return Array.from(input).filter(([key]) => {
return colorList?.length ? colorList.includes(key) : true;
}).filter(([key]) => formatString(key).toLowerCase().includes(search.toLowerCase())).map(([key, value]) => {
return /* @__PURE__ */ React.createElement(
ColorCheckbox,
{
key: key + "-" + value,
onChange: (event) => colorCheckboxOnchange(event, key),
color: value,
name: key,
checked: selectedColorState.includes(key)
}
);
});
};
const ColorCheckRenderer = reactExports.useMemo(() => {
return createColorCheckRenderer(FreeColorMap.entries());
}, [FreeColorMap, search, selectedColorState]);
const PaidColorCheckRenderer = reactExports.useMemo(() => {
return createColorCheckRenderer(PaidColorMap.entries());
}, [FreeColorMap, search, selectedColorState]);
return /* @__PURE__ */ React.createElement(React.Fragment, null, /* @__PURE__ */ React.createElement("label", { className: "input w-full desktop-auto" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "Search"), /* @__PURE__ */ React.createElement(
"input",
{
type: "search",
onChange: (event) => setSearch(event.target.value),
placeholder: "Color Name",
onKeyDown: (event) => {
event.stopPropagation();
}
}
)), /* @__PURE__ */ React.createElement("label", null, /* @__PURE__ */ React.createElement(
"input",
{
type: "checkbox",
style: { marginRight: "10px" },
checked: allFree,
onChange: handleAllFreeChange
}
), "Free Colors"), /* @__PURE__ */ React.createElement("div", { className: "Grid" }, ColorCheckRenderer), /* @__PURE__ */ React.createElement("label", null, /* @__PURE__ */ React.createElement(
"input",
{
type: "checkbox",
style: { marginRight: "10px" },
checked: allPaid,
onChange: handleAllPaidChange
}
), "Paid colors"), /* @__PURE__ */ React.createElement("div", { className: "Grid" }, PaidColorCheckRenderer));
};
var buffer = {};
var base64Js = {};
var hasRequiredBase64Js;
function requireBase64Js() {
if (hasRequiredBase64Js) return base64Js;
hasRequiredBase64Js = 1;
base64Js.byteLength = byteLength;
base64Js.toByteArray = toByteArray;
base64Js.fromByteArray = fromByteArray;
var lookup = [];
var revLookup = [];
var Arr = typeof Uint8Array !== "undefined" ? Uint8Array : Array;
var code = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
for (var i = 0, len = code.length; i < len; ++i) {
lookup[i] = code[i];
revLookup[code.charCodeAt(i)] = i;
}
revLookup["-".charCodeAt(0)] = 62;
revLookup["_".charCodeAt(0)] = 63;
function getLens(b64) {
var len2 = b64.length;
if (len2 % 4 > 0) {
throw new Error("Invalid string. Length must be a multiple of 4");
}
var validLen = b64.indexOf("=");
if (validLen === -1) validLen = len2;
var placeHoldersLen = validLen === len2 ? 0 : 4 - validLen % 4;
return [validLen, placeHoldersLen];
}
function byteLength(b64) {
var lens = getLens(b64);
var validLen = lens[0];
var placeHoldersLen = lens[1];
return (validLen + placeHoldersLen) * 3 / 4 - placeHoldersLen;
}
function _byteLength(b64, validLen, placeHoldersLen) {
return (validLen + placeHoldersLen) * 3 / 4 - placeHoldersLen;
}
function toByteArray(b64) {
var tmp;
var lens = getLens(b64);
var validLen = lens[0];
var placeHoldersLen = lens[1];
var arr = new Arr(_byteLength(b64, validLen, placeHoldersLen));
var curByte = 0;
var len2 = placeHoldersLen > 0 ? validLen - 4 : validLen;
var i2;
for (i2 = 0; i2 < len2; i2 += 4) {
tmp = revLookup[b64.charCodeAt(i2)] << 18 | revLookup[b64.charCodeAt(i2 + 1)] << 12 | revLookup[b64.charCodeAt(i2 + 2)] << 6 | revLookup[b64.charCodeAt(i2 + 3)];
arr[curByte++] = tmp >> 16 & 255;
arr[curByte++] = tmp >> 8 & 255;
arr[curByte++] = tmp & 255;
}
if (placeHoldersLen === 2) {
tmp = revLookup[b64.charCodeAt(i2)] << 2 | revLookup[b64.charCodeAt(i2 + 1)] >> 4;
arr[curByte++] = tmp & 255;
}
if (placeHoldersLen === 1) {
tmp = revLookup[b64.charCodeAt(i2)] << 10 | revLookup[b64.charCodeAt(i2 + 1)] << 4 | revLookup[b64.charCodeAt(i2 + 2)] >> 2;
arr[curByte++] = tmp >> 8 & 255;
arr[curByte++] = tmp & 255;
}
return arr;
}
function tripletToBase64(num) {
return lookup[num >> 18 & 63] + lookup[num >> 12 & 63] + lookup[num >> 6 & 63] + lookup[num & 63];
}
function encodeChunk(uint8, start, end) {
var tmp;
var output = [];
for (var i2 = start; i2 < end; i2 += 3) {
tmp = (uint8[i2] << 16 & 16711680) + (uint8[i2 + 1] << 8 & 65280) + (uint8[i2 + 2] & 255);
output.push(tripletToBase64(tmp));
}
return output.join("");
}
function fromByteArray(uint8) {
var tmp;
var len2 = uint8.length;
var extraBytes = len2 % 3;
var parts = [];
var maxChunkLength = 16383;
for (var i2 = 0, len22 = len2 - extraBytes; i2 < len22; i2 += maxChunkLength) {
parts.push(encodeChunk(uint8, i2, i2 + maxChunkLength > len22 ? len22 : i2 + maxChunkLength));
}
if (extraBytes === 1) {
tmp = uint8[len2 - 1];
parts.push(
lookup[tmp >> 2] + lookup[tmp << 4 & 63] + "=="
);
} else if (extraBytes === 2) {
tmp = (uint8[len2 - 2] << 8) + uint8[len2 - 1];
parts.push(
lookup[tmp >> 10] + lookup[tmp >> 4 & 63] + lookup[tmp << 2 & 63] + "="
);
}
return parts.join("");
}
return base64Js;
}
var ieee754 = {};
/*! ieee754. BSD-3-Clause License. Feross Aboukhadijeh <https://feross.org/opensource> */
var hasRequiredIeee754;
function requireIeee754() {
if (hasRequiredIeee754) return ieee754;
hasRequiredIeee754 = 1;
ieee754.read = function(buffer2, offset, isLE, mLen, nBytes) {
var e, m;
var eLen = nBytes * 8 - mLen - 1;
var eMax = (1 << eLen) - 1;
var eBias = eMax >> 1;
var nBits = -7;
var i = isLE ? nBytes - 1 : 0;
var d = isLE ? -1 : 1;
var s = buffer2[offset + i];
i += d;
e = s & (1 << -nBits) - 1;
s >>= -nBits;
nBits += eLen;
for (; nBits > 0; e = e * 256 + buffer2[offset + i], i += d, nBits -= 8) {
}
m = e & (1 << -nBits) - 1;
e >>= -nBits;
nBits += mLen;
for (; nBits > 0; m = m * 256 + buffer2[offset + i], i += d, nBits -= 8) {
}
if (e === 0) {
e = 1 - eBias;
} else if (e === eMax) {
return m ? NaN : (s ? -1 : 1) * Infinity;
} else {
m = m + Math.pow(2, mLen);
e = e - eBias;
}
return (s ? -1 : 1) * m * Math.pow(2, e - mLen);
};
ieee754.write = function(buffer2, value, offset, isLE, mLen, nBytes) {
var e, m, c;
var eLen = nBytes * 8 - mLen - 1;
var eMax = (1 << eLen) - 1;
var eBias = eMax >> 1;
var rt = mLen === 23 ? Math.pow(2, -24) - Math.pow(2, -77) : 0;
var i = isLE ? 0 : nBytes - 1;
var d = isLE ? 1 : -1;
var s = value < 0 || value === 0 && 1 / value < 0 ? 1 : 0;
value = Math.abs(value);
if (isNaN(value) || value === Infinity) {
m = isNaN(value) ? 1 : 0;
e = eMax;
} else {
e = Math.floor(Math.log(value) / Math.LN2);
if (value * (c = Math.pow(2, -e)) < 1) {
e--;
c *= 2;
}
if (e + eBias >= 1) {
value += rt / c;
} else {
value += rt * Math.pow(2, 1 - eBias);
}
if (value * c >= 2) {
e++;
c /= 2;
}
if (e + eBias >= eMax) {
m = 0;
e = eMax;
} else if (e + eBias >= 1) {
m = (value * c - 1) * Math.pow(2, mLen);
e = e + eBias;
} else {
m = value * Math.pow(2, eBias - 1) * Math.pow(2, mLen);
e = 0;
}
}
for (; mLen >= 8; buffer2[offset + i] = m & 255, i += d, m /= 256, mLen -= 8) {
}
e = e << mLen | m;
eLen += mLen;
for (; eLen > 0; buffer2[offset + i] = e & 255, i += d, e /= 256, eLen -= 8) {
}
buffer2[offset + i - d] |= s * 128;
};
return ieee754;
}
/*!
* The buffer module from node.js, for the browser.
*
* @author Feross Aboukhadijeh <https://feross.org>
* @license MIT
*/
var hasRequiredBuffer;
function requireBuffer() {
if (hasRequiredBuffer) return buffer;
hasRequiredBuffer = 1;
(function(exports) {
const base64 = requireBase64Js();
const ieee7542 = requireIeee754();
const customInspectSymbol = typeof Symbol === "function" && typeof Symbol["for"] === "function" ? Symbol["for"]("nodejs.util.inspect.custom") : null;
exports.Buffer = Buffer2;
exports.SlowBuffer = SlowBuffer;
exports.INSPECT_MAX_BYTES = 50;
const K_MAX_LENGTH = 2147483647;
exports.kMaxLength = K_MAX_LENGTH;
Buffer2.TYPED_ARRAY_SUPPORT = typedArraySupport();
if (!Buffer2.TYPED_ARRAY_SUPPORT && typeof console !== "undefined" && typeof console.error === "function") {
console.error(
"This browser lacks typed array (Uint8Array) support which is required by `buffer` v5.x. Use `buffer` v4.x if you require old browser support."
);
}
function typedArraySupport() {
try {
const arr = new Uint8Array(1);
const proto = { foo: function() {
return 42;
} };
Object.setPrototypeOf(proto, Uint8Array.prototype);
Object.setPrototypeOf(arr, proto);
return arr.foo() === 42;
} catch (e) {
return false;
}
}
Object.defineProperty(Buffer2.prototype, "parent", {
enumerable: true,
get: function() {
if (!Buffer2.isBuffer(this)) return void 0;
return this.buffer;
}
});
Object.defineProperty(Buffer2.prototype, "offset", {
enumerable: true,
get: function() {
if (!Buffer2.isBuffer(this)) return void 0;
return this.byteOffset;
}
});
function createBuffer(length) {
if (length > K_MAX_LENGTH) {
throw new RangeError('The value "' + length + '" is invalid for option "size"');
}
const buf = new Uint8Array(length);
Object.setPrototypeOf(buf, Buffer2.prototype);
return buf;
}
function Buffer2(arg, encodingOrOffset, length) {
if (typeof arg === "number") {
if (typeof encodingOrOffset === "string") {
throw new TypeError(
'The "string" argument must be of type string. Received type number'
);
}
return allocUnsafe(arg);
}
return from(arg, encodingOrOffset, length);
}
Buffer2.poolSize = 8192;
function from(value, encodingOrOffset, length) {
if (typeof value === "string") {
return fromString(value, encodingOrOffset);
}
if (ArrayBuffer.isView(value)) {
return fromArrayView(value);
}
if (value == null) {
throw new TypeError(
"The first argument must be one of type string, Buffer, ArrayBuffer, Array, or Array-like Object. Received type " + typeof value
);
}
if (isInstance(value, ArrayBuffer) || value && isInstance(value.buffer, ArrayBuffer)) {
return fromArrayBuffer(value, encodingOrOffset, length);
}
if (typeof SharedArrayBuffer !== "undefined" && (isInstance(value, SharedArrayBuffer) || value && isInstance(value.buffer, SharedArrayBuffer))) {
return fromArrayBuffer(value, encodingOrOffset, length);
}
if (typeof value === "number") {
throw new TypeError(
'The "value" argument must not be of type number. Received type number'
);
}
const valueOf = value.valueOf && value.valueOf();
if (valueOf != null && valueOf !== value) {
return Buffer2.from(valueOf, encodingOrOffset, length);
}
const b = fromObject(value);
if (b) return b;
if (typeof Symbol !== "undefined" && Symbol.toPrimitive != null && typeof value[Symbol.toPrimitive] === "function") {
return Buffer2.from(value[Symbol.toPrimitive]("string"), encodingOrOffset, length);
}
throw new TypeError(
"The first argument must be one of type string, Buffer, ArrayBuffer, Array, or Array-like Object. Received type " + typeof value
);
}
Buffer2.from = function(value, encodingOrOffset, length) {
return from(value, encodingOrOffset, length);
};
Object.setPrototypeOf(Buffer2.prototype, Uint8Array.prototype);
Object.setPrototypeOf(Buffer2, Uint8Array);
function assertSize(size) {
if (typeof size !== "number") {
throw new TypeError('"size" argument must be of type number');
} else if (size < 0) {
throw new RangeError('The value "' + size + '" is invalid for option "size"');
}
}
function alloc(size, fill, encoding) {
assertSize(size);
if (size <= 0) {
return createBuffer(size);
}
if (fill !== void 0) {
return typeof encoding === "string" ? createBuffer(size).fill(fill, encoding) : createBuffer(size).fill(fill);
}
return createBuffer(size);
}
Buffer2.alloc = function(size, fill, encoding) {
return alloc(size, fill, encoding);
};
function allocUnsafe(size) {
assertSize(size);
return createBuffer(size < 0 ? 0 : checked(size) | 0);
}
Buffer2.allocUnsafe = function(size) {
return allocUnsafe(size);
};
Buffer2.allocUnsafeSlow = function(size) {
return allocUnsafe(size);
};
function fromString(string, encoding) {
if (typeof encoding !== "string" || encoding === "") {
encoding = "utf8";
}
if (!Buffer2.isEncoding(encoding)) {
throw new TypeError("Unknown encoding: " + encoding);
}
const length = byteLength(string, encoding) | 0;
let buf = createBuffer(length);
const actual = buf.write(string, encoding);
if (actual !== length) {
buf = buf.slice(0, actual);
}
return buf;
}
function fromArrayLike(array) {
const length = array.length < 0 ? 0 : checked(array.length) | 0;
const buf = createBuffer(length);
for (let i = 0; i < length; i += 1) {
buf[i] = array[i] & 255;
}
return buf;
}
function fromArrayView(arrayView) {
if (isInstance(arrayView, Uint8Array)) {
const copy = new Uint8Array(arrayView);
return fromArrayBuffer(copy.buffer, copy.byteOffset, copy.byteLength);
}
return fromArrayLike(arrayView);
}
function fromArrayBuffer(array, byteOffset, length) {
if (byteOffset < 0 || array.byteLength < byteOffset) {
throw new RangeError('"offset" is outside of buffer bounds');
}
if (array.byteLength < byteOffset + (length || 0)) {
throw new RangeError('"length" is outside of buffer bounds');
}
let buf;
if (byteOffset === void 0 && length === void 0) {
buf = new Uint8Array(array);
} else if (length === void 0) {
buf = new Uint8Array(array, byteOffset);
} else {
buf = new Uint8Array(array, byteOffset, length);
}
Object.setPrototypeOf(buf, Buffer2.prototype);
return buf;
}
function fromObject(obj) {
if (Buffer2.isBuffer(obj)) {
const len = checked(obj.length) | 0;
const buf = createBuffer(len);
if (buf.length === 0) {
return buf;
}
obj.copy(buf, 0, 0, len);
return buf;
}
if (obj.length !== void 0) {
if (typeof obj.length !== "number" || numberIsNaN(obj.length)) {
return createBuffer(0);
}
return fromArrayLike(obj);
}
if (obj.type === "Buffer" && Array.isArray(obj.data)) {
return fromArrayLike(obj.data);
}
}
function checked(length) {
if (length >= K_MAX_LENGTH) {
throw new RangeError("Attempt to allocate Buffer larger than maximum size: 0x" + K_MAX_LENGTH.toString(16) + " bytes");
}
return length | 0;
}
function SlowBuffer(length) {
if (+length != length) {
length = 0;
}
return Buffer2.alloc(+length);
}
Buffer2.isBuffer = function isBuffer(b) {
return b != null && b._isBuffer === true && b !== Buffer2.prototype;
};
Buffer2.compare = function compare(a, b) {
if (isInstance(a, Uint8Array)) a = Buffer2.from(a, a.offset, a.byteLength);
if (isInstance(b, Uint8Array)) b = Buffer2.from(b, b.offset, b.byteLength);
if (!Buffer2.isBuffer(a) || !Buffer2.isBuffer(b)) {
throw new TypeError(
'The "buf1", "buf2" arguments must be one of type Buffer or Uint8Array'
);
}
if (a === b) return 0;
let x = a.length;
let y = b.length;
for (let i = 0, len = Math.min(x, y); i < len; ++i) {
if (a[i] !== b[i]) {
x = a[i];
y = b[i];
break;
}
}
if (x < y) return -1;
if (y < x) return 1;
return 0;
};
Buffer2.isEncoding = function isEncoding(encoding) {
switch (String(encoding).toLowerCase()) {
case "hex":
case "utf8":
case "utf-8":
case "ascii":
case "latin1":
case "binary":
case "base64":
case "ucs2":
case "ucs-2":
case "utf16le":
case "utf-16le":
return true;
default:
return false;
}
};
Buffer2.concat = function concat(list, length) {
if (!Array.isArray(list)) {
throw new TypeError('"list" argument must be an Array of Buffers');
}
if (list.length === 0) {
return Buffer2.alloc(0);
}
let i;
if (length === void 0) {
length = 0;
for (i = 0; i < list.length; ++i) {
length += list[i].length;
}
}
const buffer2 = Buffer2.allocUnsafe(length);
let pos = 0;
for (i = 0; i < list.length; ++i) {
let buf = list[i];
if (isInstance(buf, Uint8Array)) {
if (pos + buf.length > buffer2.length) {
if (!Buffer2.isBuffer(buf)) buf = Buffer2.from(buf);
buf.copy(buffer2, pos);
} else {
Uint8Array.prototype.set.call(
buffer2,
buf,
pos
);
}
} else if (!Buffer2.isBuffer(buf)) {
throw new TypeError('"list" argument must be an Array of Buffers');
} else {
buf.copy(buffer2, pos);
}
pos += buf.length;
}
return buffer2;
};
function byteLength(string, encoding) {
if (Buffer2.isBuffer(string)) {
return string.length;
}
if (ArrayBuffer.isView(string) || isInstance(string, ArrayBuffer)) {
return string.byteLength;
}
if (typeof string !== "string") {
throw new TypeError(
'The "string" argument must be one of type string, Buffer, or ArrayBuffer. Received type ' + typeof string
);
}
const len = string.length;
const mustMatch = arguments.length > 2 && arguments[2] === true;
if (!mustMatch && len === 0) return 0;
let loweredCase = false;
for (; ; ) {
switch (encoding) {
case "ascii":
case "latin1":
case "binary":
return len;
case "utf8":
case "utf-8":
return utf8ToBytes(string).length;
case "ucs2":
case "ucs-2":
case "utf16le":
case "utf-16le":
return len * 2;
case "hex":
return len >>> 1;
case "base64":
return base64ToBytes(string).length;
default:
if (loweredCase) {
return mustMatch ? -1 : utf8ToBytes(string).length;
}
encoding = ("" + encoding).toLowerCase();
loweredCase = true;
}
}
}
Buffer2.byteLength = byteLength;
function slowToString(encoding, start, end) {
let loweredCase = false;
if (start === void 0 || start < 0) {
start = 0;
}
if (start > this.length) {
return "";
}
if (end === void 0 || end > this.length) {
end = this.length;
}
if (end <= 0) {
return "";
}
end >>>= 0;
start >>>= 0;
if (end <= start) {
return "";
}
if (!encoding) encoding = "utf8";
while (true) {
switch (encoding) {
case "hex":
return hexSlice(this, start, end);
case "utf8":
case "utf-8":
return utf8Slice(this, start, end);
case "ascii":
return asciiSlice(this, start, end);
case "latin1":
case "binary":
return latin1Slice(this, start, end);
case "base64":
return base64Slice(this, start, end);
case "ucs2":
case "ucs-2":
case "utf16le":
case "utf-16le":
return utf16leSlice(this, start, end);
default:
if (loweredCase) throw new TypeError("Unknown encoding: " + encoding);
encoding = (encoding + "").toLowerCase();
loweredCase = true;
}
}
}
Buffer2.prototype._isBuffer = true;
function swap(b, n, m) {
const i = b[n];
b[n] = b[m];
b[m] = i;
}
Buffer2.prototype.swap16 = function swap16() {
const len = this.length;
if (len % 2 !== 0) {
throw new RangeError("Buffer size must be a multiple of 16-bits");
}
for (let i = 0; i < len; i += 2) {
swap(this, i, i + 1);
}
return this;
};
Buffer2.prototype.swap32 = function swap32() {
const len = this.length;
if (len % 4 !== 0) {
throw new RangeError("Buffer size must be a multiple of 32-bits");
}
for (let i = 0; i < len; i += 4) {
swap(this, i, i + 3);
swap(this, i + 1, i + 2);
}
return this;
};
Buffer2.prototype.swap64 = function swap64() {
const len = this.length;
if (len % 8 !== 0) {
throw new RangeError("Buffer size must be a multiple of 64-bits");
}
for (let i = 0; i < len; i += 8) {
swap(this, i, i + 7);
swap(this, i + 1, i + 6);
swap(this, i + 2, i + 5);
swap(this, i + 3, i + 4);
}
return this;
};
Buffer2.prototype.toString = function toString() {
const length = this.length;
if (length === 0) return "";
if (arguments.length === 0) return utf8Slice(this, 0, length);
return slowToString.apply(this, arguments);
};
Buffer2.prototype.toLocaleString = Buffer2.prototype.toString;
Buffer2.prototype.equals = function equals(b) {
if (!Buffer2.isBuffer(b)) throw new TypeError("Argument must be a Buffer");
if (this === b) return true;
return Buffer2.compare(this, b) === 0;
};
Buffer2.prototype.inspect = function inspect() {
let str = "";
const max = exports.INSPECT_MAX_BYTES;
str = this.toString("hex", 0, max).replace(/(.{2})/g, "$1 ").trim();
if (this.length > max) str += " ... ";
return "<Buffer " + str + ">";
};
if (customInspectSymbol) {
Buffer2.prototype[customInspectSymbol] = Buffer2.prototype.inspect;
}
Buffer2.prototype.compare = function compare(target, start, end, thisStart, thisEnd) {
if (isInstance(target, Uint8Array)) {
target = Buffer2.from(target, target.offset, target.byteLength);
}
if (!Buffer2.isBuffer(target)) {
throw new TypeError(
'The "target" argument must be one of type Buffer or Uint8Array. Received type ' + typeof target
);
}
if (start === void 0) {
start = 0;
}
if (end === void 0) {
end = target ? target.length : 0;
}
if (thisStart === void 0) {
thisStart = 0;
}
if (thisEnd === void 0) {
thisEnd = this.length;
}
if (start < 0 || end > target.length || thisStart < 0 || thisEnd > this.length) {
throw new RangeError("out of range index");
}
if (thisStart >= thisEnd && start >= end) {
return 0;
}
if (thisStart >= thisEnd) {
return -1;
}
if (start >= end) {
return 1;
}
start >>>= 0;
end >>>= 0;
thisStart >>>= 0;
thisEnd >>>= 0;
if (this === target) return 0;
let x = thisEnd - thisStart;
let y = end - start;
const len = Math.min(x, y);
const thisCopy = this.slice(thisStart, thisEnd);
const targetCopy = target.slice(start, end);
for (let i = 0; i < len; ++i) {
if (thisCopy[i] !== targetCopy[i]) {
x = thisCopy[i];
y = targetCopy[i];
break;
}
}
if (x < y) return -1;
if (y < x) return 1;
return 0;
};
function bidirectionalIndexOf(buffer2, val, byteOffset, encoding, dir) {
if (buffer2.length === 0) return -1;
if (typeof byteOffset === "string") {
encoding = byteOffset;
byteOffset = 0;
} else if (byteOffset > 2147483647) {
byteOffset = 2147483647;
} else if (byteOffset < -2147483648) {
byteOffset = -2147483648;
}
byteOffset = +byteOffset;
if (numberIsNaN(byteOffset)) {
byteOffset = dir ? 0 : buffer2.length - 1;
}
if (byteOffset < 0) byteOffset = buffer2.length + byteOffset;
if (byteOffset >= buffer2.length) {
if (dir) return -1;
else byteOffset = buffer2.length - 1;
} else if (byteOffset < 0) {
if (dir) byteOffset = 0;
else return -1;
}
if (typeof val === "string") {
val = Buffer2.from(val, encoding);
}
if (Buffer2.isBuffer(val)) {
if (val.length === 0) {
return -1;
}
return arrayIndexOf(buffer2, val, byteOffset, encoding, dir);
} else if (typeof val === "number") {
val = val & 255;
if (typeof Uint8Array.prototype.indexOf === "function") {
if (dir) {
return Uint8Array.prototype.indexOf.call(buffer2, val, byteOffset);
} else {
return Uint8Array.prototype.lastIndexOf.call(buffer2, val, byteOffset);
}
}
return arrayIndexOf(buffer2, [val], byteOffset, encoding, dir);
}
throw new TypeError("val must be string, number or Buffer");
}
function arrayIndexOf(arr, val, byteOffset, encoding, dir) {
let indexSize = 1;
let arrLength = arr.length;
let valLength = val.length;
if (encoding !== void 0) {
encoding = String(encoding).toLowerCase();
if (encoding === "ucs2" || encoding === "ucs-2" || encoding === "utf16le" || encoding === "utf-16le") {
if (arr.length < 2 || val.length < 2) {
return -1;
}
indexSize = 2;
arrLength /= 2;
valLength /= 2;
byteOffset /= 2;
}
}
function read(buf, i2) {
if (indexSize === 1) {
return buf[i2];
} else {
return buf.readUInt16BE(i2 * indexSize);
}
}
let i;
if (dir) {
let foundIndex = -1;
for (i = byteOffset; i < arrLength; i++) {
if (read(arr, i) === read(val, foundIndex === -1 ? 0 : i - foundIndex)) {
if (foundIndex === -1) foundIndex = i;
if (i - foundIndex + 1 === valLength) return foundIndex * indexSize;
} else {
if (foundIndex !== -1) i -= i - foundIndex;
foundIndex = -1;
}
}
} else {
if (byteOffset + valLength > arrLength) byteOffset = arrLength - valLength;
for (i = byteOffset; i >= 0; i--) {
let found = true;
for (let j = 0; j < valLength; j++) {
if (read(arr, i + j) !== read(val, j)) {
found = false;
break;
}
}
if (found) return i;
}
}
return -1;
}
Buffer2.prototype.includes = function includes(val, byteOffset, encoding) {
return this.indexOf(val, byteOffset, encoding) !== -1;
};
Buffer2.prototype.indexOf = function indexOf(val, byteOffset, encoding) {
return bidirectionalIndexOf(this, val, byteOffset, encoding, true);
};
Buffer2.prototype.lastIndexOf = function lastIndexOf(val, byteOffset, encoding) {
return bidirectionalIndexOf(this, val, byteOffset, encoding, false);
};
function hexWrite(buf, string, offset, length) {
offset = Number(offset) || 0;
const remaining = buf.length - offset;
if (!length) {
length = remaining;
} else {
length = Number(length);
if (length > remaining) {
length = remaining;
}
}
const strLen = string.length;
if (length > strLen / 2) {
length = strLen / 2;
}
let i;
for (i = 0; i < length; ++i) {
const parsed = parseInt(string.substr(i * 2, 2), 16);
if (numberIsNaN(parsed)) return i;
buf[offset + i] = parsed;
}
return i;
}
function utf8Write(buf, string, offset, length) {
return blitBuffer(utf8ToBytes(string, buf.length - offset), buf, offset, length);
}
function asciiWrite(buf, string, offset, length) {
return blitBuffer(asciiToBytes(string), buf, offset, length);
}
function base64Write(buf, string, offset, length) {
return blitBuffer(base64ToBytes(string), buf, offset, length);
}
function ucs2Write(buf, string, offset, length) {
return blitBuffer(utf16leToBytes(string, buf.length - offset), buf, offset, length);
}
Buffer2.prototype.write = function write(string, offset, length, encoding) {
if (offset === void 0) {
encoding = "utf8";
length = this.length;
offset = 0;
} else if (length === void 0 && typeof offset === "string") {
encoding = offset;
length = this.length;
offset = 0;
} else if (isFinite(offset)) {
offset = offset >>> 0;
if (isFinite(length)) {
length = length >>> 0;
if (encoding === void 0) encoding = "utf8";
} else {
encoding = length;
length = void 0;
}
} else {
throw new Error(
"Buffer.write(string, encoding, offset[, length]) is no longer supported"
);
}
const remaining = this.length - offset;
if (length === void 0 || length > remaining) length = remaining;
if (string.length > 0 && (length < 0 || offset < 0) || offset > this.length) {
throw new RangeError("Attempt to write outside buffer bounds");
}
if (!encoding) encoding = "utf8";
let loweredCase = false;
for (; ; ) {
switch (encoding) {
case "hex":
return hexWrite(this, string, offset, length);
case "utf8":
case "utf-8":
return utf8Write(this, string, offset, length);
case "ascii":
case "latin1":
case "binary":
return asciiWrite(this, string, offset, length);
case "base64":
return base64Write(this, string, offset, length);
case "ucs2":
case "ucs-2":
case "utf16le":
case "utf-16le":
return ucs2Write(this, string, offset, length);
default:
if (loweredCase) throw new TypeError("Unknown encoding: " + encoding);
encoding = ("" + encoding).toLowerCase();
loweredCase = true;
}
}
};
Buffer2.prototype.toJSON = function toJSON() {
return {
type: "Buffer",
data: Array.prototype.slice.call(this._arr || this, 0)
};
};
function base64Slice(buf, start, end) {
if (start === 0 && end === buf.length) {
return base64.fromByteArray(buf);
} else {
return base64.fromByteArray(buf.slice(start, end));
}
}
function utf8Slice(buf, start, end) {
end = Math.min(buf.length, end);
const res = [];
let i = start;
while (i < end) {
const firstByte = buf[i];
let codePoint = null;
let bytesPerSequence = firstByte > 239 ? 4 : firstByte > 223 ? 3 : firstByte > 191 ? 2 : 1;
if (i + bytesPerSequence <= end) {
let secondByte, thirdByte, fourthByte, tempCodePoint;
switch (bytesPerSequence) {
case 1:
if (firstByte < 128) {
codePoint = firstByte;
}
break;
case 2:
secondByte = buf[i + 1];
if ((secondByte & 192) === 128) {
tempCodePoint = (firstByte & 31) << 6 | secondByte & 63;
if (tempCodePoint > 127) {
codePoint = tempCodePoint;
}
}
break;
case 3:
secondByte = buf[i + 1];
thirdByte = buf[i + 2];
if ((secondByte & 192) === 128 && (thirdByte & 192) === 128) {
tempCodePoint = (firstByte & 15) << 12 | (secondByte & 63) << 6 | thirdByte & 63;
if (tempCodePoint > 2047 && (tempCodePoint < 55296 || tempCodePoint > 57343)) {
codePoint = tempCodePoint;
}
}
break;
case 4:
secondByte = buf[i + 1];
thirdByte = buf[i + 2];
fourthByte = buf[i + 3];
if ((secondByte & 192) === 128 && (thirdByte & 192) === 128 && (fourthByte & 192) === 128) {
tempCodePoint = (firstByte & 15) << 18 | (secondByte & 63) << 12 | (thirdByte & 63) << 6 | fourthByte & 63;
if (tempCodePoint > 65535 && tempCodePoint < 1114112) {
codePoint = tempCodePoint;
}
}
}
}
if (codePoint === null) {
codePoint = 65533;
bytesPerSequence = 1;
} else if (codePoint > 65535) {
codePoint -= 65536;
res.push(codePoint >>> 10 & 1023 | 55296);
codePoint = 56320 | codePoint & 1023;
}
res.push(codePoint);
i += bytesPerSequence;
}
return decodeCodePointsArray(res);
}
const MAX_ARGUMENTS_LENGTH = 4096;
function decodeCodePointsArray(codePoints) {
const len = codePoints.length;
if (len <= MAX_ARGUMENTS_LENGTH) {
return String.fromCharCode.apply(String, codePoints);
}
let res = "";
let i = 0;
while (i < len) {
res += String.fromCharCode.apply(
String,
codePoints.slice(i, i += MAX_ARGUMENTS_LENGTH)
);
}
return res;
}
function asciiSlice(buf, start, end) {
let ret = "";
end = Math.min(buf.length, end);
for (let i = start; i < end; ++i) {
ret += String.fromCharCode(buf[i] & 127);
}
return ret;
}
function latin1Slice(buf, start, end) {
let ret = "";
end = Math.min(buf.length, end);
for (let i = start; i < end; ++i) {
ret += String.fromCharCode(buf[i]);
}
return ret;
}
function hexSlice(buf, start, end) {
const len = buf.length;
if (!start || start < 0) start = 0;
if (!end || end < 0 || end > len) end = len;
let out = "";
for (let i = start; i < end; ++i) {
out += hexSliceLookupTable[buf[i]];
}
return out;
}
function utf16leSlice(buf, start, end) {
const bytes = buf.slice(start, end);
let res = "";
for (let i = 0; i < bytes.length - 1; i += 2) {
res += String.fromCharCode(bytes[i] + bytes[i + 1] * 256);
}
return res;
}
Buffer2.prototype.slice = function slice(start, end) {
const len = this.length;
start = ~~start;
end = end === void 0 ? len : ~~end;
if (start < 0) {
start += len;
if (start < 0) start = 0;
} else if (start > len) {
start = len;
}
if (end < 0) {
end += len;
if (end < 0) end = 0;
} else if (end > len) {
end = len;
}
if (end < start) end = start;
const newBuf = this.subarray(start, end);
Object.setPrototypeOf(newBuf, Buffer2.prototype);
return newBuf;
};
function checkOffset(offset, ext, length) {
if (offset % 1 !== 0 || offset < 0) throw new RangeError("offset is not uint");
if (offset + ext > length) throw new RangeError("Trying to access beyond buffer length");
}
Buffer2.prototype.readUintLE = Buffer2.prototype.readUIntLE = function readUIntLE(offset, byteLength2, noAssert) {
offset = offset >>> 0;
byteLength2 = byteLength2 >>> 0;
if (!noAssert) checkOffset(offset, byteLength2, this.length);
let val = this[offset];
let mul = 1;
let i = 0;
while (++i < byteLength2 && (mul *= 256)) {
val += this[offset + i] * mul;
}
return val;
};
Buffer2.prototype.readUintBE = Buffer2.prototype.readUIntBE = function readUIntBE(offset, byteLength2, noAssert) {
offset = offset >>> 0;
byteLength2 = byteLength2 >>> 0;
if (!noAssert) {
checkOffset(offset, byteLength2, this.length);
}
let val = this[offset + --byteLength2];
let mul = 1;
while (byteLength2 > 0 && (mul *= 256)) {
val += this[offset + --byteLength2] * mul;
}
return val;
};
Buffer2.prototype.readUint8 = Buffer2.prototype.readUInt8 = function readUInt8(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 1, this.length);
return this[offset];
};
Buffer2.prototype.readUint16LE = Buffer2.prototype.readUInt16LE = function readUInt16LE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 2, this.length);
return this[offset] | this[offset + 1] << 8;
};
Buffer2.prototype.readUint16BE = Buffer2.prototype.readUInt16BE = function readUInt16BE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 2, this.length);
return this[offset] << 8 | this[offset + 1];
};
Buffer2.prototype.readUint32LE = Buffer2.prototype.readUInt32LE = function readUInt32LE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 4, this.length);
return (this[offset] | this[offset + 1] << 8 | this[offset + 2] << 16) + this[offset + 3] * 16777216;
};
Buffer2.prototype.readUint32BE = Buffer2.prototype.readUInt32BE = function readUInt32BE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 4, this.length);
return this[offset] * 16777216 + (this[offset + 1] << 16 | this[offset + 2] << 8 | this[offset + 3]);
};
Buffer2.prototype.readBigUInt64LE = defineBigIntMethod(function readBigUInt64LE(offset) {
offset = offset >>> 0;
validateNumber(offset, "offset");
const first = this[offset];
const last = this[offset + 7];
if (first === void 0 || last === void 0) {
boundsError(offset, this.length - 8);
}
const lo = first + this[++offset] * 2 ** 8 + this[++offset] * 2 ** 16 + this[++offset] * 2 ** 24;
const hi = this[++offset] + this[++offset] * 2 ** 8 + this[++offset] * 2 ** 16 + last * 2 ** 24;
return BigInt(lo) + (BigInt(hi) << BigInt(32));
});
Buffer2.prototype.readBigUInt64BE = defineBigIntMethod(function readBigUInt64BE(offset) {
offset = offset >>> 0;
validateNumber(offset, "offset");
const first = this[offset];
const last = this[offset + 7];
if (first === void 0 || last === void 0) {
boundsError(offset, this.length - 8);
}
const hi = first * 2 ** 24 + this[++offset] * 2 ** 16 + this[++offset] * 2 ** 8 + this[++offset];
const lo = this[++offset] * 2 ** 24 + this[++offset] * 2 ** 16 + this[++offset] * 2 ** 8 + last;
return (BigInt(hi) << BigInt(32)) + BigInt(lo);
});
Buffer2.prototype.readIntLE = function readIntLE(offset, byteLength2, noAssert) {
offset = offset >>> 0;
byteLength2 = byteLength2 >>> 0;
if (!noAssert) checkOffset(offset, byteLength2, this.length);
let val = this[offset];
let mul = 1;
let i = 0;
while (++i < byteLength2 && (mul *= 256)) {
val += this[offset + i] * mul;
}
mul *= 128;
if (val >= mul) val -= Math.pow(2, 8 * byteLength2);
return val;
};
Buffer2.prototype.readIntBE = function readIntBE(offset, byteLength2, noAssert) {
offset = offset >>> 0;
byteLength2 = byteLength2 >>> 0;
if (!noAssert) checkOffset(offset, byteLength2, this.length);
let i = byteLength2;
let mul = 1;
let val = this[offset + --i];
while (i > 0 && (mul *= 256)) {
val += this[offset + --i] * mul;
}
mul *= 128;
if (val >= mul) val -= Math.pow(2, 8 * byteLength2);
return val;
};
Buffer2.prototype.readInt8 = function readInt8(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 1, this.length);
if (!(this[offset] & 128)) return this[offset];
return (255 - this[offset] + 1) * -1;
};
Buffer2.prototype.readInt16LE = function readInt16LE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 2, this.length);
const val = this[offset] | this[offset + 1] << 8;
return val & 32768 ? val | 4294901760 : val;
};
Buffer2.prototype.readInt16BE = function readInt16BE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 2, this.length);
const val = this[offset + 1] | this[offset] << 8;
return val & 32768 ? val | 4294901760 : val;
};
Buffer2.prototype.readInt32LE = function readInt32LE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 4, this.length);
return this[offset] | this[offset + 1] << 8 | this[offset + 2] << 16 | this[offset + 3] << 24;
};
Buffer2.prototype.readInt32BE = function readInt32BE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 4, this.length);
return this[offset] << 24 | this[offset + 1] << 16 | this[offset + 2] << 8 | this[offset + 3];
};
Buffer2.prototype.readBigInt64LE = defineBigIntMethod(function readBigInt64LE(offset) {
offset = offset >>> 0;
validateNumber(offset, "offset");
const first = this[offset];
const last = this[offset + 7];
if (first === void 0 || last === void 0) {
boundsError(offset, this.length - 8);
}
const val = this[offset + 4] + this[offset + 5] * 2 ** 8 + this[offset + 6] * 2 ** 16 + (last << 24);
return (BigInt(val) << BigInt(32)) + BigInt(first + this[++offset] * 2 ** 8 + this[++offset] * 2 ** 16 + this[++offset] * 2 ** 24);
});
Buffer2.prototype.readBigInt64BE = defineBigIntMethod(function readBigInt64BE(offset) {
offset = offset >>> 0;
validateNumber(offset, "offset");
const first = this[offset];
const last = this[offset + 7];
if (first === void 0 || last === void 0) {
boundsError(offset, this.length - 8);
}
const val = (first << 24) + // Overflow
this[++offset] * 2 ** 16 + this[++offset] * 2 ** 8 + this[++offset];
return (BigInt(val) << BigInt(32)) + BigInt(this[++offset] * 2 ** 24 + this[++offset] * 2 ** 16 + this[++offset] * 2 ** 8 + last);
});
Buffer2.prototype.readFloatLE = function readFloatLE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 4, this.length);
return ieee7542.read(this, offset, true, 23, 4);
};
Buffer2.prototype.readFloatBE = function readFloatBE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 4, this.length);
return ieee7542.read(this, offset, false, 23, 4);
};
Buffer2.prototype.readDoubleLE = function readDoubleLE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 8, this.length);
return ieee7542.read(this, offset, true, 52, 8);
};
Buffer2.prototype.readDoubleBE = function readDoubleBE(offset, noAssert) {
offset = offset >>> 0;
if (!noAssert) checkOffset(offset, 8, this.length);
return ieee7542.read(this, offset, false, 52, 8);
};
function checkInt(buf, value, offset, ext, max, min) {
if (!Buffer2.isBuffer(buf)) throw new TypeError('"buffer" argument must be a Buffer instance');
if (value > max || value < min) throw new RangeError('"value" argument is out of bounds');
if (offset + ext > buf.length) throw new RangeError("Index out of range");
}
Buffer2.prototype.writeUintLE = Buffer2.prototype.writeUIntLE = function writeUIntLE(value, offset, byteLength2, noAssert) {
value = +value;
offset = offset >>> 0;
byteLength2 = byteLength2 >>> 0;
if (!noAssert) {
const maxBytes = Math.pow(2, 8 * byteLength2) - 1;
checkInt(this, value, offset, byteLength2, maxBytes, 0);
}
let mul = 1;
let i = 0;
this[offset] = value & 255;
while (++i < byteLength2 && (mul *= 256)) {
this[offset + i] = value / mul & 255;
}
return offset + byteLength2;
};
Buffer2.prototype.writeUintBE = Buffer2.prototype.writeUIntBE = function writeUIntBE(value, offset, byteLength2, noAssert) {
value = +value;
offset = offset >>> 0;
byteLength2 = byteLength2 >>> 0;
if (!noAssert) {
const maxBytes = Math.pow(2, 8 * byteLength2) - 1;
checkInt(this, value, offset, byteLength2, maxBytes, 0);
}
let i = byteLength2 - 1;
let mul = 1;
this[offset + i] = value & 255;
while (--i >= 0 && (mul *= 256)) {
this[offset + i] = value / mul & 255;
}
return offset + byteLength2;
};
Buffer2.prototype.writeUint8 = Buffer2.prototype.writeUInt8 = function writeUInt8(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 1, 255, 0);
this[offset] = value & 255;
return offset + 1;
};
Buffer2.prototype.writeUint16LE = Buffer2.prototype.writeUInt16LE = function writeUInt16LE(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 2, 65535, 0);
this[offset] = value & 255;
this[offset + 1] = value >>> 8;
return offset + 2;
};
Buffer2.prototype.writeUint16BE = Buffer2.prototype.writeUInt16BE = function writeUInt16BE(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 2, 65535, 0);
this[offset] = value >>> 8;
this[offset + 1] = value & 255;
return offset + 2;
};
Buffer2.prototype.writeUint32LE = Buffer2.prototype.writeUInt32LE = function writeUInt32LE(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 4, 4294967295, 0);
this[offset + 3] = value >>> 24;
this[offset + 2] = value >>> 16;
this[offset + 1] = value >>> 8;
this[offset] = value & 255;
return offset + 4;
};
Buffer2.prototype.writeUint32BE = Buffer2.prototype.writeUInt32BE = function writeUInt32BE(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 4, 4294967295, 0);
this[offset] = value >>> 24;
this[offset + 1] = value >>> 16;
this[offset + 2] = value >>> 8;
this[offset + 3] = value & 255;
return offset + 4;
};
function wrtBigUInt64LE(buf, value, offset, min, max) {
checkIntBI(value, min, max, buf, offset, 7);
let lo = Number(value & BigInt(4294967295));
buf[offset++] = lo;
lo = lo >> 8;
buf[offset++] = lo;
lo = lo >> 8;
buf[offset++] = lo;
lo = lo >> 8;
buf[offset++] = lo;
let hi = Number(value >> BigInt(32) & BigInt(4294967295));
buf[offset++] = hi;
hi = hi >> 8;
buf[offset++] = hi;
hi = hi >> 8;
buf[offset++] = hi;
hi = hi >> 8;
buf[offset++] = hi;
return offset;
}
function wrtBigUInt64BE(buf, value, offset, min, max) {
checkIntBI(value, min, max, buf, offset, 7);
let lo = Number(value & BigInt(4294967295));
buf[offset + 7] = lo;
lo = lo >> 8;
buf[offset + 6] = lo;
lo = lo >> 8;
buf[offset + 5] = lo;
lo = lo >> 8;
buf[offset + 4] = lo;
let hi = Number(value >> BigInt(32) & BigInt(4294967295));
buf[offset + 3] = hi;
hi = hi >> 8;
buf[offset + 2] = hi;
hi = hi >> 8;
buf[offset + 1] = hi;
hi = hi >> 8;
buf[offset] = hi;
return offset + 8;
}
Buffer2.prototype.writeBigUInt64LE = defineBigIntMethod(function writeBigUInt64LE(value, offset = 0) {
return wrtBigUInt64LE(this, value, offset, BigInt(0), BigInt("0xffffffffffffffff"));
});
Buffer2.prototype.writeBigUInt64BE = defineBigIntMethod(function writeBigUInt64BE(value, offset = 0) {
return wrtBigUInt64BE(this, value, offset, BigInt(0), BigInt("0xffffffffffffffff"));
});
Buffer2.prototype.writeIntLE = function writeIntLE(value, offset, byteLength2, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) {
const limit = Math.pow(2, 8 * byteLength2 - 1);
checkInt(this, value, offset, byteLength2, limit - 1, -limit);
}
let i = 0;
let mul = 1;
let sub = 0;
this[offset] = value & 255;
while (++i < byteLength2 && (mul *= 256)) {
if (value < 0 && sub === 0 && this[offset + i - 1] !== 0) {
sub = 1;
}
this[offset + i] = (value / mul >> 0) - sub & 255;
}
return offset + byteLength2;
};
Buffer2.prototype.writeIntBE = function writeIntBE(value, offset, byteLength2, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) {
const limit = Math.pow(2, 8 * byteLength2 - 1);
checkInt(this, value, offset, byteLength2, limit - 1, -limit);
}
let i = byteLength2 - 1;
let mul = 1;
let sub = 0;
this[offset + i] = value & 255;
while (--i >= 0 && (mul *= 256)) {
if (value < 0 && sub === 0 && this[offset + i + 1] !== 0) {
sub = 1;
}
this[offset + i] = (value / mul >> 0) - sub & 255;
}
return offset + byteLength2;
};
Buffer2.prototype.writeInt8 = function writeInt8(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 1, 127, -128);
if (value < 0) value = 255 + value + 1;
this[offset] = value & 255;
return offset + 1;
};
Buffer2.prototype.writeInt16LE = function writeInt16LE(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 2, 32767, -32768);
this[offset] = value & 255;
this[offset + 1] = value >>> 8;
return offset + 2;
};
Buffer2.prototype.writeInt16BE = function writeInt16BE(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 2, 32767, -32768);
this[offset] = value >>> 8;
this[offset + 1] = value & 255;
return offset + 2;
};
Buffer2.prototype.writeInt32LE = function writeInt32LE(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 4, 2147483647, -2147483648);
this[offset] = value & 255;
this[offset + 1] = value >>> 8;
this[offset + 2] = value >>> 16;
this[offset + 3] = value >>> 24;
return offset + 4;
};
Buffer2.prototype.writeInt32BE = function writeInt32BE(value, offset, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) checkInt(this, value, offset, 4, 2147483647, -2147483648);
if (value < 0) value = 4294967295 + value + 1;
this[offset] = value >>> 24;
this[offset + 1] = value >>> 16;
this[offset + 2] = value >>> 8;
this[offset + 3] = value & 255;
return offset + 4;
};
Buffer2.prototype.writeBigInt64LE = defineBigIntMethod(function writeBigInt64LE(value, offset = 0) {
return wrtBigUInt64LE(this, value, offset, -BigInt("0x8000000000000000"), BigInt("0x7fffffffffffffff"));
});
Buffer2.prototype.writeBigInt64BE = defineBigIntMethod(function writeBigInt64BE(value, offset = 0) {
return wrtBigUInt64BE(this, value, offset, -BigInt("0x8000000000000000"), BigInt("0x7fffffffffffffff"));
});
function checkIEEE754(buf, value, offset, ext, max, min) {
if (offset + ext > buf.length) throw new RangeError("Index out of range");
if (offset < 0) throw new RangeError("Index out of range");
}
function writeFloat(buf, value, offset, littleEndian, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) {
checkIEEE754(buf, value, offset, 4);
}
ieee7542.write(buf, value, offset, littleEndian, 23, 4);
return offset + 4;
}
Buffer2.prototype.writeFloatLE = function writeFloatLE(value, offset, noAssert) {
return writeFloat(this, value, offset, true, noAssert);
};
Buffer2.prototype.writeFloatBE = function writeFloatBE(value, offset, noAssert) {
return writeFloat(this, value, offset, false, noAssert);
};
function writeDouble(buf, value, offset, littleEndian, noAssert) {
value = +value;
offset = offset >>> 0;
if (!noAssert) {
checkIEEE754(buf, value, offset, 8);
}
ieee7542.write(buf, value, offset, littleEndian, 52, 8);
return offset + 8;
}
Buffer2.prototype.writeDoubleLE = function writeDoubleLE(value, offset, noAssert) {
return writeDouble(this, value, offset, true, noAssert);
};
Buffer2.prototype.writeDoubleBE = function writeDoubleBE(value, offset, noAssert) {
return writeDouble(this, value, offset, false, noAssert);
};
Buffer2.prototype.copy = function copy(target, targetStart, start, end) {
if (!Buffer2.isBuffer(target)) throw new TypeError("argument should be a Buffer");
if (!start) start = 0;
if (!end && end !== 0) end = this.length;
if (targetStart >= target.length) targetStart = target.length;
if (!targetStart) targetStart = 0;
if (end > 0 && end < start) end = start;
if (end === start) return 0;
if (target.length === 0 || this.length === 0) return 0;
if (targetStart < 0) {
throw new RangeError("targetStart out of bounds");
}
if (start < 0 || start >= this.length) throw new RangeError("Index out of range");
if (end < 0) throw new RangeError("sourceEnd out of bounds");
if (end > this.length) end = this.length;
if (target.length - targetStart < end - start) {
end = target.length - targetStart + start;
}
const len = end - start;
if (this === target && typeof Uint8Array.prototype.copyWithin === "function") {
this.copyWithin(targetStart, start, end);
} else {
Uint8Array.prototype.set.call(
target,
this.subarray(start, end),
targetStart
);
}
return len;
};
Buffer2.prototype.fill = function fill(val, start, end, encoding) {
if (typeof val === "string") {
if (typeof start === "string") {
encoding = start;
start = 0;
end = this.length;
} else if (typeof end === "string") {
encoding = end;
end = this.length;
}
if (encoding !== void 0 && typeof encoding !== "string") {
throw new TypeError("encoding must be a string");
}
if (typeof encoding === "string" && !Buffer2.isEncoding(encoding)) {
throw new TypeError("Unknown encoding: " + encoding);
}
if (val.length === 1) {
const code = val.charCodeAt(0);
if (encoding === "utf8" && code < 128 || encoding === "latin1") {
val = code;
}
}
} else if (typeof val === "number") {
val = val & 255;
} else if (typeof val === "boolean") {
val = Number(val);
}
if (start < 0 || this.length < start || this.length < end) {
throw new RangeError("Out of range index");
}
if (end <= start) {
return this;
}
start = start >>> 0;
end = end === void 0 ? this.length : end >>> 0;
if (!val) val = 0;
let i;
if (typeof val === "number") {
for (i = start; i < end; ++i) {
this[i] = val;
}
} else {
const bytes = Buffer2.isBuffer(val) ? val : Buffer2.from(val, encoding);
const len = bytes.length;
if (len === 0) {
throw new TypeError('The value "' + val + '" is invalid for argument "value"');
}
for (i = 0; i < end - start; ++i) {
this[i + start] = bytes[i % len];
}
}
return this;
};
const errors = {};
function E(sym, getMessage, Base) {
errors[sym] = class NodeError extends Base {
constructor() {
super();
Object.defineProperty(this, "message", {
value: getMessage.apply(this, arguments),
writable: true,
configurable: true
});
this.name = `${this.name} [${sym}]`;
this.stack;
delete this.name;
}
get code() {
return sym;
}
set code(value) {
Object.defineProperty(this, "code", {
configurable: true,
enumerable: true,
value,
writable: true
});
}
toString() {
return `${this.name} [${sym}]: ${this.message}`;
}
};
}
E(
"ERR_BUFFER_OUT_OF_BOUNDS",
function(name) {
if (name) {
return `${name} is outside of buffer bounds`;
}
return "Attempt to access memory outside buffer bounds";
},
RangeError
);
E(
"ERR_INVALID_ARG_TYPE",
function(name, actual) {
return `The "${name}" argument must be of type number. Received type ${typeof actual}`;
},
TypeError
);
E(
"ERR_OUT_OF_RANGE",
function(str, range, input) {
let msg = `The value of "${str}" is out of range.`;
let received = input;
if (Number.isInteger(input) && Math.abs(input) > 2 ** 32) {
received = addNumericalSeparator(String(input));
} else if (typeof input === "bigint") {
received = String(input);
if (input > BigInt(2) ** BigInt(32) || input < -(BigInt(2) ** BigInt(32))) {
received = addNumericalSeparator(received);
}
received += "n";
}
msg += ` It must be ${range}. Received ${received}`;
return msg;
},
RangeError
);
function addNumericalSeparator(val) {
let res = "";
let i = val.length;
const start = val[0] === "-" ? 1 : 0;
for (; i >= start + 4; i -= 3) {
res = `_${val.slice(i - 3, i)}${res}`;
}
return `${val.slice(0, i)}${res}`;
}
function checkBounds(buf, offset, byteLength2) {
validateNumber(offset, "offset");
if (buf[offset] === void 0 || buf[offset + byteLength2] === void 0) {
boundsError(offset, buf.length - (byteLength2 + 1));
}
}
function checkIntBI(value, min, max, buf, offset, byteLength2) {
if (value > max || value < min) {
const n = typeof min === "bigint" ? "n" : "";
let range;
{
if (min === 0 || min === BigInt(0)) {
range = `>= 0${n} and < 2${n} ** ${(byteLength2 + 1) * 8}${n}`;
} else {
range = `>= -(2${n} ** ${(byteLength2 + 1) * 8 - 1}${n}) and < 2 ** ${(byteLength2 + 1) * 8 - 1}${n}`;
}
}
throw new errors.ERR_OUT_OF_RANGE("value", range, value);
}
checkBounds(buf, offset, byteLength2);
}
function validateNumber(value, name) {
if (typeof value !== "number") {
throw new errors.ERR_INVALID_ARG_TYPE(name, "number", value);
}
}
function boundsError(value, length, type) {
if (Math.floor(value) !== value) {
validateNumber(value, type);
throw new errors.ERR_OUT_OF_RANGE("offset", "an integer", value);
}
if (length < 0) {
throw new errors.ERR_BUFFER_OUT_OF_BOUNDS();
}
throw new errors.ERR_OUT_OF_RANGE(
"offset",
`>= ${0} and <= ${length}`,
value
);
}
const INVALID_BASE64_RE = /[^+/0-9A-Za-z-_]/g;
function base64clean(str) {
str = str.split("=")[0];
str = str.trim().replace(INVALID_BASE64_RE, "");
if (str.length < 2) return "";
while (str.length % 4 !== 0) {
str = str + "=";
}
return str;
}
function utf8ToBytes(string, units) {
units = units || Infinity;
let codePoint;
const length = string.length;
let leadSurrogate = null;
const bytes = [];
for (let i = 0; i < length; ++i) {
codePoint = string.charCodeAt(i);
if (codePoint > 55295 && codePoint < 57344) {
if (!leadSurrogate) {
if (codePoint > 56319) {
if ((units -= 3) > -1) bytes.push(239, 191, 189);
continue;
} else if (i + 1 === length) {
if ((units -= 3) > -1) bytes.push(239, 191, 189);
continue;
}
leadSurrogate = codePoint;
continue;
}
if (codePoint < 56320) {
if ((units -= 3) > -1) bytes.push(239, 191, 189);
leadSurrogate = codePoint;
continue;
}
codePoint = (leadSurrogate - 55296 << 10 | codePoint - 56320) + 65536;
} else if (leadSurrogate) {
if ((units -= 3) > -1) bytes.push(239, 191, 189);
}
leadSurrogate = null;
if (codePoint < 128) {
if ((units -= 1) < 0) break;
bytes.push(codePoint);
} else if (codePoint < 2048) {
if ((units -= 2) < 0) break;
bytes.push(
codePoint >> 6 | 192,
codePoint & 63 | 128
);
} else if (codePoint < 65536) {
if ((units -= 3) < 0) break;
bytes.push(
codePoint >> 12 | 224,
codePoint >> 6 & 63 | 128,
codePoint & 63 | 128
);
} else if (codePoint < 1114112) {
if ((units -= 4) < 0) break;
bytes.push(
codePoint >> 18 | 240,
codePoint >> 12 & 63 | 128,
codePoint >> 6 & 63 | 128,
codePoint & 63 | 128
);
} else {
throw new Error("Invalid code point");
}
}
return bytes;
}
function asciiToBytes(str) {
const byteArray = [];
for (let i = 0; i < str.length; ++i) {
byteArray.push(str.charCodeAt(i) & 255);
}
return byteArray;
}
function utf16leToBytes(str, units) {
let c, hi, lo;
const byteArray = [];
for (let i = 0; i < str.length; ++i) {
if ((units -= 2) < 0) break;
c = str.charCodeAt(i);
hi = c >> 8;
lo = c % 256;
byteArray.push(lo);
byteArray.push(hi);
}
return byteArray;
}
function base64ToBytes(str) {
return base64.toByteArray(base64clean(str));
}
function blitBuffer(src, dst, offset, length) {
let i;
for (i = 0; i < length; ++i) {
if (i + offset >= dst.length || i >= src.length) break;
dst[i + offset] = src[i];
}
return i;
}
function isInstance(obj, type) {
return obj instanceof type || obj != null && obj.constructor != null && obj.constructor.name != null && obj.constructor.name === type.name;
}
function numberIsNaN(obj) {
return obj !== obj;
}
const hexSliceLookupTable = function() {
const alphabet = "0123456789abcdef";
const table = new Array(256);
for (let i = 0; i < 16; ++i) {
const i16 = i * 16;
for (let j = 0; j < 16; ++j) {
table[i16 + j] = alphabet[i] + alphabet[j];
}
}
return table;
}();
function defineBigIntMethod(fn) {
return typeof BigInt === "undefined" ? BufferBigIntNotDefined : fn;
}
function BufferBigIntNotDefined() {
throw new Error("BigInt not supported");
}
})(buffer);
return buffer;
}
var bufferExports = requireBuffer();
async function imageToBase64(image) {
const arrayBuffer = await image.arrayBuffer();
return new bufferExports.Buffer(arrayBuffer).toString("base64");
}
const rgbToHex = (r, g, b) => {
return "#" + r.toString(16).padStart(2, "0") + g.toString(16).padStart(2, "0") + b.toString(16).padStart(2, "0");
};
const getColorsFromImage = async (image) => {
const canvas = document.createElement("canvas");
canvas.width = image.width;
canvas.height = image.height;
const ctx = canvas.getContext("2d");
ctx.drawImage(image, 0, 0);
const imageData = ctx.getImageData(0, 0, canvas.width, canvas.height);
const colors = /* @__PURE__ */ new Set();
for (let i = 0; i < imageData.data.length; i += 4) {
const r = imageData.data[i];
const g = imageData.data[i + 1];
const b = imageData.data[i + 2];
if (r !== void 0 && g !== void 0 && b !== void 0) {
const hex = rgbToHex(r, g, b);
colors.add(hex);
}
}
console.log(colors);
const mappedColors = Array.from(colors.values()).map((hex) => {
let color = InvertedFreeColorMap.get(hex);
if (!color) {
color = InvertedPaidColorMap.get(hex);
}
return color;
});
canvas.remove();
return mappedColors.filter((color) => !!color);
};
const hexToRgb = (hex) => {
const result = /^#?([a-f\d]{2})([a-f\d]{2})([a-f\d]{2})$/i.exec(hex);
if (!result) {
throw new Error(`Invalid hex color: ${hex}`);
}
return {
r: parseInt(result[1], 16),
g: parseInt(result[2], 16),
b: parseInt(result[3], 16)
};
};
const optimizeColors = async (imageBitmap, colorList, scale = 1) => {
const canvas = document.createElement("canvas");
canvas.width = Math.floor(imageBitmap.width * scale);
canvas.height = Math.floor(imageBitmap.height * scale);
const ctx = canvas.getContext("2d", { willReadFrequently: true });
ctx.drawImage(imageBitmap, 0, 0, canvas.width, canvas.height);
ctx.imageSmoothingEnabled = false;
const imageData = ctx.getImageData(0, 0, canvas.width, canvas.height);
const data = imageData.data;
const rgbColors = colorList.map(hexToRgb);
const COLOR_SPACE_PRECISION = 16;
const colorLookup = new Int32Array(
COLOR_SPACE_PRECISION * COLOR_SPACE_PRECISION * COLOR_SPACE_PRECISION
);
for (let r = 0; r < COLOR_SPACE_PRECISION; r++) {
for (let g = 0; g < COLOR_SPACE_PRECISION; g++) {
for (let b = 0; b < COLOR_SPACE_PRECISION; b++) {
const actualR = r * 255 / (COLOR_SPACE_PRECISION - 1) | 0;
const actualG = g * 255 / (COLOR_SPACE_PRECISION - 1) | 0;
const actualB = b * 255 / (COLOR_SPACE_PRECISION - 1) | 0;
let minDistance = Number.MAX_VALUE;
let closestColorIndex = 0;
for (let i = 0; i < rgbColors.length; i++) {
const color = rgbColors[i];
const distance = 2 * (actualR - color.r) * (actualR - color.r) + 4 * (actualG - color.g) * (actualG - color.g) + 3 * (actualB - color.b) * (actualB - color.b);
if (distance < minDistance) {
minDistance = distance;
closestColorIndex = i;
}
}
const index = r * COLOR_SPACE_PRECISION * COLOR_SPACE_PRECISION + g * COLOR_SPACE_PRECISION + b;
colorLookup[index] = closestColorIndex;
}
}
}
const length = data.length;
for (let i = 0; i < length; i += 4) {
const r = data[i] * (COLOR_SPACE_PRECISION - 1) / 255 | 0;
const g = data[i + 1] * (COLOR_SPACE_PRECISION - 1) / 255 | 0;
const b = data[i + 2] * (COLOR_SPACE_PRECISION - 1) / 255 | 0;
const lookupIndex = r * COLOR_SPACE_PRECISION * COLOR_SPACE_PRECISION + g * COLOR_SPACE_PRECISION + b;
const closestColor = rgbColors[colorLookup[lookupIndex]];
data[i] = closestColor.r;
data[i + 1] = closestColor.g;
data[i + 2] = closestColor.b;
if (data[i + 3] > 127) {
data[i + 3] = 255;
} else {
data[i + 3] = 0;
}
}
ctx.putImageData(imageData, 0, 0);
const blob = await new Promise((resolve) => {
canvas.toBlob((blob2) => resolve(blob2));
});
canvas.remove();
return blob;
};
const ImageUpload = ({ setImageColors, setImage, setWidth, setHeight }) => {
const [optimizeImage, setOptimizeImage] = reactExports.useState(false);
const [selectedColors, setSelectedColors] = reactExports.useState([]);
const [scale, setScale] = reactExports.useState(1);
const [uploadBlob, setUploadBlob] = reactExports.useState();
const [localImage, setLocalImage] = reactExports.useState();
const [localHeight, setLocalHeight] = reactExports.useState(0);
const [localWidth, setLocalWidth] = reactExports.useState(0);
const fileInput = reactExports.useRef(null);
const imgRef = reactExports.useRef(null);
const pasteHandler = (event) => {
if (!fileInput.current) return;
fileInput.current.files = event.clipboardData?.files ?? new FileList();
fileInput.current.dispatchEvent(new Event("change", { bubbles: true, cancelable: true }));
};
reactExports.useEffect(() => {
window.addEventListener("paste", pasteHandler);
return () => window.removeEventListener("paste", pasteHandler);
}, []);
reactExports.useEffect(() => {
if (imgRef.current) {
imgRef.current.src = "data:image/bmp;base64," + localImage;
}
}, [localImage]);
reactExports.useEffect(() => {
void generateImage();
}, [uploadBlob, selectedColors, optimizeImage, scale]);
const generateImage = async () => {
if (!uploadBlob) return;
const bitmap = await createImageBitmap(uploadBlob);
setHeight(bitmap.height);
setWidth(bitmap.width);
setLocalWidth(bitmap.width);
setLocalHeight(bitmap.height);
if (!optimizeImage || !selectedColors?.length) {
imageToBase64(uploadBlob).then((b64) => {
setImage(b64);
setLocalImage(b64);
});
getColorsFromImage(bitmap).then(setImageColors);
} else {
optimizeColors(
bitmap,
selectedColors.map((inputColor) => {
let color = FreeColorMap.get(
inputColor
);
if (!color) {
color = PaidColorMap.get(inputColor);
}
if (!color) {
throw new Error(`Unknown color "${color}"`);
}
return color;
}),
scale
).then(async (convertedImage) => {
imageToBase64(convertedImage).then((b64) => {
setImage(b64);
setLocalImage(b64);
});
getColorsFromImage(await createImageBitmap(convertedImage)).then(setImageColors);
});
}
};
return /* @__PURE__ */ React.createElement(React.Fragment, null, /* @__PURE__ */ React.createElement("label", { className: "FileInput input w-full desktop-auto" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "Template Image"), /* @__PURE__ */ React.createElement(
"input",
{
type: "file",
ref: fileInput,
accept: "image/png, image/jpeg",
onChange: async (e) => {
setUploadBlob(e.target.files[0]);
}
}
)), localImage && /* @__PURE__ */ React.createElement("details", { style: { width: "100%" } }, /* @__PURE__ */ React.createElement("summary", null, /* @__PURE__ */ React.createElement("div", { className: "row", style: { justifyContent: "center", gap: "2rem" } }, /* @__PURE__ */ React.createElement("img", { ref: imgRef, alt: "imported image", id: "imagePreview" }), /* @__PURE__ */ React.createElement("div", { className: "column" }, /* @__PURE__ */ React.createElement("span", null, /* @__PURE__ */ React.createElement("b", null, "Height:"), " ", Math.floor(localHeight * scale), "px"), /* @__PURE__ */ React.createElement("span", null, /* @__PURE__ */ React.createElement("b", null, "Width:"), " ", Math.floor(localWidth * scale), "px"), /* @__PURE__ */ React.createElement("span", null, /* @__PURE__ */ React.createElement("b", null, "Scale:"), " ", scale, "x")))), /* @__PURE__ */ React.createElement("label", null, /* @__PURE__ */ React.createElement(
"input",
{
type: "checkbox",
style: { marginRight: "10px" },
checked: optimizeImage,
onChange: (event) => setOptimizeImage(event.target.checked)
}
), "Optimize Image"), /* @__PURE__ */ React.createElement(
"input",
{
type: "range",
min: 0.1,
max: 10,
step: 0.1,
name: "scale",
placeholder: "Scale",
value: scale,
onChange: (e) => setScale(Number(e.target.value)),
style: { width: "100%" }
}
), /* @__PURE__ */ React.createElement("div", { className: "column", style: { alignItems: "flex-start" } }, /* @__PURE__ */ React.createElement(
ColorPicker,
{
setSelectedColorState: setSelectedColors,
selectedColorState: selectedColors
}
))));
};
const Create = () => {
const [error, setError] = reactExports.useState();
const [name, setName] = reactExports.useState("");
const [startChunk, setStartChunk] = reactExports.useState([]);
const [startPosition, setStartPosition] = reactExports.useState([]);
const [image, setImage] = reactExports.useState();
const [imageColors, setImageColors] = reactExports.useState();
const [height, setHeight] = reactExports.useState(0);
const [width, setWidth] = reactExports.useState(0);
const [overlays, setOverlays] = useAtom(overlayAtom);
reactExports.useEffect(() => {
const overlay = overlays.find((overlay2) => overlay2.name === name);
if (overlay?.name) {
setError(`An overlay with the name ${overlay.name} already exists`);
} else {
setError(void 0);
}
}, [name]);
const navigate = useNavigate();
return /* @__PURE__ */ React.createElement(Overlay, { headline: "Create new Overlay", showBack: true }, error && /* @__PURE__ */ React.createElement("div", { className: "error btn btn-md btn-error" }, error), /* @__PURE__ */ React.createElement("label", { className: "input w-full desktop-auto" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "Name"), /* @__PURE__ */ React.createElement(
"input",
{
onChange: (event) => setName(event.target.value),
placeholder: "Name",
className: "h-full",
onKeyDown: (event) => {
event.stopPropagation();
}
}
)), /* @__PURE__ */ React.createElement(
CoordinateForm,
{
chunkValue: startChunk,
coordinateValue: startPosition,
setChunkValue: setStartChunk,
setCoordinateValue: setStartPosition
}
), /* @__PURE__ */ React.createElement(
ImageUpload,
{
setImage,
setImageColors,
setHeight,
setWidth
}
), /* @__PURE__ */ React.createElement(
"button",
{
disabled: !name || !image || !startChunk.length || !startPosition.length || !!error,
className: "btn btn-primary",
onClick: async () => {
setOverlays([
...overlays,
{
chunk: startChunk,
coordinate: startPosition,
image,
colorSelection: [],
onlyShowSelectedColors: false,
name,
templateColors: imageColors,
height,
width
}
]);
navigate("/");
}
},
"Create"
));
};
var pngChunkText = {};
var encode_1;
var hasRequiredEncode;
function requireEncode() {
if (hasRequiredEncode) return encode_1;
hasRequiredEncode = 1;
encode_1 = encode2;
function encode2(keyword, content) {
keyword = String(keyword);
content = String(content);
if (!/^[\x00-\xFF]+$/.test(keyword) || !/^[\x00-\xFF]+$/.test(content)) {
throw new Error("Only Latin-1 characters are permitted in PNG tEXt chunks. You might want to consider base64 encoding and/or zEXt compression");
}
if (keyword.length >= 80) {
throw new Error('Keyword "' + keyword + '" is longer than the 79-character limit imposed by the PNG specification');
}
var totalSize = keyword.length + content.length + 1;
var output = new Uint8Array(totalSize);
var idx = 0;
var code;
for (var i = 0; i < keyword.length; i++) {
if (!(code = keyword.charCodeAt(i))) {
throw new Error("0x00 character is not permitted in tEXt keywords");
}
output[idx++] = code;
}
output[idx++] = 0;
for (var j = 0; j < content.length; j++) {
if (!(code = content.charCodeAt(j))) {
throw new Error("0x00 character is not permitted in tEXt content");
}
output[idx++] = code;
}
return {
name: "tEXt",
data: output
};
}
return encode_1;
}
var decode_1;
var hasRequiredDecode;
function requireDecode() {
if (hasRequiredDecode) return decode_1;
hasRequiredDecode = 1;
decode_1 = decode;
function decode(data) {
if (data.data && data.name) {
data = data.data;
}
var naming = true;
var text2 = "";
var name = "";
for (var i = 0; i < data.length; i++) {
var code = data[i];
if (naming) {
if (code) {
name += String.fromCharCode(code);
} else {
naming = false;
}
} else {
if (code) {
text2 += String.fromCharCode(code);
} else {
throw new Error("Invalid NULL character found. 0x00 character is not permitted in tEXt content");
}
}
}
return {
keyword: name,
text: text2
};
}
return decode_1;
}
var hasRequiredPngChunkText;
function requirePngChunkText() {
if (hasRequiredPngChunkText) return pngChunkText;
hasRequiredPngChunkText = 1;
pngChunkText.encode = requireEncode();
pngChunkText.decode = requireDecode();
return pngChunkText;
}
var pngChunkTextExports = requirePngChunkText();
const text = /* @__PURE__ */ getDefaultExportFromCjs(pngChunkTextExports);
var crc32 = {};
var hasRequiredCrc32;
function requireCrc32() {
if (hasRequiredCrc32) return crc32;
hasRequiredCrc32 = 1;
(function(exports) {
(function(factory) {
if (typeof DO_NOT_EXPORT_CRC === "undefined") {
{
factory(exports);
}
} else {
factory({});
}
})(function(CRC32) {
CRC32.version = "0.3.0";
function signed_crc_table() {
var c = 0, table2 = new Array(256);
for (var n = 0; n != 256; ++n) {
c = n;
c = c & 1 ? -306674912 ^ c >>> 1 : c >>> 1;
c = c & 1 ? -306674912 ^ c >>> 1 : c >>> 1;
c = c & 1 ? -306674912 ^ c >>> 1 : c >>> 1;
c = c & 1 ? -306674912 ^ c >>> 1 : c >>> 1;
c = c & 1 ? -306674912 ^ c >>> 1 : c >>> 1;
c = c & 1 ? -306674912 ^ c >>> 1 : c >>> 1;
c = c & 1 ? -306674912 ^ c >>> 1 : c >>> 1;
c = c & 1 ? -306674912 ^ c >>> 1 : c >>> 1;
table2[n] = c;
}
return typeof Int32Array !== "undefined" ? new Int32Array(table2) : table2;
}
var table = signed_crc_table();
var use_buffer = typeof Buffer !== "undefined";
function crc32_bstr(bstr) {
if (bstr.length > 32768) {
if (use_buffer) return crc32_buf_8(new Buffer(bstr));
}
var crc = -1, L = bstr.length - 1;
for (var i = 0; i < L; ) {
crc = table[(crc ^ bstr.charCodeAt(i++)) & 255] ^ crc >>> 8;
crc = table[(crc ^ bstr.charCodeAt(i++)) & 255] ^ crc >>> 8;
}
if (i === L) crc = crc >>> 8 ^ table[(crc ^ bstr.charCodeAt(i)) & 255];
return crc ^ -1;
}
function crc32_buf(buf) {
if (buf.length > 1e4) return crc32_buf_8(buf);
for (var crc = -1, i = 0, L = buf.length - 3; i < L; ) {
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
}
while (i < L + 3) crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
return crc ^ -1;
}
function crc32_buf_8(buf) {
for (var crc = -1, i = 0, L = buf.length - 7; i < L; ) {
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
}
while (i < L + 7) crc = crc >>> 8 ^ table[(crc ^ buf[i++]) & 255];
return crc ^ -1;
}
function crc32_str(str) {
for (var crc = -1, i = 0, L = str.length, c, d; i < L; ) {
c = str.charCodeAt(i++);
if (c < 128) {
crc = crc >>> 8 ^ table[(crc ^ c) & 255];
} else if (c < 2048) {
crc = crc >>> 8 ^ table[(crc ^ (192 | c >> 6 & 31)) & 255];
crc = crc >>> 8 ^ table[(crc ^ (128 | c & 63)) & 255];
} else if (c >= 55296 && c < 57344) {
c = (c & 1023) + 64;
d = str.charCodeAt(i++) & 1023;
crc = crc >>> 8 ^ table[(crc ^ (240 | c >> 8 & 7)) & 255];
crc = crc >>> 8 ^ table[(crc ^ (128 | c >> 2 & 63)) & 255];
crc = crc >>> 8 ^ table[(crc ^ (128 | d >> 6 & 15 | c & 3)) & 255];
crc = crc >>> 8 ^ table[(crc ^ (128 | d & 63)) & 255];
} else {
crc = crc >>> 8 ^ table[(crc ^ (224 | c >> 12 & 15)) & 255];
crc = crc >>> 8 ^ table[(crc ^ (128 | c >> 6 & 63)) & 255];
crc = crc >>> 8 ^ table[(crc ^ (128 | c & 63)) & 255];
}
}
return crc ^ -1;
}
CRC32.table = table;
CRC32.bstr = crc32_bstr;
CRC32.buf = crc32_buf;
CRC32.str = crc32_str;
});
})(crc32);
return crc32;
}
var pngChunksExtract;
var hasRequiredPngChunksExtract;
function requirePngChunksExtract() {
if (hasRequiredPngChunksExtract) return pngChunksExtract;
hasRequiredPngChunksExtract = 1;
var crc322 = requireCrc32();
pngChunksExtract = extractChunks;
var uint8 = new Uint8Array(4);
var int32 = new Int32Array(uint8.buffer);
var uint32 = new Uint32Array(uint8.buffer);
function extractChunks(data) {
if (data[0] !== 137) throw new Error("Invalid .png file header");
if (data[1] !== 80) throw new Error("Invalid .png file header");
if (data[2] !== 78) throw new Error("Invalid .png file header");
if (data[3] !== 71) throw new Error("Invalid .png file header");
if (data[4] !== 13) throw new Error("Invalid .png file header: possibly caused by DOS-Unix line ending conversion?");
if (data[5] !== 10) throw new Error("Invalid .png file header: possibly caused by DOS-Unix line ending conversion?");
if (data[6] !== 26) throw new Error("Invalid .png file header");
if (data[7] !== 10) throw new Error("Invalid .png file header: possibly caused by DOS-Unix line ending conversion?");
var ended = false;
var chunks = [];
var idx = 8;
while (idx < data.length) {
uint8[3] = data[idx++];
uint8[2] = data[idx++];
uint8[1] = data[idx++];
uint8[0] = data[idx++];
var length = uint32[0] + 4;
var chunk = new Uint8Array(length);
chunk[0] = data[idx++];
chunk[1] = data[idx++];
chunk[2] = data[idx++];
chunk[3] = data[idx++];
var name = String.fromCharCode(chunk[0]) + String.fromCharCode(chunk[1]) + String.fromCharCode(chunk[2]) + String.fromCharCode(chunk[3]);
if (!chunks.length && name !== "IHDR") {
throw new Error("IHDR header missing");
}
if (name === "IEND") {
ended = true;
chunks.push({
name,
data: new Uint8Array(0)
});
break;
}
for (var i = 4; i < length; i++) {
chunk[i] = data[idx++];
}
uint8[3] = data[idx++];
uint8[2] = data[idx++];
uint8[1] = data[idx++];
uint8[0] = data[idx++];
var crcActual = int32[0];
var crcExpect = crc322.buf(chunk);
if (crcExpect !== crcActual) {
throw new Error(
"CRC values for " + name + " header do not match, PNG file is likely corrupted"
);
}
var chunkData = new Uint8Array(chunk.buffer.slice(4));
chunks.push({
name,
data: chunkData
});
}
if (!ended) {
throw new Error(".png file ended prematurely: no IEND header was found");
}
return chunks;
}
return pngChunksExtract;
}
var pngChunksExtractExports = requirePngChunksExtract();
const extract = /* @__PURE__ */ getDefaultExportFromCjs(pngChunksExtractExports);
const Import = () => {
const navigate = useNavigate();
const fileInput = reactExports.useRef(null);
const imgRef = reactExports.useRef(null);
const [overlays, setOverlays] = useAtom(overlayAtom);
const [error, setError] = reactExports.useState(null);
const [image, setImage] = reactExports.useState();
const [imageColors, setImageColors] = reactExports.useState();
const [template, setTemplate] = reactExports.useState();
const [height, setHeight] = reactExports.useState(0);
const [width, setWidth] = reactExports.useState(0);
const pasteHandler = (event) => {
if (!fileInput.current) return;
fileInput.current.files = event.clipboardData?.files ?? new FileList();
fileInput.current.dispatchEvent(new Event("change", { bubbles: true, cancelable: true }));
};
reactExports.useEffect(() => {
window.addEventListener("paste", pasteHandler);
return () => window.removeEventListener("paste", pasteHandler);
}, []);
reactExports.useEffect(() => {
if (imgRef.current) {
imgRef.current.src = "data:image/bmp;base64," + image;
}
}, [image]);
return /* @__PURE__ */ React.createElement(Overlay, { headline: "Import Template", showBack: true }, /* @__PURE__ */ React.createElement("label", { className: "FileInput input w-full" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "Template Image"), /* @__PURE__ */ React.createElement(
"input",
{
name: "template",
placeholder: "Template",
accept: "image/png",
type: "file",
ref: fileInput,
onChange: async (event) => {
if (!fileInput.current?.files?.length) return;
const imageBuffer = bufferExports.Buffer.from(
await fileInput.current.files[0].arrayBuffer()
);
const chunks = extract(imageBuffer);
const textChunks = chunks.filter(function(chunk) {
return chunk.name === "tEXt";
}).map(function(chunk) {
return text.decode(chunk.data);
});
const dataChunk = textChunks.find(({ keyword }) => keyword === "wplace");
if (!dataChunk) {
setError("No wplace chunk found! Please create Overlay manually.");
return;
}
setError(null);
const importedData = dataChunk.text.split(",");
setTemplate({
name: importedData[0],
chunk: [Number(importedData[1]), Number(importedData[2])],
position: [Number(importedData[3]), Number(importedData[4])]
});
const bitmap = await createImageBitmap(fileInput.current.files[0]);
setHeight(bitmap.height);
setWidth(bitmap.width);
setImage(await imageToBase64(fileInput.current.files[0]));
setImageColors(await getColorsFromImage(bitmap));
}
}
)), error && /* @__PURE__ */ React.createElement("div", { className: "error btn btn-md btn-error" }, error), image && /* @__PURE__ */ React.createElement("img", { ref: imgRef, alt: "imported image", id: "imagePreview" }), template && /* @__PURE__ */ React.createElement("div", { className: "groupRow" }, /* @__PURE__ */ React.createElement("span", { className: "btn btn-sm" }, " ", template.chunk[0], " "), /* @__PURE__ */ React.createElement("span", { className: "btn btn-sm" }, " ", template.chunk[1], " "), /* @__PURE__ */ React.createElement("span", { className: "btn btn-sm" }, " ", template.position[0], " "), /* @__PURE__ */ React.createElement("span", { className: "btn btn-sm" }, " ", template.position[1], " ")), /* @__PURE__ */ React.createElement(
"button",
{
className: "btn btn-primary",
disabled: !template || !image || !imageColors?.length,
onClick: async () => {
if (!template || !image || !imageColors?.length) {
setError("No overlay selected!");
return;
}
setError(null);
setOverlays([
...overlays,
{
chunk: template.chunk,
coordinate: template.position,
image,
colorSelection: [],
onlyShowSelectedColors: false,
name: template.name,
templateColors: imageColors,
height,
width
}
]);
navigate("/");
}
},
"Import"
));
};
const useParam = (name) => {
const { params } = reactExports.useContext(RouteContext);
if (params[name]) {
return params[name];
}
};
const base64ToImage = (b64Data, contentType = "", sliceSize = 512) => {
const byteCharacters = atob(b64Data);
const byteArrays = [];
for (let offset = 0; offset < byteCharacters.length; offset += sliceSize) {
const slice = byteCharacters.slice(offset, offset + sliceSize);
const byteNumbers = new Array(slice.length);
for (let i = 0; i < slice.length; i++) {
byteNumbers[i] = slice.charCodeAt(i);
}
const byteArray = new Uint8Array(byteNumbers);
byteArrays.push(byteArray);
}
return new Blob(byteArrays, { type: contentType });
};
var sliced;
var hasRequiredSliced;
function requireSliced() {
if (hasRequiredSliced) return sliced;
hasRequiredSliced = 1;
sliced = function(args, slice, sliceEnd) {
var ret = [];
var len = args.length;
if (0 === len) return ret;
var start = slice < 0 ? Math.max(0, slice + len) : slice || 0;
if (sliceEnd !== void 0) {
len = sliceEnd < 0 ? sliceEnd + len : sliceEnd;
}
while (len-- > start) {
ret[len - start] = args[len];
}
return ret;
};
return sliced;
}
var pngChunksEncode;
var hasRequiredPngChunksEncode;
function requirePngChunksEncode() {
if (hasRequiredPngChunksEncode) return pngChunksEncode;
hasRequiredPngChunksEncode = 1;
var sliced2 = requireSliced();
var crc322 = requireCrc32();
pngChunksEncode = encodeChunks;
var uint8 = new Uint8Array(4);
var int32 = new Int32Array(uint8.buffer);
var uint32 = new Uint32Array(uint8.buffer);
function encodeChunks(chunks) {
var totalSize = 8;
var idx = totalSize;
var i;
for (i = 0; i < chunks.length; i++) {
totalSize += chunks[i].data.length;
totalSize += 12;
}
var output = new Uint8Array(totalSize);
output[0] = 137;
output[1] = 80;
output[2] = 78;
output[3] = 71;
output[4] = 13;
output[5] = 10;
output[6] = 26;
output[7] = 10;
for (i = 0; i < chunks.length; i++) {
var chunk = chunks[i];
var name = chunk.name;
var data = chunk.data;
var size = data.length;
var nameChars = [
name.charCodeAt(0),
name.charCodeAt(1),
name.charCodeAt(2),
name.charCodeAt(3)
];
uint32[0] = size;
output[idx++] = uint8[3];
output[idx++] = uint8[2];
output[idx++] = uint8[1];
output[idx++] = uint8[0];
output[idx++] = nameChars[0];
output[idx++] = nameChars[1];
output[idx++] = nameChars[2];
output[idx++] = nameChars[3];
for (var j = 0; j < size; ) {
output[idx++] = data[j++];
}
var crcCheck = nameChars.concat(sliced2(data));
var crc = crc322.buf(crcCheck);
int32[0] = crc;
output[idx++] = uint8[3];
output[idx++] = uint8[2];
output[idx++] = uint8[1];
output[idx++] = uint8[0];
}
return output;
}
return pngChunksEncode;
}
var pngChunksEncodeExports = requirePngChunksEncode();
const encode = /* @__PURE__ */ getDefaultExportFromCjs(pngChunksEncodeExports);
const Edit = () => {
const [error, setError] = reactExports.useState();
const [startChunk, setStartChunk] = reactExports.useState([]);
const [startPosition, setStartPosition] = reactExports.useState([]);
const [selectedColors, setSelectedColors] = reactExports.useState([]);
const [image, setImage] = reactExports.useState();
const [imageColors, setImageColors] = reactExports.useState();
const [height, setHeight] = reactExports.useState(0);
const [width, setWidth] = reactExports.useState(0);
const [changeName, setChangeName] = reactExports.useState();
const [overlays, setOverlay] = useAtom(overlayAtom);
const [onlyShowSelectedColors, setOnlyShowSelectedColors] = reactExports.useState(false);
const name = useParam("name");
const navigate = useNavigate();
const currentOverlayIndex = reactExports.useMemo(() => {
return overlays.findIndex((overlay) => overlay.name === name);
}, [overlays, name]);
reactExports.useEffect(() => {
setOnlyShowSelectedColors(overlays[currentOverlayIndex]?.onlyShowSelectedColors ?? false);
setSelectedColors(overlays[currentOverlayIndex]?.colorSelection ?? []);
}, [overlays, currentOverlayIndex]);
reactExports.useEffect(() => {
if (overlays[currentOverlayIndex]) {
setStartChunk(overlays[currentOverlayIndex].chunk);
setStartPosition(overlays[currentOverlayIndex].coordinate);
}
}, []);
reactExports.useEffect(() => {
const overlay = overlays.find((overlay2) => overlay2.name === changeName);
if (overlay?.name) {
setError(`An overlay with the name ${overlay.name} already exists`);
} else {
setError(void 0);
}
}, [changeName]);
const exportButton = /* @__PURE__ */ React.createElement(
"button",
{
className: "btn btn-sm",
onClick: async () => {
const overlay = overlays[currentOverlayIndex];
const image2 = base64ToImage(overlay.image, "image/png");
const imageBuffer = bufferExports.Buffer.from(await image2.arrayBuffer());
const chunks = extract(imageBuffer);
chunks.splice(
chunks.length - 1,
0,
text.encode(
"wplace",
`${overlay.name},${overlay.chunk[0]},${overlay.chunk[1]},${overlay.coordinate[0]},${overlay.coordinate[1]}`
)
);
const newBlob = new Blob([new Uint8Array(encode(chunks))], {
type: "image/png"
});
const url = URL.createObjectURL(newBlob);
const a = document.createElement("a");
a.href = url;
a.download = overlay.name + ".png";
a.click();
URL.revokeObjectURL(url);
}
},
"Export"
);
const deleteButton = /* @__PURE__ */ React.createElement(
"button",
{
className: "btn btn-sm",
onClick: () => {
setOverlay([
...overlays.slice(0, currentOverlayIndex),
...overlays.slice(currentOverlayIndex + 1)
]);
navigate("/");
}
},
"Delete"
);
return /* @__PURE__ */ React.createElement(
Overlay,
{
headline: "Edit " + name,
showBack: true,
customRenderer: /* @__PURE__ */ React.createElement("div", null, exportButton, deleteButton)
},
error && /* @__PURE__ */ React.createElement("div", { className: "error btn btn-md btn-error" }, error),
/* @__PURE__ */ React.createElement("table", { className: "table max-sm:text-sm" }, /* @__PURE__ */ React.createElement("tbody", null, /* @__PURE__ */ React.createElement("tr", null, /* @__PURE__ */ React.createElement(
"td",
{
className: "column",
style: { alignItems: "flex-start", width: "100%" }
},
/* @__PURE__ */ React.createElement("h2", null, " Change Name "),
/* @__PURE__ */ React.createElement("label", { className: "input w-full desktop-auto" }, /* @__PURE__ */ React.createElement("span", { className: "label" }, "Name"), /* @__PURE__ */ React.createElement(
"input",
{
onChange: (event) => setChangeName(event.target.value),
placeholder: "Name",
className: "h-full",
onKeyDown: (event) => {
event.stopPropagation();
}
}
))
)), /* @__PURE__ */ React.createElement("tr", null, /* @__PURE__ */ React.createElement("td", { className: "column", style: { alignItems: "flex-start" } }, /* @__PURE__ */ React.createElement("h2", null, " Change Coordinates "), /* @__PURE__ */ React.createElement(
CoordinateForm,
{
chunkValue: startChunk,
coordinateValue: startPosition,
setChunkValue: setStartChunk,
setCoordinateValue: setStartPosition
}
))), /* @__PURE__ */ React.createElement("tr", null, /* @__PURE__ */ React.createElement("td", { className: "column", style: { alignItems: "flex-start" } }, /* @__PURE__ */ React.createElement("h2", null, " Set Visible Colors "), /* @__PURE__ */ React.createElement("label", null, /* @__PURE__ */ React.createElement(
"input",
{
type: "checkbox",
checked: onlyShowSelectedColors,
onChange: (event) => {
setOnlyShowSelectedColors(event.target.checked);
},
style: { marginRight: "10px" }
}
), "Only show selected Colors"), /* @__PURE__ */ React.createElement(
ColorPicker,
{
colorList: overlays[currentOverlayIndex]?.templateColors,
setSelectedColorState: setSelectedColors,
selectedColorState: selectedColors
}
))), /* @__PURE__ */ React.createElement("tr", null, /* @__PURE__ */ React.createElement("td", { className: "column", style: { alignItems: "flex-start" } }, /* @__PURE__ */ React.createElement("h2", null, " Change Template Image "), /* @__PURE__ */ React.createElement(
ImageUpload,
{
setImage,
setImageColors,
setHeight,
setWidth
}
))))),
/* @__PURE__ */ React.createElement(
"button",
{
className: "btn btn-primary",
disabled: !!error,
onClick: () => {
setOverlay([
...overlays.slice(0, currentOverlayIndex),
{
...overlays[currentOverlayIndex],
colorSelection: selectedColors,
chunk: startChunk,
coordinate: startPosition,
onlyShowSelectedColors,
.../* @__PURE__ */ (() => image ? {
image,
height,
width,
imageColors
} : {})(),
.../* @__PURE__ */ (() => changeName ? {
name: changeName
} : {})()
},
...overlays.slice(currentOverlayIndex + 1)
]);
navigate("/");
}
},
"Save"
)
);
};
async function renderSquares(baseBlob, overlays, chunkX, chunkY) {
const expandedOverlays = await Promise.all(
overlays.map(async (overlay) => {
const image = base64ToImage(overlay.image, "image/png");
const bitmap = await createImageBitmap(image);
return {
...overlay,
height: bitmap.height,
width: bitmap.width,
bitmap,
toChunkX: overlay.chunk[0] + Math.floor((overlay.coordinate[0] + bitmap.width) / 1e3),
toChunkY: overlay.chunk[1] + Math.floor((overlay.coordinate[1] + bitmap.height) / 1e3)
};
})
);
const chunkOverlays = expandedOverlays.filter((overlay) => {
const greaterThanMin = chunkX >= overlay.chunk[0] && chunkY >= overlay.chunk[1];
const smallerThanMax = chunkX <= overlay.toChunkX && chunkY <= overlay.toChunkY;
return greaterThanMin && smallerThanMax;
});
const canvas = document.createElement("canvas");
canvas.width = 3e3;
canvas.height = 3e3;
const ctx = canvas.getContext("2d");
ctx.imageSmoothingEnabled = false;
const img = await createImageBitmap(baseBlob);
ctx.drawImage(img, 0, 0, 3e3, 3e3);
for (const overlay of chunkOverlays) {
const chunkXIndex = overlay.toChunkX - overlay.chunk[0] - (overlay.toChunkX - chunkX);
const chunkYIndex = overlay.toChunkY - overlay.chunk[1] - (overlay.toChunkY - chunkY);
const image = base64ToImage(overlay.image, "image/png");
const bitmap = await createImageBitmap(image, {
imageOrientation: "from-image"
});
let colorFilter;
if (overlay?.onlyShowSelectedColors) {
colorFilter = overlay?.colorSelection.map((color) => {
const freeColor = FreeColorMap.get(color);
if (freeColor) {
return freeColor;
} else {
return PaidColorMap.get(color);
}
});
}
const templateBitmap = await createTemplateBitmap(bitmap, colorFilter);
ctx.drawImage(
templateBitmap,
overlay.coordinate[0] * 3 - chunkXIndex * 3e3,
overlay.coordinate[1] * 3 - chunkYIndex * 3e3,
templateBitmap.width,
templateBitmap.height
);
}
const blob = await new Promise((resolve) => {
canvas.toBlob((blob2) => resolve(blob2));
});
canvas.remove();
return blob;
}
const createTemplateBitmap = async (imageBitmap, colorFilter) => {
const canvas = document.createElement("canvas");
canvas.width = imageBitmap.width * 3;
canvas.height = imageBitmap.height * 3;
const ctx = canvas.getContext("2d", { willReadFrequently: true });
ctx.imageSmoothingEnabled = false;
ctx.drawImage(imageBitmap, 0, 0, canvas.width, canvas.height);
const imageData = ctx.getImageData(0, 0, canvas.width, canvas.height);
for (let y = 0; y < canvas.height; y++) {
for (let x = 0; x < canvas.width; x++) {
const pixelIndex = (y * canvas.width + x) * 4;
const r = imageData.data[pixelIndex];
const g = imageData.data[pixelIndex + 1];
const b = imageData.data[pixelIndex + 2];
const hex = rgbToHex(r, g, b);
if (x % 3 !== 1 || y % 3 !== 1) {
imageData.data[pixelIndex + 3] = 0;
}
if (colorFilter && !colorFilter.includes(hex)) {
imageData.data[pixelIndex + 3] = 0;
}
}
}
ctx.putImageData(imageData, 0, 0);
const bitmap = createImageBitmap(canvas);
canvas.remove();
return bitmap;
};
var reactDomExports = requireReactDom();
const routes = /* @__PURE__ */ new Map([
["/", /* @__PURE__ */ React.createElement(Overview, null)],
["/create", /* @__PURE__ */ React.createElement(Create, null)],
["/import", /* @__PURE__ */ React.createElement(Import, null)],
["/edit/{name}", /* @__PURE__ */ React.createElement(Edit, null)]
]);
function App() {
const [showOverlay, setShowOverlay] = useAtom(showOverlayAtom);
const setPosition = useSetAtom(positionAtom);
const [buttonPortal, setButtonPortal] = reactExports.useState(null);
const overlays = useAtomValue(overlayAtom);
const handleMessage = async (event) => {
const { source, blob, requestId, chunk, position } = event.data;
if (source === "wplace-tile-request") {
window.postMessage({
requestId,
source: "overlay-renderer",
blob: await renderSquares(blob, overlays, chunk[0], chunk[1]),
chunk
});
}
if (source === "wplace-position-request") {
setPosition({ position, chunk });
}
};
reactExports.useEffect(() => {
window.addEventListener("message", handleMessage);
return () => {
window.removeEventListener("message", handleMessage);
};
}, [overlays]);
reactExports.useEffect(() => {
const mutationOvserver = new MutationObserver(() => {
awaitElement(
"div.absolute.right-2.top-2.z-30 > div.flex.flex-col.gap-4.items-center > div.flex.flex-col.items-center.gap-3"
).then((element) => {
setButtonPortal(element);
});
});
mutationOvserver.observe(document.body, { childList: true, subtree: true });
return () => mutationOvserver.disconnect();
}, []);
return /* @__PURE__ */ React.createElement(RouteProvider, { routes }, /* @__PURE__ */ React.createElement("div", { className: "App" }, reactDomExports.createPortal(
/* @__PURE__ */ React.createElement(
"div",
{
className: "btn btn-md shadow-md btn-circle",
onClick: () => setShowOverlay(!showOverlay)
},
"O"
),
buttonPortal ?? document.body
), showOverlay && /* @__PURE__ */ React.createElement(Outlet, null)));
}
function inject(callback) {
const script = document.createElement("script");
script.textContent = `(${callback})();`;
document.documentElement?.appendChild(script);
script.remove();
}
inject(() => {
const BlobQueue = /* @__PURE__ */ new Map();
let jumpToPosition = null;
let jumpToChunk = null;
const matchPattern = (pattern, path) => {
const regexPattern = pattern.replace(/\./g, "\\.").replace(/\*/g, ".*");
const regex = new RegExp(`^${regexPattern}$`);
return regex.test(path);
};
window.addEventListener("message", (event) => {
const { source, blob, requestId, position, chunk } = event.data;
if (source === "overlay-renderer") {
const callback = BlobQueue.get(requestId);
callback(blob);
}
if (source === "overlay-location-service") {
jumpToPosition = position;
jumpToChunk = chunk;
}
});
function createFetch(originalFetch2) {
return async (input, init) => {
const response = originalFetch2(input, init);
let route;
if (input.url?.length) {
route = input.url;
} else {
route = input.toString();
}
const originalResponse = await response;
if (matchPattern("https://backend.wplace.live/s0/tile/random", route)) {
if (jumpToPosition && jumpToChunk) {
const response2 = new Response(
JSON.stringify({
pixel: { x: jumpToPosition[0], y: jumpToPosition[1] },
tile: { x: jumpToChunk[0], y: jumpToChunk[1] }
}),
{
headers: originalResponse.headers,
status: originalResponse.status,
statusText: originalResponse.statusText
}
);
jumpToChunk = null;
jumpToPosition = null;
return response2;
}
}
if (route.startsWith("https://backend.wplace.live/s0/pixel/")) {
const segments = route.split("/");
const rawData = segments.pop();
const chunkX2 = segments.pop();
const chunkY2 = rawData?.match(/^(\d+)\?/);
const positionX = rawData?.match(/x=(\d+)/);
const positionY = rawData?.match(/y=(\d+)/);
if (!chunkX2 || !chunkY2 || !positionX || !positionY) {
console.warn("Couldn't read chunk and position from request!");
} else {
window.postMessage({
source: "wplace-position-request",
position: [parseInt(positionX[1], 10), parseInt(positionY[1], 10)],
chunk: [Number(chunkX2), parseInt(chunkY2[1], 10)]
});
}
}
if (!matchPattern("https://backend.wplace.live/files/s0/tiles/*/*.png", route)) {
return response;
}
const currentRequestId = Math.random().toString(36);
const urlParts = route.split("/");
let chunkY = urlParts.pop();
chunkY = chunkY.substring(0, chunkY.length - 4);
const chunkX = urlParts.pop();
window.postMessage({
requestId: currentRequestId,
source: "wplace-tile-request",
blob: await originalResponse.blob(),
chunk: [Number(chunkX), Number(chunkY)]
});
return new Promise((resolve) => {
BlobQueue.set(currentRequestId, (blob) => {
resolve(
new Response(blob, {
headers: originalResponse.headers,
status: originalResponse.status,
statusText: originalResponse.statusText
})
);
});
});
};
}
const originalFetch = window.fetch;
window.fetch = createFetch(originalFetch);
});
log("wplace.live Template Manager successfully loaded.");
async function main() {
const body = await awaitElement("body");
const container = document.createElement("div");
body.appendChild(container);
const root = clientExports.createRoot(container);
root.render(/* @__PURE__ */ React.createElement(App, null));
}
addLocationChangeCallback(() => {
main().catch((e) => {
log(e);
});
});
})();
;
(function(){
const el = document.createElement("style");
el.innerText = ".OverlayList {\n display: flex;\n flex-direction: column;\n}\n\n.OverlayList > button {\n padding: 8px;\n margin-top: 6px;\n}\n\n.OverlayListEntry {\n display: flex;\n flex-direction: row;\n justify-content: space-between;\n align-items: center;\n width: 100%;\n min-width: 24rem;\n gap: 1.5rem;\n height: 2.5rem;\n}\n\n.OverlayList span {\n max-width: 10rem;\n overflow: hidden;\n text-overflow: ellipsis;\n white-space: nowrap;\n min-width: 2.5rem;\n}\n\n.OverlayListEntry > div > img {\n max-width: 2.5rem;\n max-height: 2.5rem;\n border-radius: 100%;\n}\n\n.coordinate-display {\n width: 3rem;\n}\n\n.coordinates {\n display: none !important;\n}\n\n@media only screen and (min-width: 575px) {\n .coordinates {\n display: flex !important;\n }\n}.Overlay {\n position: fixed;\n display: flex;\n flex-direction: column;\n pointer-events: all;\n gap: 1rem;\n flex-grow: 0;\n flex-wrap: nowrap;\n overflow: auto;\n width: 100vw;\n bottom: 0;\n left: 0;\n border-radius: var(--radius-box);\n border-bottom-left-radius: 0;\n border-bottom-right-radius: 0;\n}\n\n.Overlay > nav {\n display: flex;\n flex-direction: row;\n justify-content: space-between;\n gap: 1rem;\n}\n\n.Overlay h1 {\n max-width: 20rem;\n overflow: hidden;\n text-overflow: ellipsis;\n white-space: nowrap;\n}\n\n.Overlay > nav > div {\n display: flex;\n flex-direction: row;\n gap: 1rem;\n}\n\n.Overlay > nav > div > button > img {\n width: 1rem;\n height: 1rem;\n}\n\n.Overlay input[type=\"number\"] {\n width: 3.5rem;\n}\n\n@media only screen and (min-width: 835px) {\n .Overlay {\n top: 10px;\n right: 80px;\n left: unset;\n height: max-content;\n width: max-content;\n max-width: 80vw;\n max-height: 90vh;\n border-radius: var(--radius-box);\n }\n\n .mobile-only {\n display: none !important;\n }\n}.App {\n position: absolute;\n top: 0;\n left: 0;\n right: 0;\n bottom: 0;\n height: 100vh;\n width: 100vw;\n z-index: 1000 ;\n pointer-events: none;\n}\n\n@media only screen and (min-width: 835px) {\n .App {\n z-index: 10;\n }\n}\n\n.App-logo {\n height: 40vmin;\n}\n.App-link {\n color: #09d3ac;\n}\n\nh1 {\n font-size: 16pt;\n font-weight: bold;\n}\n\n.row {\n display: flex;\n flex-direction: row;\n width: 100%;\n justify-content: space-between;\n flex-wrap: wrap;\n flex-grow: 0;\n align-items: center;\n gap: 8px;\n}\n\n.column {\n display: flex;\n flex-direction: column;\n height: 100%;\n justify-content: center;\n align-items: center;\n gap: 8px;\n}\n\n.groupRow {\n display: flex;\n flex-direction: row;\n gap: 0.5rem;\n align-items: center;\n}\n\n.ColorCheckbox {\n display: flex;\n flex-direction: column;\n align-items: center;\n position: relative;\n cursor: pointer;\n}\n\n.icon {\n width: 1rem;\n height: 1rem;\n cursor: pointer;\n}\n\n.ColorCheckbox input[type=\"checkbox\"] {\n -webkit-appearance: none;\n -moz-appearance: none;\n appearance: none;\n width: 20px;\n height: 20px;\n border: 2px solid #ccc;\n border-radius: 4px;\n cursor: pointer;\n position: relative;\n margin: 0;\n}\n\n.ColorCheckbox input[type=\"checkbox\"]:checked {\n border-color: #666;\n}\n\n.ColorCheckbox input[type=\"checkbox\"]:checked::before {\n content: '✓';\n position: absolute;\n color: white;\n font-size: 16px;\n left: 50%;\n top: 50%;\n transform: translate(-50%, -50%);\n text-shadow: 0 0 2px rgba(0, 0, 0, 0.5);\n}\n\n.ColorCheckbox span {\n visibility: hidden;\n background-color: rgba(0, 0, 0, 0.8);\n color: white;\n text-align: center;\n padding: 4px 8px;\n border-radius: 4px;\n position: absolute;\n z-index: 1;\n bottom: 125%;\n left: 50%;\n transform: translateX(-50%);\n white-space: nowrap;\n font-size: 14px;\n}\n\n.ColorCheckbox span::after {\n content: \"\";\n position: absolute;\n top: 100%;\n left: 50%;\n margin-left: -5px;\n border-width: 5px;\n border-style: solid;\n border-color: rgba(0, 0, 0, 0.8) transparent transparent transparent;\n}\n\n.ColorCheckbox:hover span {\n visibility: visible;\n}\n\n.FileInput {\n display: flex;\n flex-direction: row;\n align-items: center;\n justify-content: center;\n text-align: center;\n}\n\n.FileInput > input::file-selector-button {\n display: none;\n}\n\n.FileInput > input[type=file] {\n height: auto;\n width: min-content;\n}\n\n.icon path {\n fill: var(--color-base-content);;\n}\n\n#imagePreview {\n min-height: 4rem;\n max-height: 12rem;\n}\n\ndetails {\n user-select: none;\n display: flex;\n flex-direction: column;\n gap: 0.5rem;\n}\n\nsummary {\n display: flex;\n cursor: pointer;\n}\n\nsummary::-webkit-details-marker {\n display: none;\n}\n\ntr {\n width: 100%;\n display: flex;\n flex-direction: row;\n justify-content: space-between;\n align-items: center;\n gap: 1rem;\n}\n\n.input {\n max-width: max-content;\n}\n\n.Grid {\n display: grid;\n grid-template-columns: repeat(6, 2rem);\n gap: 8px;\n}\n\n@media only screen and (min-width: 350px) {\n .Overlay {\n .Grid {\n grid-template-columns: repeat(8, 2rem);\n }\n }\n}\n\n@media only screen and (min-width: 580px) {\n .Overlay {\n .Grid {\n grid-template-columns: repeat(14, 2rem);\n }\n }\n\n .desktop-auto {\n max-width: unset !important;\n }\n}\n\nh2 {\n font-size: 14pt;\n font-weight: bold;\n}";
el.type = "text/css";
document.head.appendChild(el);
})();