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master-degree-notes/.obsidian/plugins/companion/main.js

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vault backup: 2024-11-04 18:52:37
2024-11-04 18:52:37 +01:00
/*
THIS IS A GENERATED/BUNDLED FILE BY ESBUILD
if you want to view the source, please visit the github repository of this plugin
*/
var __create = Object.create;
var __defProp = Object.defineProperty;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __getProtoOf = Object.getPrototypeOf;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __commonJS = (cb, mod) => function __require() {
return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports;
};
var __export = (target, all) => {
for (var name in all)
__defProp(target, name, { get: all[name], enumerable: true });
};
var __copyProps = (to, from, except, desc) => {
if (from && typeof from === "object" || typeof from === "function") {
for (let key of __getOwnPropNames(from))
if (!__hasOwnProp.call(to, key) && key !== except)
__defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable });
}
return to;
};
var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps(
// If the importer is in node compatibility mode or this is not an ESM
// file that has been converted to a CommonJS file using a Babel-
// compatible transform (i.e. "__esModule" has not been set), then set
// "default" to the CommonJS "module.exports" for node compatibility.
isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target,
mod
));
var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod);
// node_modules/react/cjs/react.development.js
var require_react_development = __commonJS({
"node_modules/react/cjs/react.development.js"(exports, module2) {
"use strict";
if (true) {
(function() {
"use strict";
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ !== "undefined" && typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStart === "function") {
__REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStart(new Error());
}
var ReactVersion = "18.2.0";
var REACT_ELEMENT_TYPE = Symbol.for("react.element");
var REACT_PORTAL_TYPE = Symbol.for("react.portal");
var REACT_FRAGMENT_TYPE = Symbol.for("react.fragment");
var REACT_STRICT_MODE_TYPE = Symbol.for("react.strict_mode");
var REACT_PROFILER_TYPE = Symbol.for("react.profiler");
var REACT_PROVIDER_TYPE = Symbol.for("react.provider");
var REACT_CONTEXT_TYPE = Symbol.for("react.context");
var REACT_FORWARD_REF_TYPE = Symbol.for("react.forward_ref");
var REACT_SUSPENSE_TYPE = Symbol.for("react.suspense");
var REACT_SUSPENSE_LIST_TYPE = Symbol.for("react.suspense_list");
var REACT_MEMO_TYPE = Symbol.for("react.memo");
var REACT_LAZY_TYPE = Symbol.for("react.lazy");
var REACT_OFFSCREEN_TYPE = Symbol.for("react.offscreen");
var MAYBE_ITERATOR_SYMBOL = Symbol.iterator;
var FAUX_ITERATOR_SYMBOL = "@@iterator";
function getIteratorFn(maybeIterable) {
if (maybeIterable === null || typeof maybeIterable !== "object") {
return null;
}
var maybeIterator = MAYBE_ITERATOR_SYMBOL && maybeIterable[MAYBE_ITERATOR_SYMBOL] || maybeIterable[FAUX_ITERATOR_SYMBOL];
if (typeof maybeIterator === "function") {
return maybeIterator;
}
return null;
}
var ReactCurrentDispatcher = {
/**
* @internal
* @type {ReactComponent}
*/
current: null
};
var ReactCurrentBatchConfig = {
transition: null
};
var ReactCurrentActQueue = {
current: null,
// Used to reproduce behavior of `batchedUpdates` in legacy mode.
isBatchingLegacy: false,
didScheduleLegacyUpdate: false
};
var ReactCurrentOwner = {
/**
* @internal
* @type {ReactComponent}
*/
current: null
};
var ReactDebugCurrentFrame = {};
var currentExtraStackFrame = null;
function setExtraStackFrame(stack) {
{
currentExtraStackFrame = stack;
}
}
{
ReactDebugCurrentFrame.setExtraStackFrame = function(stack) {
{
currentExtraStackFrame = stack;
}
};
ReactDebugCurrentFrame.getCurrentStack = null;
ReactDebugCurrentFrame.getStackAddendum = function() {
var stack = "";
if (currentExtraStackFrame) {
stack += currentExtraStackFrame;
}
var impl = ReactDebugCurrentFrame.getCurrentStack;
if (impl) {
stack += impl() || "";
}
return stack;
};
}
var enableScopeAPI = false;
var enableCacheElement = false;
var enableTransitionTracing = false;
var enableLegacyHidden = false;
var enableDebugTracing = false;
var ReactSharedInternals = {
ReactCurrentDispatcher,
ReactCurrentBatchConfig,
ReactCurrentOwner
};
{
ReactSharedInternals.ReactDebugCurrentFrame = ReactDebugCurrentFrame;
ReactSharedInternals.ReactCurrentActQueue = ReactCurrentActQueue;
}
function warn(format) {
{
{
for (var _len = arguments.length, args = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) {
args[_key - 1] = arguments[_key];
}
printWarning("warn", format, args);
}
}
}
function error(format) {
{
{
for (var _len2 = arguments.length, args = new Array(_len2 > 1 ? _len2 - 1 : 0), _key2 = 1; _key2 < _len2; _key2++) {
args[_key2 - 1] = arguments[_key2];
}
printWarning("error", format, args);
}
}
}
function printWarning(level, format, args) {
{
var ReactDebugCurrentFrame2 = ReactSharedInternals.ReactDebugCurrentFrame;
var stack = ReactDebugCurrentFrame2.getStackAddendum();
if (stack !== "") {
format += "%s";
args = args.concat([stack]);
}
var argsWithFormat = args.map(function(item) {
return String(item);
});
argsWithFormat.unshift("Warning: " + format);
Function.prototype.apply.call(console[level], console, argsWithFormat);
}
}
var didWarnStateUpdateForUnmountedComponent = {};
function warnNoop(publicInstance, callerName) {
{
var _constructor = publicInstance.constructor;
var componentName = _constructor && (_constructor.displayName || _constructor.name) || "ReactClass";
var warningKey = componentName + "." + callerName;
if (didWarnStateUpdateForUnmountedComponent[warningKey]) {
return;
}
error("Can't call %s on a component that is not yet mounted. This is a no-op, but it might indicate a bug in your application. Instead, assign to `this.state` directly or define a `state = {};` class property with the desired state in the %s component.", callerName, componentName);
didWarnStateUpdateForUnmountedComponent[warningKey] = true;
}
}
var ReactNoopUpdateQueue = {
/**
* Checks whether or not this composite component is mounted.
* @param {ReactClass} publicInstance The instance we want to test.
* @return {boolean} True if mounted, false otherwise.
* @protected
* @final
*/
isMounted: function(publicInstance) {
return false;
},
/**
* Forces an update. This should only be invoked when it is known with
* certainty that we are **not** in a DOM transaction.
*
* You may want to call this when you know that some deeper aspect of the
* component's state has changed but `setState` was not called.
*
* This will not invoke `shouldComponentUpdate`, but it will invoke
* `componentWillUpdate` and `componentDidUpdate`.
*
* @param {ReactClass} publicInstance The instance that should rerender.
* @param {?function} callback Called after component is updated.
* @param {?string} callerName name of the calling function in the public API.
* @internal
*/
enqueueForceUpdate: function(publicInstance, callback, callerName) {
warnNoop(publicInstance, "forceUpdate");
},
/**
* Replaces all of the state. Always use this or `setState` to mutate state.
* You should treat `this.state` as immutable.
*
* There is no guarantee that `this.state` will be immediately updated, so
* accessing `this.state` after calling this method may return the old value.
*
* @param {ReactClass} publicInstance The instance that should rerender.
* @param {object} completeState Next state.
* @param {?function} callback Called after component is updated.
* @param {?string} callerName name of the calling function in the public API.
* @internal
*/
enqueueReplaceState: function(publicInstance, completeState, callback, callerName) {
warnNoop(publicInstance, "replaceState");
},
/**
* Sets a subset of the state. This only exists because _pendingState is
* internal. This provides a merging strategy that is not available to deep
* properties which is confusing. TODO: Expose pendingState or don't use it
* during the merge.
*
* @param {ReactClass} publicInstance The instance that should rerender.
* @param {object} partialState Next partial state to be merged with state.
* @param {?function} callback Called after component is updated.
* @param {?string} Name of the calling function in the public API.
* @internal
*/
enqueueSetState: function(publicInstance, partialState, callback, callerName) {
warnNoop(publicInstance, "setState");
}
};
var assign = Object.assign;
var emptyObject = {};
{
Object.freeze(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 (typeof partialState !== "object" && typeof partialState !== "function" && partialState != null) {
throw new Error("setState(...): 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");
};
{
var deprecatedAPIs = {
isMounted: ["isMounted", "Instead, make sure to clean up subscriptions and pending requests in componentWillUnmount to prevent memory leaks."],
replaceState: ["replaceState", "Refactor your code to use setState instead (see https://github.com/facebook/react/issues/3236)."]
};
var defineDeprecationWarning = function(methodName, info) {
Object.defineProperty(Component.prototype, methodName, {
get: function() {
warn("%s(...) is deprecated in plain JavaScript React classes. %s", info[0], info[1]);
return void 0;
}
});
};
for (var fnName in deprecatedAPIs) {
if (deprecatedAPIs.hasOwnProperty(fnName)) {
defineDeprecationWarning(fnName, deprecatedAPIs[fnName]);
}
}
}
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;
function createRef() {
var refObject = {
current: null
};
{
Object.seal(refObject);
}
return refObject;
}
var isArrayImpl = Array.isArray;
function isArray2(a2) {
return isArrayImpl(a2);
}
function typeName(value) {
{
var hasToStringTag = typeof Symbol === "function" && Symbol.toStringTag;
var type = hasToStringTag && value[Symbol.toStringTag] || value.constructor.name || "Object";
return type;
}
}
function willCoercionThrow(value) {
{
try {
testStringCoercion(value);
return false;
} catch (e) {
return true;
}
}
}
function testStringCoercion(value) {
return "" + value;
}
function checkKeyStringCoercion(value) {
{
if (willCoercionThrow(value)) {
error("The provided key is an unsupported type %s. This value must be coerced to a string before before using it here.", typeName(value));
return testStringCoercion(value);
}
}
}
function getWrappedName(outerType, innerType, wrapperName) {
var displayName = outerType.displayName;
if (displayName) {
return displayName;
}
var functionName = innerType.displayName || innerType.name || "";
return functionName !== "" ? wrapperName + "(" + functionName + ")" : wrapperName;
}
function getContextName(type) {
return type.displayName || "Context";
}
function getComponentNameFromType(type) {
if (type == null) {
return null;
}
{
if (typeof type.tag === "number") {
error("Received an unexpected object in getComponentNameFromType(). This is likely a bug in React. Please file an issue.");
}
}
if (typeof type === "function") {
return type.displayName || type.name || null;
}
if (typeof type === "string") {
return type;
}
switch (type) {
case REACT_FRAGMENT_TYPE:
return "Fragment";
case REACT_PORTAL_TYPE:
return "Portal";
case REACT_PROFILER_TYPE:
return "Profiler";
case REACT_STRICT_MODE_TYPE:
return "StrictMode";
case REACT_SUSPENSE_TYPE:
return "Suspense";
case REACT_SUSPENSE_LIST_TYPE:
return "SuspenseList";
}
if (typeof type === "object") {
switch (type.$$typeof) {
case REACT_CONTEXT_TYPE:
var context = type;
return getContextName(context) + ".Consumer";
case REACT_PROVIDER_TYPE:
var provider = type;
return getContextName(provider._context) + ".Provider";
case REACT_FORWARD_REF_TYPE:
return getWrappedName(type, type.render, "ForwardRef");
case REACT_MEMO_TYPE:
var outerName = type.displayName || null;
if (outerName !== null) {
return outerName;
}
return getComponentNameFromType(type.type) || "Memo";
case REACT_LAZY_TYPE: {
var lazyComponent = type;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
try {
return getComponentNameFromType(init(payload));
} catch (x2) {
return null;
}
}
}
}
return null;
}
var hasOwnProperty = Object.prototype.hasOwnProperty;
var RESERVED_PROPS = {
key: true,
ref: true,
__self: true,
__source: true
};
var specialPropKeyWarningShown, specialPropRefWarningShown, didWarnAboutStringRefs;
{
didWarnAboutStringRefs = {};
}
function hasValidRef(config) {
{
if (hasOwnProperty.call(config, "ref")) {
var getter = Object.getOwnPropertyDescriptor(config, "ref").get;
if (getter && getter.isReactWarning) {
return false;
}
}
}
return config.ref !== void 0;
}
function hasValidKey(config) {
{
if (hasOwnProperty.call(config, "key")) {
var getter = Object.getOwnPropertyDescriptor(config, "key").get;
if (getter && getter.isReactWarning) {
return false;
}
}
}
return config.key !== void 0;
}
function defineKeyPropWarningGetter(props, displayName) {
var warnAboutAccessingKey = function() {
{
if (!specialPropKeyWarningShown) {
specialPropKeyWarningShown = true;
error("%s: `key` is not a prop. Trying to access it will result in `undefined` being returned. If you need to access the same value within the child component, you should pass it as a different prop. (https://reactjs.org/link/special-props)", displayName);
}
}
};
warnAboutAccessingKey.isReactWarning = true;
Object.defineProperty(props, "key", {
get: warnAboutAccessingKey,
configurable: true
});
}
function defineRefPropWarningGetter(props, displayName) {
var warnAboutAccessingRef = function() {
{
if (!specialPropRefWarningShown) {
specialPropRefWarningShown = true;
error("%s: `ref` is not a prop. Trying to access it will result in `undefined` being returned. If you need to access the same value within the child component, you should pass it as a different prop. (https://reactjs.org/link/special-props)", displayName);
}
}
};
warnAboutAccessingRef.isReactWarning = true;
Object.defineProperty(props, "ref", {
get: warnAboutAccessingRef,
configurable: true
});
}
function warnIfStringRefCannotBeAutoConverted(config) {
{
if (typeof config.ref === "string" && ReactCurrentOwner.current && config.__self && ReactCurrentOwner.current.stateNode !== config.__self) {
var componentName = getComponentNameFromType(ReactCurrentOwner.current.type);
if (!didWarnAboutStringRefs[componentName]) {
error('Component "%s" contains the string ref "%s". Support for string refs will be removed in a future major release. This case cannot be automatically converted to an arrow function. We ask you to manually fix this case by using useRef() or createRef() instead. Learn more about using refs safely here: https://reactjs.org/link/strict-mode-string-ref', componentName, config.ref);
didWarnAboutStringRefs[componentName] = true;
}
}
}
}
var ReactElement = function(type, key, ref, self, source, owner, props) {
var element = {
// This tag allows us to uniquely identify this as a React Element
$$typeof: REACT_ELEMENT_TYPE,
// Built-in properties that belong on the element
type,
key,
ref,
props,
// Record the component responsible for creating this element.
_owner: owner
};
{
element._store = {};
Object.defineProperty(element._store, "validated", {
configurable: false,
enumerable: false,
writable: true,
value: false
});
Object.defineProperty(element, "_self", {
configurable: false,
enumerable: false,
writable: false,
value: self
});
Object.defineProperty(element, "_source", {
configurable: false,
enumerable: false,
writable: false,
value: source
});
if (Object.freeze) {
Object.freeze(element.props);
Object.freeze(element);
}
}
return element;
};
function createElement13(type, config, children) {
var propName;
var props = {};
var key = null;
var ref = null;
var self = null;
var source = null;
if (config != null) {
if (hasValidRef(config)) {
ref = config.ref;
{
warnIfStringRefCannotBeAutoConverted(config);
}
}
if (hasValidKey(config)) {
{
checkKeyStringCoercion(config.key);
}
key = "" + config.key;
}
self = config.__self === void 0 ? null : config.__self;
source = config.__source === void 0 ? null : config.__source;
for (propName in config) {
if (hasOwnProperty.call(config, propName) && !RESERVED_PROPS.hasOwnProperty(propName)) {
props[propName] = config[propName];
}
}
}
var childrenLength = arguments.length - 2;
if (childrenLength === 1) {
props.children = children;
} else if (childrenLength > 1) {
var childArray = Array(childrenLength);
for (var i = 0; i < childrenLength; i++) {
childArray[i] = arguments[i + 2];
}
{
if (Object.freeze) {
Object.freeze(childArray);
}
}
props.children = childArray;
}
if (type && type.defaultProps) {
var defaultProps = type.defaultProps;
for (propName in defaultProps) {
if (props[propName] === void 0) {
props[propName] = defaultProps[propName];
}
}
}
{
if (key || ref) {
var displayName = typeof type === "function" ? type.displayName || type.name || "Unknown" : type;
if (key) {
defineKeyPropWarningGetter(props, displayName);
}
if (ref) {
defineRefPropWarningGetter(props, displayName);
}
}
}
return ReactElement(type, key, ref, self, source, ReactCurrentOwner.current, props);
}
function cloneAndReplaceKey(oldElement, newKey) {
var newElement = ReactElement(oldElement.type, newKey, oldElement.ref, oldElement._self, oldElement._source, oldElement._owner, oldElement.props);
return newElement;
}
function cloneElement(element, config, children) {
if (element === null || element === void 0) {
throw new Error("React.cloneElement(...): The argument must be a React element, but you passed " + element + ".");
}
var propName;
var props = assign({}, element.props);
var key = element.key;
var ref = element.ref;
var self = element._self;
var source = element._source;
var owner = element._owner;
if (config != null) {
if (hasValidRef(config)) {
ref = config.ref;
owner = ReactCurrentOwner.current;
}
if (hasValidKey(config)) {
{
checkKeyStringCoercion(config.key);
}
key = "" + config.key;
}
var defaultProps;
if (element.type && element.type.defaultProps) {
defaultProps = element.type.defaultProps;
}
for (propName in config) {
if (hasOwnProperty.call(config, propName) && !RESERVED_PROPS.hasOwnProperty(propName)) {
if (config[propName] === void 0 && defaultProps !== void 0) {
props[propName] = defaultProps[propName];
} else {
props[propName] = config[propName];
}
}
}
}
var childrenLength = arguments.length - 2;
if (childrenLength === 1) {
props.children = children;
} else if (childrenLength > 1) {
var childArray = Array(childrenLength);
for (var i = 0; i < childrenLength; i++) {
childArray[i] = arguments[i + 2];
}
props.children = childArray;
}
return ReactElement(element.type, key, ref, self, source, owner, props);
}
function isValidElement(object) {
return typeof object === "object" && object !== null && object.$$typeof === REACT_ELEMENT_TYPE;
}
var SEPARATOR = ".";
var SUBSEPARATOR = ":";
function escape(key) {
var escapeRegex = /[=:]/g;
var escaperLookup = {
"=": "=0",
":": "=2"
};
var escapedString = key.replace(escapeRegex, function(match) {
return escaperLookup[match];
});
return "$" + escapedString;
}
var didWarnAboutMaps = false;
var userProvidedKeyEscapeRegex = /\/+/g;
function escapeUserProvidedKey(text) {
return text.replace(userProvidedKeyEscapeRegex, "$&/");
}
function getElementKey(element, index) {
if (typeof element === "object" && element !== null && element.key != null) {
{
checkKeyStringCoercion(element.key);
}
return escape("" + element.key);
}
return index.toString(36);
}
function mapIntoArray(children, array, escapedPrefix, nameSoFar, callback) {
var type = typeof children;
if (type === "undefined" || type === "boolean") {
children = null;
}
var invokeCallback = false;
if (children === null) {
invokeCallback = true;
} else {
switch (type) {
case "string":
case "number":
invokeCallback = true;
break;
case "object":
switch (children.$$typeof) {
case REACT_ELEMENT_TYPE:
case REACT_PORTAL_TYPE:
invokeCallback = true;
}
}
}
if (invokeCallback) {
var _child = children;
var mappedChild = callback(_child);
var childKey = nameSoFar === "" ? SEPARATOR + getElementKey(_child, 0) : nameSoFar;
if (isArray2(mappedChild)) {
var escapedChildKey = "";
if (childKey != null) {
escapedChildKey = escapeUserProvidedKey(childKey) + "/";
}
mapIntoArray(mappedChild, array, escapedChildKey, "", function(c2) {
return c2;
});
} else if (mappedChild != null) {
if (isValidElement(mappedChild)) {
{
if (mappedChild.key && (!_child || _child.key !== mappedChild.key)) {
checkKeyStringCoercion(mappedChild.key);
}
}
mappedChild = cloneAndReplaceKey(
mappedChild,
// Keep both the (mapped) and old keys if they differ, just as
// traverseAllChildren used to do for objects as children
escapedPrefix + // $FlowFixMe Flow incorrectly thinks React.Portal doesn't have a key
(mappedChild.key && (!_child || _child.key !== mappedChild.key) ? (
// $FlowFixMe Flow incorrectly thinks existing element's key can be a number
// eslint-disable-next-line react-internal/safe-string-coercion
escapeUserProvidedKey("" + mappedChild.key) + "/"
) : "") + childKey
);
}
array.push(mappedChild);
}
return 1;
}
var child;
var nextName;
var subtreeCount = 0;
var nextNamePrefix = nameSoFar === "" ? SEPARATOR : nameSoFar + SUBSEPARATOR;
if (isArray2(children)) {
for (var i = 0; i < children.length; i++) {
child = children[i];
nextName = nextNamePrefix + getElementKey(child, i);
subtreeCount += mapIntoArray(child, array, escapedPrefix, nextName, callback);
}
} else {
var iteratorFn = getIteratorFn(children);
if (typeof iteratorFn === "function") {
var iterableChildren = children;
{
if (iteratorFn === iterableChildren.entries) {
if (!didWarnAboutMaps) {
warn("Using Maps as children is not supported. Use an array of keyed ReactElements instead.");
}
didWarnAboutMaps = true;
}
}
var iterator = iteratorFn.call(iterableChildren);
var step;
var ii = 0;
while (!(step = iterator.next()).done) {
child = step.value;
nextName = nextNamePrefix + getElementKey(child, ii++);
subtreeCount += mapIntoArray(child, array, escapedPrefix, nextName, callback);
}
} else if (type === "object") {
var childrenString = String(children);
throw new Error("Objects are not valid as a React child (found: " + (childrenString === "[object Object]" ? "object with keys {" + Object.keys(children).join(", ") + "}" : childrenString) + "). If you meant to render a collection of children, use an array instead.");
}
}
return subtreeCount;
}
function mapChildren(children, func, context) {
if (children == null) {
return children;
}
var result = [];
var count = 0;
mapIntoArray(children, result, "", "", function(child) {
return func.call(context, child, count++);
});
return result;
}
function countChildren(children) {
var n = 0;
mapChildren(children, function() {
n++;
});
return n;
}
function forEachChildren(children, forEachFunc, forEachContext) {
mapChildren(children, function() {
forEachFunc.apply(this, arguments);
}, forEachContext);
}
function toArray(children) {
return mapChildren(children, function(child) {
return child;
}) || [];
}
function onlyChild(children) {
if (!isValidElement(children)) {
throw new Error("React.Children.only expected to receive a single React element child.");
}
return children;
}
function createContext(defaultValue) {
var context = {
$$typeof: REACT_CONTEXT_TYPE,
// As a workaround to support multiple concurrent renderers, we categorize
// some renderers as primary and others as secondary. We only expect
// there to be two concurrent renderers at most: React Native (primary) and
// Fabric (secondary); React DOM (primary) and React ART (secondary).
// Secondary renderers store their context values on separate fields.
_currentValue: defaultValue,
_currentValue2: defaultValue,
// Used to track how many concurrent renderers this context currently
// supports within in a single renderer. Such as parallel server rendering.
_threadCount: 0,
// These are circular
Provider: null,
Consumer: null,
// Add these to use same hidden class in VM as ServerContext
_defaultValue: null,
_globalName: null
};
context.Provider = {
$$typeof: REACT_PROVIDER_TYPE,
_context: context
};
var hasWarnedAboutUsingNestedContextConsumers = false;
var hasWarnedAboutUsingConsumerProvider = false;
var hasWarnedAboutDisplayNameOnConsumer = false;
{
var Consumer = {
$$typeof: REACT_CONTEXT_TYPE,
_context: context
};
Object.defineProperties(Consumer, {
Provider: {
get: function() {
if (!hasWarnedAboutUsingConsumerProvider) {
hasWarnedAboutUsingConsumerProvider = true;
error("Rendering <Context.Consumer.Provider> is not supported and will be removed in a future major release. Did you mean to render <Context.Provider> instead?");
}
return context.Provider;
},
set: function(_Provider) {
context.Provider = _Provider;
}
},
_currentValue: {
get: function() {
return context._currentValue;
},
set: function(_currentValue) {
context._currentValue = _currentValue;
}
},
_currentValue2: {
get: function() {
return context._currentValue2;
},
set: function(_currentValue2) {
context._currentValue2 = _currentValue2;
}
},
_threadCount: {
get: function() {
return context._threadCount;
},
set: function(_threadCount) {
context._threadCount = _threadCount;
}
},
Consumer: {
get: function() {
if (!hasWarnedAboutUsingNestedContextConsumers) {
hasWarnedAboutUsingNestedContextConsumers = true;
error("Rendering <Context.Consumer.Consumer> is not supported and will be removed in a future major release. Did you mean to render <Context.Consumer> instead?");
}
return context.Consumer;
}
},
displayName: {
get: function() {
return context.displayName;
},
set: function(displayName) {
if (!hasWarnedAboutDisplayNameOnConsumer) {
warn("Setting `displayName` on Context.Consumer has no effect. You should set it directly on the context with Context.displayName = '%s'.", displayName);
hasWarnedAboutDisplayNameOnConsumer = true;
}
}
}
});
context.Consumer = Consumer;
}
{
context._currentRenderer = null;
context._currentRenderer2 = null;
}
return context;
}
var Uninitialized = -1;
var Pending = 0;
var Resolved = 1;
var Rejected = 2;
function lazyInitializer(payload) {
if (payload._status === Uninitialized) {
var ctor = payload._result;
var thenable = ctor();
thenable.then(function(moduleObject2) {
if (payload._status === Pending || payload._status === Uninitialized) {
var resolved = payload;
resolved._status = Resolved;
resolved._result = moduleObject2;
}
}, function(error2) {
if (payload._status === Pending || payload._status === Uninitialized) {
var rejected = payload;
rejected._status = Rejected;
rejected._result = error2;
}
});
if (payload._status === Uninitialized) {
var pending = payload;
pending._status = Pending;
pending._result = thenable;
}
}
if (payload._status === Resolved) {
var moduleObject = payload._result;
{
if (moduleObject === void 0) {
error("lazy: Expected the result of a dynamic import() call. Instead received: %s\n\nYour code should look like: \n const MyComponent = lazy(() => import('./MyComponent'))\n\nDid you accidentally put curly braces around the import?", moduleObject);
}
}
{
if (!("default" in moduleObject)) {
error("lazy: Expected the result of a dynamic import() call. Instead received: %s\n\nYour code should look like: \n const MyComponent = lazy(() => import('./MyComponent'))", moduleObject);
}
}
return moduleObject.default;
} else {
throw payload._result;
}
}
function lazy(ctor) {
var payload = {
// We use these fields to store the result.
_status: Uninitialized,
_result: ctor
};
var lazyType2 = {
$$typeof: REACT_LAZY_TYPE,
_payload: payload,
_init: lazyInitializer
};
{
var defaultProps;
var propTypes;
Object.defineProperties(lazyType2, {
defaultProps: {
configurable: true,
get: function() {
return defaultProps;
},
set: function(newDefaultProps) {
error("React.lazy(...): It is not supported to assign `defaultProps` to a lazy component import. Either specify them where the component is defined, or create a wrapping component around it.");
defaultProps = newDefaultProps;
Object.defineProperty(lazyType2, "defaultProps", {
enumerable: true
});
}
},
propTypes: {
configurable: true,
get: function() {
return propTypes;
},
set: function(newPropTypes) {
error("React.lazy(...): It is not supported to assign `propTypes` to a lazy component import. Either specify them where the component is defined, or create a wrapping component around it.");
propTypes = newPropTypes;
Object.defineProperty(lazyType2, "propTypes", {
enumerable: true
});
}
}
});
}
return lazyType2;
}
function forwardRef(render3) {
{
if (render3 != null && render3.$$typeof === REACT_MEMO_TYPE) {
error("forwardRef requires a render function but received a `memo` component. Instead of forwardRef(memo(...)), use memo(forwardRef(...)).");
} else if (typeof render3 !== "function") {
error("forwardRef requires a render function but was given %s.", render3 === null ? "null" : typeof render3);
} else {
if (render3.length !== 0 && render3.length !== 2) {
error("forwardRef render functions accept exactly two parameters: props and ref. %s", render3.length === 1 ? "Did you forget to use the ref parameter?" : "Any additional parameter will be undefined.");
}
}
if (render3 != null) {
if (render3.defaultProps != null || render3.propTypes != null) {
error("forwardRef render functions do not support propTypes or defaultProps. Did you accidentally pass a React component?");
}
}
}
var elementType = {
$$typeof: REACT_FORWARD_REF_TYPE,
render: render3
};
{
var ownName;
Object.defineProperty(elementType, "displayName", {
enumerable: false,
configurable: true,
get: function() {
return ownName;
},
set: function(name) {
ownName = name;
if (!render3.name && !render3.displayName) {
render3.displayName = name;
}
}
});
}
return elementType;
}
var REACT_MODULE_REFERENCE;
{
REACT_MODULE_REFERENCE = Symbol.for("react.module.reference");
}
function isValidElementType(type) {
if (typeof type === "string" || typeof type === "function") {
return true;
}
if (type === REACT_FRAGMENT_TYPE || type === REACT_PROFILER_TYPE || enableDebugTracing || type === REACT_STRICT_MODE_TYPE || type === REACT_SUSPENSE_TYPE || type === REACT_SUSPENSE_LIST_TYPE || enableLegacyHidden || type === REACT_OFFSCREEN_TYPE || enableScopeAPI || enableCacheElement || enableTransitionTracing) {
return true;
}
if (typeof type === "object" && type !== null) {
if (type.$$typeof === REACT_LAZY_TYPE || type.$$typeof === REACT_MEMO_TYPE || type.$$typeof === REACT_PROVIDER_TYPE || type.$$typeof === REACT_CONTEXT_TYPE || type.$$typeof === REACT_FORWARD_REF_TYPE || // This needs to include all possible module reference object
// types supported by any Flight configuration anywhere since
// we don't know which Flight build this will end up being used
// with.
type.$$typeof === REACT_MODULE_REFERENCE || type.getModuleId !== void 0) {
return true;
}
}
return false;
}
function memo(type, compare) {
{
if (!isValidElementType(type)) {
error("memo: The first argument must be a component. Instead received: %s", type === null ? "null" : typeof type);
}
}
var elementType = {
$$typeof: REACT_MEMO_TYPE,
type,
compare: compare === void 0 ? null : compare
};
{
var ownName;
Object.defineProperty(elementType, "displayName", {
enumerable: false,
configurable: true,
get: function() {
return ownName;
},
set: function(name) {
ownName = name;
if (!type.name && !type.displayName) {
type.displayName = name;
}
}
});
}
return elementType;
}
function resolveDispatcher() {
var dispatcher = ReactCurrentDispatcher.current;
{
if (dispatcher === null) {
error("Invalid hook call. Hooks can only be called inside of the body of a function component. This could happen for one of the following reasons:\n1. You might have mismatching versions of React and the renderer (such as React DOM)\n2. You might be breaking the Rules of Hooks\n3. You might have more than one copy of React in the same app\nSee https://reactjs.org/link/invalid-hook-call for tips about how to debug and fix this problem.");
}
}
return dispatcher;
}
function useContext(Context2) {
var dispatcher = resolveDispatcher();
{
if (Context2._context !== void 0) {
var realContext = Context2._context;
if (realContext.Consumer === Context2) {
error("Calling useContext(Context.Consumer) is not supported, may cause bugs, and will be removed in a future major release. Did you mean to call useContext(Context) instead?");
} else if (realContext.Provider === Context2) {
error("Calling useContext(Context.Provider) is not supported. Did you mean to call useContext(Context) instead?");
}
}
}
return dispatcher.useContext(Context2);
}
function useState3(initialState) {
var dispatcher = resolveDispatcher();
return dispatcher.useState(initialState);
}
function useReducer(reducer, initialArg, init) {
var dispatcher = resolveDispatcher();
return dispatcher.useReducer(reducer, initialArg, init);
}
function useRef(initialValue) {
var dispatcher = resolveDispatcher();
return dispatcher.useRef(initialValue);
}
function useEffect2(create, deps) {
var dispatcher = resolveDispatcher();
return dispatcher.useEffect(create, deps);
}
function useInsertionEffect(create, deps) {
var dispatcher = resolveDispatcher();
return dispatcher.useInsertionEffect(create, deps);
}
function useLayoutEffect(create, deps) {
var dispatcher = resolveDispatcher();
return dispatcher.useLayoutEffect(create, deps);
}
function useCallback(callback, deps) {
var dispatcher = resolveDispatcher();
return dispatcher.useCallback(callback, deps);
}
function useMemo(create, deps) {
var dispatcher = resolveDispatcher();
return dispatcher.useMemo(create, deps);
}
function useImperativeHandle(ref, create, deps) {
var dispatcher = resolveDispatcher();
return dispatcher.useImperativeHandle(ref, create, deps);
}
function useDebugValue(value, formatterFn) {
{
var dispatcher = resolveDispatcher();
return dispatcher.useDebugValue(value, formatterFn);
}
}
function useTransition() {
var dispatcher = resolveDispatcher();
return dispatcher.useTransition();
}
function useDeferredValue(value) {
var dispatcher = resolveDispatcher();
return dispatcher.useDeferredValue(value);
}
function useId() {
var dispatcher = resolveDispatcher();
return dispatcher.useId();
}
function useSyncExternalStore(subscribe, getSnapshot, getServerSnapshot) {
var dispatcher = resolveDispatcher();
return dispatcher.useSyncExternalStore(subscribe, getSnapshot, getServerSnapshot);
}
var disabledDepth = 0;
var prevLog;
var prevInfo;
var prevWarn;
var prevError;
var prevGroup;
var prevGroupCollapsed;
var prevGroupEnd;
function disabledLog() {
}
disabledLog.__reactDisabledLog = true;
function disableLogs() {
{
if (disabledDepth === 0) {
prevLog = console.log;
prevInfo = console.info;
prevWarn = console.warn;
prevError = console.error;
prevGroup = console.group;
prevGroupCollapsed = console.groupCollapsed;
prevGroupEnd = console.groupEnd;
var props = {
configurable: true,
enumerable: true,
value: disabledLog,
writable: true
};
Object.defineProperties(console, {
info: props,
log: props,
warn: props,
error: props,
group: props,
groupCollapsed: props,
groupEnd: props
});
}
disabledDepth++;
}
}
function reenableLogs() {
{
disabledDepth--;
if (disabledDepth === 0) {
var props = {
configurable: true,
enumerable: true,
writable: true
};
Object.defineProperties(console, {
log: assign({}, props, {
value: prevLog
}),
info: assign({}, props, {
value: prevInfo
}),
warn: assign({}, props, {
value: prevWarn
}),
error: assign({}, props, {
value: prevError
}),
group: assign({}, props, {
value: prevGroup
}),
groupCollapsed: assign({}, props, {
value: prevGroupCollapsed
}),
groupEnd: assign({}, props, {
value: prevGroupEnd
})
});
}
if (disabledDepth < 0) {
error("disabledDepth fell below zero. This is a bug in React. Please file an issue.");
}
}
}
var ReactCurrentDispatcher$1 = ReactSharedInternals.ReactCurrentDispatcher;
var prefix;
function describeBuiltInComponentFrame(name, source, ownerFn) {
{
if (prefix === void 0) {
try {
throw Error();
} catch (x2) {
var match = x2.stack.trim().match(/\n( *(at )?)/);
prefix = match && match[1] || "";
}
}
return "\n" + prefix + name;
}
}
var reentry = false;
var componentFrameCache;
{
var PossiblyWeakMap = typeof WeakMap === "function" ? WeakMap : Map;
componentFrameCache = new PossiblyWeakMap();
}
function describeNativeComponentFrame(fn, construct) {
if (!fn || reentry) {
return "";
}
{
var frame = componentFrameCache.get(fn);
if (frame !== void 0) {
return frame;
}
}
var control;
reentry = true;
var previousPrepareStackTrace = Error.prepareStackTrace;
Error.prepareStackTrace = void 0;
var previousDispatcher;
{
previousDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = null;
disableLogs();
}
try {
if (construct) {
var Fake = function() {
throw Error();
};
Object.defineProperty(Fake.prototype, "props", {
set: function() {
throw Error();
}
});
if (typeof Reflect === "object" && Reflect.construct) {
try {
Reflect.construct(Fake, []);
} catch (x2) {
control = x2;
}
Reflect.construct(fn, [], Fake);
} else {
try {
Fake.call();
} catch (x2) {
control = x2;
}
fn.call(Fake.prototype);
}
} else {
try {
throw Error();
} catch (x2) {
control = x2;
}
fn();
}
} catch (sample) {
if (sample && control && typeof sample.stack === "string") {
var sampleLines = sample.stack.split("\n");
var controlLines = control.stack.split("\n");
var s = sampleLines.length - 1;
var c2 = controlLines.length - 1;
while (s >= 1 && c2 >= 0 && sampleLines[s] !== controlLines[c2]) {
c2--;
}
for (; s >= 1 && c2 >= 0; s--, c2--) {
if (sampleLines[s] !== controlLines[c2]) {
if (s !== 1 || c2 !== 1) {
do {
s--;
c2--;
if (c2 < 0 || sampleLines[s] !== controlLines[c2]) {
var _frame = "\n" + sampleLines[s].replace(" at new ", " at ");
if (fn.displayName && _frame.includes("<anonymous>")) {
_frame = _frame.replace("<anonymous>", fn.displayName);
}
{
if (typeof fn === "function") {
componentFrameCache.set(fn, _frame);
}
}
return _frame;
}
} while (s >= 1 && c2 >= 0);
}
break;
}
}
}
} finally {
reentry = false;
{
ReactCurrentDispatcher$1.current = previousDispatcher;
reenableLogs();
}
Error.prepareStackTrace = previousPrepareStackTrace;
}
var name = fn ? fn.displayName || fn.name : "";
var syntheticFrame = name ? describeBuiltInComponentFrame(name) : "";
{
if (typeof fn === "function") {
componentFrameCache.set(fn, syntheticFrame);
}
}
return syntheticFrame;
}
function describeFunctionComponentFrame(fn, source, ownerFn) {
{
return describeNativeComponentFrame(fn, false);
}
}
function shouldConstruct(Component2) {
var prototype = Component2.prototype;
return !!(prototype && prototype.isReactComponent);
}
function describeUnknownElementTypeFrameInDEV(type, source, ownerFn) {
if (type == null) {
return "";
}
if (typeof type === "function") {
{
return describeNativeComponentFrame(type, shouldConstruct(type));
}
}
if (typeof type === "string") {
return describeBuiltInComponentFrame(type);
}
switch (type) {
case REACT_SUSPENSE_TYPE:
return describeBuiltInComponentFrame("Suspense");
case REACT_SUSPENSE_LIST_TYPE:
return describeBuiltInComponentFrame("SuspenseList");
}
if (typeof type === "object") {
switch (type.$$typeof) {
case REACT_FORWARD_REF_TYPE:
return describeFunctionComponentFrame(type.render);
case REACT_MEMO_TYPE:
return describeUnknownElementTypeFrameInDEV(type.type, source, ownerFn);
case REACT_LAZY_TYPE: {
var lazyComponent = type;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
try {
return describeUnknownElementTypeFrameInDEV(init(payload), source, ownerFn);
} catch (x2) {
}
}
}
}
return "";
}
var loggedTypeFailures = {};
var ReactDebugCurrentFrame$1 = ReactSharedInternals.ReactDebugCurrentFrame;
function setCurrentlyValidatingElement(element) {
{
if (element) {
var owner = element._owner;
var stack = describeUnknownElementTypeFrameInDEV(element.type, element._source, owner ? owner.type : null);
ReactDebugCurrentFrame$1.setExtraStackFrame(stack);
} else {
ReactDebugCurrentFrame$1.setExtraStackFrame(null);
}
}
}
function checkPropTypes(typeSpecs, values, location, componentName, element) {
{
var has = Function.call.bind(hasOwnProperty);
for (var typeSpecName in typeSpecs) {
if (has(typeSpecs, typeSpecName)) {
var error$1 = void 0;
try {
if (typeof typeSpecs[typeSpecName] !== "function") {
var err = Error((componentName || "React class") + ": " + location + " type `" + typeSpecName + "` is invalid; it must be a function, usually from the `prop-types` package, but received `" + typeof typeSpecs[typeSpecName] + "`.This often happens because of typos such as `PropTypes.function` instead of `PropTypes.func`.");
err.name = "Invariant Violation";
throw err;
}
error$1 = typeSpecs[typeSpecName](values, typeSpecName, componentName, location, null, "SECRET_DO_NOT_PASS_THIS_OR_YOU_WILL_BE_FIRED");
} catch (ex) {
error$1 = ex;
}
if (error$1 && !(error$1 instanceof Error)) {
setCurrentlyValidatingElement(element);
error("%s: type specification of %s `%s` is invalid; the type checker function must return `null` or an `Error` but returned a %s. You may have forgotten to pass an argument to the type checker creator (arrayOf, instanceOf, objectOf, oneOf, oneOfType, and shape all require an argument).", componentName || "React class", location, typeSpecName, typeof error$1);
setCurrentlyValidatingElement(null);
}
if (error$1 instanceof Error && !(error$1.message in loggedTypeFailures)) {
loggedTypeFailures[error$1.message] = true;
setCurrentlyValidatingElement(element);
error("Failed %s type: %s", location, error$1.message);
setCurrentlyValidatingElement(null);
}
}
}
}
}
function setCurrentlyValidatingElement$1(element) {
{
if (element) {
var owner = element._owner;
var stack = describeUnknownElementTypeFrameInDEV(element.type, element._source, owner ? owner.type : null);
setExtraStackFrame(stack);
} else {
setExtraStackFrame(null);
}
}
}
var propTypesMisspellWarningShown;
{
propTypesMisspellWarningShown = false;
}
function getDeclarationErrorAddendum() {
if (ReactCurrentOwner.current) {
var name = getComponentNameFromType(ReactCurrentOwner.current.type);
if (name) {
return "\n\nCheck the render method of `" + name + "`.";
}
}
return "";
}
function getSourceInfoErrorAddendum(source) {
if (source !== void 0) {
var fileName = source.fileName.replace(/^.*[\\\/]/, "");
var lineNumber = source.lineNumber;
return "\n\nCheck your code at " + fileName + ":" + lineNumber + ".";
}
return "";
}
function getSourceInfoErrorAddendumForProps(elementProps) {
if (elementProps !== null && elementProps !== void 0) {
return getSourceInfoErrorAddendum(elementProps.__source);
}
return "";
}
var ownerHasKeyUseWarning = {};
function getCurrentComponentErrorInfo(parentType) {
var info = getDeclarationErrorAddendum();
if (!info) {
var parentName = typeof parentType === "string" ? parentType : parentType.displayName || parentType.name;
if (parentName) {
info = "\n\nCheck the top-level render call using <" + parentName + ">.";
}
}
return info;
}
function validateExplicitKey(element, parentType) {
if (!element._store || element._store.validated || element.key != null) {
return;
}
element._store.validated = true;
var currentComponentErrorInfo = getCurrentComponentErrorInfo(parentType);
if (ownerHasKeyUseWarning[currentComponentErrorInfo]) {
return;
}
ownerHasKeyUseWarning[currentComponentErrorInfo] = true;
var childOwner = "";
if (element && element._owner && element._owner !== ReactCurrentOwner.current) {
childOwner = " It was passed a child from " + getComponentNameFromType(element._owner.type) + ".";
}
{
setCurrentlyValidatingElement$1(element);
error('Each child in a list should have a unique "key" prop.%s%s See https://reactjs.org/link/warning-keys for more information.', currentComponentErrorInfo, childOwner);
setCurrentlyValidatingElement$1(null);
}
}
function validateChildKeys(node, parentType) {
if (typeof node !== "object") {
return;
}
if (isArray2(node)) {
for (var i = 0; i < node.length; i++) {
var child = node[i];
if (isValidElement(child)) {
validateExplicitKey(child, parentType);
}
}
} else if (isValidElement(node)) {
if (node._store) {
node._store.validated = true;
}
} else if (node) {
var iteratorFn = getIteratorFn(node);
if (typeof iteratorFn === "function") {
if (iteratorFn !== node.entries) {
var iterator = iteratorFn.call(node);
var step;
while (!(step = iterator.next()).done) {
if (isValidElement(step.value)) {
validateExplicitKey(step.value, parentType);
}
}
}
}
}
}
function validatePropTypes(element) {
{
var type = element.type;
if (type === null || type === void 0 || typeof type === "string") {
return;
}
var propTypes;
if (typeof type === "function") {
propTypes = type.propTypes;
} else if (typeof type === "object" && (type.$$typeof === REACT_FORWARD_REF_TYPE || // Note: Memo only checks outer props here.
// Inner props are checked in the reconciler.
type.$$typeof === REACT_MEMO_TYPE)) {
propTypes = type.propTypes;
} else {
return;
}
if (propTypes) {
var name = getComponentNameFromType(type);
checkPropTypes(propTypes, element.props, "prop", name, element);
} else if (type.PropTypes !== void 0 && !propTypesMisspellWarningShown) {
propTypesMisspellWarningShown = true;
var _name = getComponentNameFromType(type);
error("Component %s declared `PropTypes` instead of `propTypes`. Did you misspell the property assignment?", _name || "Unknown");
}
if (typeof type.getDefaultProps === "function" && !type.getDefaultProps.isReactClassApproved) {
error("getDefaultProps is only used on classic React.createClass definitions. Use a static property named `defaultProps` instead.");
}
}
}
function validateFragmentProps(fragment) {
{
var keys = Object.keys(fragment.props);
for (var i = 0; i < keys.length; i++) {
var key = keys[i];
if (key !== "children" && key !== "key") {
setCurrentlyValidatingElement$1(fragment);
error("Invalid prop `%s` supplied to `React.Fragment`. React.Fragment can only have `key` and `children` props.", key);
setCurrentlyValidatingElement$1(null);
break;
}
}
if (fragment.ref !== null) {
setCurrentlyValidatingElement$1(fragment);
error("Invalid attribute `ref` supplied to `React.Fragment`.");
setCurrentlyValidatingElement$1(null);
}
}
}
function createElementWithValidation(type, props, children) {
var validType = isValidElementType(type);
if (!validType) {
var info = "";
if (type === void 0 || typeof type === "object" && type !== null && Object.keys(type).length === 0) {
info += " You likely forgot to export your component from the file it's defined in, or you might have mixed up default and named imports.";
}
var sourceInfo = getSourceInfoErrorAddendumForProps(props);
if (sourceInfo) {
info += sourceInfo;
} else {
info += getDeclarationErrorAddendum();
}
var typeString;
if (type === null) {
typeString = "null";
} else if (isArray2(type)) {
typeString = "array";
} else if (type !== void 0 && type.$$typeof === REACT_ELEMENT_TYPE) {
typeString = "<" + (getComponentNameFromType(type.type) || "Unknown") + " />";
info = " Did you accidentally export a JSX literal instead of a component?";
} else {
typeString = typeof type;
}
{
error("React.createElement: type is invalid -- expected a string (for built-in components) or a class/function (for composite components) but got: %s.%s", typeString, info);
}
}
var element = createElement13.apply(this, arguments);
if (element == null) {
return element;
}
if (validType) {
for (var i = 2; i < arguments.length; i++) {
validateChildKeys(arguments[i], type);
}
}
if (type === REACT_FRAGMENT_TYPE) {
validateFragmentProps(element);
} else {
validatePropTypes(element);
}
return element;
}
var didWarnAboutDeprecatedCreateFactory = false;
function createFactoryWithValidation(type) {
var validatedFactory = createElementWithValidation.bind(null, type);
validatedFactory.type = type;
{
if (!didWarnAboutDeprecatedCreateFactory) {
didWarnAboutDeprecatedCreateFactory = true;
warn("React.createFactory() is deprecated and will be removed in a future major release. Consider using JSX or use React.createElement() directly instead.");
}
Object.defineProperty(validatedFactory, "type", {
enumerable: false,
get: function() {
warn("Factory.type is deprecated. Access the class directly before passing it to createFactory.");
Object.defineProperty(this, "type", {
value: type
});
return type;
}
});
}
return validatedFactory;
}
function cloneElementWithValidation(element, props, children) {
var newElement = cloneElement.apply(this, arguments);
for (var i = 2; i < arguments.length; i++) {
validateChildKeys(arguments[i], newElement.type);
}
validatePropTypes(newElement);
return newElement;
}
function startTransition(scope, options) {
var prevTransition = ReactCurrentBatchConfig.transition;
ReactCurrentBatchConfig.transition = {};
var currentTransition = ReactCurrentBatchConfig.transition;
{
ReactCurrentBatchConfig.transition._updatedFibers = /* @__PURE__ */ new Set();
}
try {
scope();
} finally {
ReactCurrentBatchConfig.transition = prevTransition;
{
if (prevTransition === null && currentTransition._updatedFibers) {
var updatedFibersCount = currentTransition._updatedFibers.size;
if (updatedFibersCount > 10) {
warn("Detected a large number of updates inside startTransition. If this is due to a subscription please re-write it to use React provided hooks. Otherwise concurrent mode guarantees are off the table.");
}
currentTransition._updatedFibers.clear();
}
}
}
}
var didWarnAboutMessageChannel = false;
var enqueueTaskImpl = null;
function enqueueTask(task) {
if (enqueueTaskImpl === null) {
try {
var requireString = ("require" + Math.random()).slice(0, 7);
var nodeRequire = module2 && module2[requireString];
enqueueTaskImpl = nodeRequire.call(module2, "timers").setImmediate;
} catch (_err) {
enqueueTaskImpl = function(callback) {
{
if (didWarnAboutMessageChannel === false) {
didWarnAboutMessageChannel = true;
if (typeof MessageChannel === "undefined") {
error("This browser does not have a MessageChannel implementation, so enqueuing tasks via await act(async () => ...) will fail. Please file an issue at https://github.com/facebook/react/issues if you encounter this warning.");
}
}
}
var channel = new MessageChannel();
channel.port1.onmessage = callback;
channel.port2.postMessage(void 0);
};
}
}
return enqueueTaskImpl(task);
}
var actScopeDepth = 0;
var didWarnNoAwaitAct = false;
function act(callback) {
{
var prevActScopeDepth = actScopeDepth;
actScopeDepth++;
if (ReactCurrentActQueue.current === null) {
ReactCurrentActQueue.current = [];
}
var prevIsBatchingLegacy = ReactCurrentActQueue.isBatchingLegacy;
var result;
try {
ReactCurrentActQueue.isBatchingLegacy = true;
result = callback();
if (!prevIsBatchingLegacy && ReactCurrentActQueue.didScheduleLegacyUpdate) {
var queue = ReactCurrentActQueue.current;
if (queue !== null) {
ReactCurrentActQueue.didScheduleLegacyUpdate = false;
flushActQueue(queue);
}
}
} catch (error2) {
popActScope(prevActScopeDepth);
throw error2;
} finally {
ReactCurrentActQueue.isBatchingLegacy = prevIsBatchingLegacy;
}
if (result !== null && typeof result === "object" && typeof result.then === "function") {
var thenableResult = result;
var wasAwaited = false;
var thenable = {
then: function(resolve, reject) {
wasAwaited = true;
thenableResult.then(function(returnValue2) {
popActScope(prevActScopeDepth);
if (actScopeDepth === 0) {
recursivelyFlushAsyncActWork(returnValue2, resolve, reject);
} else {
resolve(returnValue2);
}
}, function(error2) {
popActScope(prevActScopeDepth);
reject(error2);
});
}
};
{
if (!didWarnNoAwaitAct && typeof Promise !== "undefined") {
Promise.resolve().then(function() {
}).then(function() {
if (!wasAwaited) {
didWarnNoAwaitAct = true;
error("You called act(async () => ...) without await. This could lead to unexpected testing behaviour, interleaving multiple act calls and mixing their scopes. You should - await act(async () => ...);");
}
});
}
}
return thenable;
} else {
var returnValue = result;
popActScope(prevActScopeDepth);
if (actScopeDepth === 0) {
var _queue = ReactCurrentActQueue.current;
if (_queue !== null) {
flushActQueue(_queue);
ReactCurrentActQueue.current = null;
}
var _thenable = {
then: function(resolve, reject) {
if (ReactCurrentActQueue.current === null) {
ReactCurrentActQueue.current = [];
recursivelyFlushAsyncActWork(returnValue, resolve, reject);
} else {
resolve(returnValue);
}
}
};
return _thenable;
} else {
var _thenable2 = {
then: function(resolve, reject) {
resolve(returnValue);
}
};
return _thenable2;
}
}
}
}
function popActScope(prevActScopeDepth) {
{
if (prevActScopeDepth !== actScopeDepth - 1) {
error("You seem to have overlapping act() calls, this is not supported. Be sure to await previous act() calls before making a new one. ");
}
actScopeDepth = prevActScopeDepth;
}
}
function recursivelyFlushAsyncActWork(returnValue, resolve, reject) {
{
var queue = ReactCurrentActQueue.current;
if (queue !== null) {
try {
flushActQueue(queue);
enqueueTask(function() {
if (queue.length === 0) {
ReactCurrentActQueue.current = null;
resolve(returnValue);
} else {
recursivelyFlushAsyncActWork(returnValue, resolve, reject);
}
});
} catch (error2) {
reject(error2);
}
} else {
resolve(returnValue);
}
}
}
var isFlushing = false;
function flushActQueue(queue) {
{
if (!isFlushing) {
isFlushing = true;
var i = 0;
try {
for (; i < queue.length; i++) {
var callback = queue[i];
do {
callback = callback(true);
} while (callback !== null);
}
queue.length = 0;
} catch (error2) {
queue = queue.slice(i + 1);
throw error2;
} finally {
isFlushing = false;
}
}
}
}
var createElement$1 = createElementWithValidation;
var cloneElement$1 = cloneElementWithValidation;
var createFactory = createFactoryWithValidation;
var Children = {
map: mapChildren,
forEach: forEachChildren,
count: countChildren,
toArray,
only: onlyChild
};
exports.Children = Children;
exports.Component = Component;
exports.Fragment = REACT_FRAGMENT_TYPE;
exports.Profiler = REACT_PROFILER_TYPE;
exports.PureComponent = PureComponent;
exports.StrictMode = REACT_STRICT_MODE_TYPE;
exports.Suspense = REACT_SUSPENSE_TYPE;
exports.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED = ReactSharedInternals;
exports.cloneElement = cloneElement$1;
exports.createContext = createContext;
exports.createElement = createElement$1;
exports.createFactory = createFactory;
exports.createRef = createRef;
exports.forwardRef = forwardRef;
exports.isValidElement = isValidElement;
exports.lazy = lazy;
exports.memo = memo;
exports.startTransition = startTransition;
exports.unstable_act = act;
exports.useCallback = useCallback;
exports.useContext = useContext;
exports.useDebugValue = useDebugValue;
exports.useDeferredValue = useDeferredValue;
exports.useEffect = useEffect2;
exports.useId = useId;
exports.useImperativeHandle = useImperativeHandle;
exports.useInsertionEffect = useInsertionEffect;
exports.useLayoutEffect = useLayoutEffect;
exports.useMemo = useMemo;
exports.useReducer = useReducer;
exports.useRef = useRef;
exports.useState = useState3;
exports.useSyncExternalStore = useSyncExternalStore;
exports.useTransition = useTransition;
exports.version = ReactVersion;
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ !== "undefined" && typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStop === "function") {
__REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStop(new Error());
}
})();
}
}
});
// node_modules/react/index.js
var require_react = __commonJS({
"node_modules/react/index.js"(exports, module2) {
"use strict";
if (false) {
module2.exports = null;
} else {
module2.exports = require_react_development();
}
}
});
// node_modules/scheduler/cjs/scheduler.development.js
var require_scheduler_development = __commonJS({
"node_modules/scheduler/cjs/scheduler.development.js"(exports) {
"use strict";
if (true) {
(function() {
"use strict";
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ !== "undefined" && typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStart === "function") {
__REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStart(new Error());
}
var enableSchedulerDebugging = false;
var enableProfiling = false;
var frameYieldMs = 5;
function push2(heap, node) {
var index = heap.length;
heap.push(node);
siftUp(heap, node, index);
}
function peek(heap) {
return heap.length === 0 ? null : heap[0];
}
function pop(heap) {
if (heap.length === 0) {
return null;
}
var first = heap[0];
var last = heap.pop();
if (last !== first) {
heap[0] = last;
siftDown(heap, last, 0);
}
return first;
}
function siftUp(heap, node, i) {
var index = i;
while (index > 0) {
var parentIndex = index - 1 >>> 1;
var parent = heap[parentIndex];
if (compare(parent, node) > 0) {
heap[parentIndex] = node;
heap[index] = parent;
index = parentIndex;
} else {
return;
}
}
}
function siftDown(heap, node, i) {
var index = i;
var length = heap.length;
var halfLength = length >>> 1;
while (index < halfLength) {
var leftIndex = (index + 1) * 2 - 1;
var left = heap[leftIndex];
var rightIndex = leftIndex + 1;
var right = heap[rightIndex];
if (compare(left, node) < 0) {
if (rightIndex < length && compare(right, left) < 0) {
heap[index] = right;
heap[rightIndex] = node;
index = rightIndex;
} else {
heap[index] = left;
heap[leftIndex] = node;
index = leftIndex;
}
} else if (rightIndex < length && compare(right, node) < 0) {
heap[index] = right;
heap[rightIndex] = node;
index = rightIndex;
} else {
return;
}
}
}
function compare(a2, b2) {
var diff = a2.sortIndex - b2.sortIndex;
return diff !== 0 ? diff : a2.id - b2.id;
}
var ImmediatePriority = 1;
var UserBlockingPriority = 2;
var NormalPriority = 3;
var LowPriority = 4;
var IdlePriority = 5;
function markTaskErrored(task, ms) {
}
var hasPerformanceNow = typeof performance === "object" && typeof performance.now === "function";
if (hasPerformanceNow) {
var localPerformance = performance;
exports.unstable_now = function() {
return localPerformance.now();
};
} else {
var localDate = Date;
var initialTime = localDate.now();
exports.unstable_now = function() {
return localDate.now() - initialTime;
};
}
var maxSigned31BitInt = 1073741823;
var IMMEDIATE_PRIORITY_TIMEOUT = -1;
var USER_BLOCKING_PRIORITY_TIMEOUT = 250;
var NORMAL_PRIORITY_TIMEOUT = 5e3;
var LOW_PRIORITY_TIMEOUT = 1e4;
var IDLE_PRIORITY_TIMEOUT = maxSigned31BitInt;
var taskQueue = [];
var timerQueue = [];
var taskIdCounter = 1;
var currentTask = null;
var currentPriorityLevel = NormalPriority;
var isPerformingWork = false;
var isHostCallbackScheduled = false;
var isHostTimeoutScheduled = false;
var localSetTimeout = typeof setTimeout === "function" ? setTimeout : null;
var localClearTimeout = typeof clearTimeout === "function" ? clearTimeout : null;
var localSetImmediate = typeof setImmediate !== "undefined" ? setImmediate : null;
var isInputPending = typeof navigator !== "undefined" && navigator.scheduling !== void 0 && navigator.scheduling.isInputPending !== void 0 ? navigator.scheduling.isInputPending.bind(navigator.scheduling) : null;
function advanceTimers(currentTime) {
var timer = peek(timerQueue);
while (timer !== null) {
if (timer.callback === null) {
pop(timerQueue);
} else if (timer.startTime <= currentTime) {
pop(timerQueue);
timer.sortIndex = timer.expirationTime;
push2(taskQueue, timer);
} else {
return;
}
timer = peek(timerQueue);
}
}
function handleTimeout(currentTime) {
isHostTimeoutScheduled = false;
advanceTimers(currentTime);
if (!isHostCallbackScheduled) {
if (peek(taskQueue) !== null) {
isHostCallbackScheduled = true;
requestHostCallback(flushWork);
} else {
var firstTimer = peek(timerQueue);
if (firstTimer !== null) {
requestHostTimeout(handleTimeout, firstTimer.startTime - currentTime);
}
}
}
}
function flushWork(hasTimeRemaining, initialTime2) {
isHostCallbackScheduled = false;
if (isHostTimeoutScheduled) {
isHostTimeoutScheduled = false;
cancelHostTimeout();
}
isPerformingWork = true;
var previousPriorityLevel = currentPriorityLevel;
try {
if (enableProfiling) {
try {
return workLoop(hasTimeRemaining, initialTime2);
} catch (error) {
if (currentTask !== null) {
var currentTime = exports.unstable_now();
markTaskErrored(currentTask, currentTime);
currentTask.isQueued = false;
}
throw error;
}
} else {
return workLoop(hasTimeRemaining, initialTime2);
}
} finally {
currentTask = null;
currentPriorityLevel = previousPriorityLevel;
isPerformingWork = false;
}
}
function workLoop(hasTimeRemaining, initialTime2) {
var currentTime = initialTime2;
advanceTimers(currentTime);
currentTask = peek(taskQueue);
while (currentTask !== null && !enableSchedulerDebugging) {
if (currentTask.expirationTime > currentTime && (!hasTimeRemaining || shouldYieldToHost())) {
break;
}
var callback = currentTask.callback;
if (typeof callback === "function") {
currentTask.callback = null;
currentPriorityLevel = currentTask.priorityLevel;
var didUserCallbackTimeout = currentTask.expirationTime <= currentTime;
var continuationCallback = callback(didUserCallbackTimeout);
currentTime = exports.unstable_now();
if (typeof continuationCallback === "function") {
currentTask.callback = continuationCallback;
} else {
if (currentTask === peek(taskQueue)) {
pop(taskQueue);
}
}
advanceTimers(currentTime);
} else {
pop(taskQueue);
}
currentTask = peek(taskQueue);
}
if (currentTask !== null) {
return true;
} else {
var firstTimer = peek(timerQueue);
if (firstTimer !== null) {
requestHostTimeout(handleTimeout, firstTimer.startTime - currentTime);
}
return false;
}
}
function unstable_runWithPriority(priorityLevel, eventHandler) {
switch (priorityLevel) {
case ImmediatePriority:
case UserBlockingPriority:
case NormalPriority:
case LowPriority:
case IdlePriority:
break;
default:
priorityLevel = NormalPriority;
}
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = priorityLevel;
try {
return eventHandler();
} finally {
currentPriorityLevel = previousPriorityLevel;
}
}
function unstable_next(eventHandler) {
var priorityLevel;
switch (currentPriorityLevel) {
case ImmediatePriority:
case UserBlockingPriority:
case NormalPriority:
priorityLevel = NormalPriority;
break;
default:
priorityLevel = currentPriorityLevel;
break;
}
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = priorityLevel;
try {
return eventHandler();
} finally {
currentPriorityLevel = previousPriorityLevel;
}
}
function unstable_wrapCallback(callback) {
var parentPriorityLevel = currentPriorityLevel;
return function() {
var previousPriorityLevel = currentPriorityLevel;
currentPriorityLevel = parentPriorityLevel;
try {
return callback.apply(this, arguments);
} finally {
currentPriorityLevel = previousPriorityLevel;
}
};
}
function unstable_scheduleCallback(priorityLevel, callback, options) {
var currentTime = exports.unstable_now();
var startTime2;
if (typeof options === "object" && options !== null) {
var delay = options.delay;
if (typeof delay === "number" && delay > 0) {
startTime2 = currentTime + delay;
} else {
startTime2 = currentTime;
}
} else {
startTime2 = currentTime;
}
var timeout;
switch (priorityLevel) {
case ImmediatePriority:
timeout = IMMEDIATE_PRIORITY_TIMEOUT;
break;
case UserBlockingPriority:
timeout = USER_BLOCKING_PRIORITY_TIMEOUT;
break;
case IdlePriority:
timeout = IDLE_PRIORITY_TIMEOUT;
break;
case LowPriority:
timeout = LOW_PRIORITY_TIMEOUT;
break;
case NormalPriority:
default:
timeout = NORMAL_PRIORITY_TIMEOUT;
break;
}
var expirationTime = startTime2 + timeout;
var newTask = {
id: taskIdCounter++,
callback,
priorityLevel,
startTime: startTime2,
expirationTime,
sortIndex: -1
};
if (startTime2 > currentTime) {
newTask.sortIndex = startTime2;
push2(timerQueue, newTask);
if (peek(taskQueue) === null && newTask === peek(timerQueue)) {
if (isHostTimeoutScheduled) {
cancelHostTimeout();
} else {
isHostTimeoutScheduled = true;
}
requestHostTimeout(handleTimeout, startTime2 - currentTime);
}
} else {
newTask.sortIndex = expirationTime;
push2(taskQueue, newTask);
if (!isHostCallbackScheduled && !isPerformingWork) {
isHostCallbackScheduled = true;
requestHostCallback(flushWork);
}
}
return newTask;
}
function unstable_pauseExecution() {
}
function unstable_continueExecution() {
if (!isHostCallbackScheduled && !isPerformingWork) {
isHostCallbackScheduled = true;
requestHostCallback(flushWork);
}
}
function unstable_getFirstCallbackNode() {
return peek(taskQueue);
}
function unstable_cancelCallback(task) {
task.callback = null;
}
function unstable_getCurrentPriorityLevel() {
return currentPriorityLevel;
}
var isMessageLoopRunning = false;
var scheduledHostCallback = null;
var taskTimeoutID = -1;
var frameInterval = frameYieldMs;
var startTime = -1;
function shouldYieldToHost() {
var timeElapsed = exports.unstable_now() - startTime;
if (timeElapsed < frameInterval) {
return false;
}
return true;
}
function requestPaint() {
}
function forceFrameRate(fps) {
if (fps < 0 || fps > 125) {
console["error"]("forceFrameRate takes a positive int between 0 and 125, forcing frame rates higher than 125 fps is not supported");
return;
}
if (fps > 0) {
frameInterval = Math.floor(1e3 / fps);
} else {
frameInterval = frameYieldMs;
}
}
var performWorkUntilDeadline = function() {
if (scheduledHostCallback !== null) {
var currentTime = exports.unstable_now();
startTime = currentTime;
var hasTimeRemaining = true;
var hasMoreWork = true;
try {
hasMoreWork = scheduledHostCallback(hasTimeRemaining, currentTime);
} finally {
if (hasMoreWork) {
schedulePerformWorkUntilDeadline();
} else {
isMessageLoopRunning = false;
scheduledHostCallback = null;
}
}
} else {
isMessageLoopRunning = false;
}
};
var schedulePerformWorkUntilDeadline;
if (typeof localSetImmediate === "function") {
schedulePerformWorkUntilDeadline = function() {
localSetImmediate(performWorkUntilDeadline);
};
} else if (typeof MessageChannel !== "undefined") {
var channel = new MessageChannel();
var port = channel.port2;
channel.port1.onmessage = performWorkUntilDeadline;
schedulePerformWorkUntilDeadline = function() {
port.postMessage(null);
};
} else {
schedulePerformWorkUntilDeadline = function() {
localSetTimeout(performWorkUntilDeadline, 0);
};
}
function requestHostCallback(callback) {
scheduledHostCallback = callback;
if (!isMessageLoopRunning) {
isMessageLoopRunning = true;
schedulePerformWorkUntilDeadline();
}
}
function requestHostTimeout(callback, ms) {
taskTimeoutID = localSetTimeout(function() {
callback(exports.unstable_now());
}, ms);
}
function cancelHostTimeout() {
localClearTimeout(taskTimeoutID);
taskTimeoutID = -1;
}
var unstable_requestPaint = requestPaint;
var unstable_Profiling = null;
exports.unstable_IdlePriority = IdlePriority;
exports.unstable_ImmediatePriority = ImmediatePriority;
exports.unstable_LowPriority = LowPriority;
exports.unstable_NormalPriority = NormalPriority;
exports.unstable_Profiling = unstable_Profiling;
exports.unstable_UserBlockingPriority = UserBlockingPriority;
exports.unstable_cancelCallback = unstable_cancelCallback;
exports.unstable_continueExecution = unstable_continueExecution;
exports.unstable_forceFrameRate = forceFrameRate;
exports.unstable_getCurrentPriorityLevel = unstable_getCurrentPriorityLevel;
exports.unstable_getFirstCallbackNode = unstable_getFirstCallbackNode;
exports.unstable_next = unstable_next;
exports.unstable_pauseExecution = unstable_pauseExecution;
exports.unstable_requestPaint = unstable_requestPaint;
exports.unstable_runWithPriority = unstable_runWithPriority;
exports.unstable_scheduleCallback = unstable_scheduleCallback;
exports.unstable_shouldYield = shouldYieldToHost;
exports.unstable_wrapCallback = unstable_wrapCallback;
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ !== "undefined" && typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStop === "function") {
__REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStop(new Error());
}
})();
}
}
});
// node_modules/scheduler/index.js
var require_scheduler = __commonJS({
"node_modules/scheduler/index.js"(exports, module2) {
"use strict";
if (false) {
module2.exports = null;
} else {
module2.exports = require_scheduler_development();
}
}
});
// node_modules/react-dom/cjs/react-dom.development.js
var require_react_dom_development = __commonJS({
"node_modules/react-dom/cjs/react-dom.development.js"(exports) {
"use strict";
if (true) {
(function() {
"use strict";
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ !== "undefined" && typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStart === "function") {
__REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStart(new Error());
}
var React17 = require_react();
var Scheduler = require_scheduler();
var ReactSharedInternals = React17.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED;
var suppressWarning = false;
function setSuppressWarning(newSuppressWarning) {
{
suppressWarning = newSuppressWarning;
}
}
function warn(format) {
{
if (!suppressWarning) {
for (var _len = arguments.length, args = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) {
args[_key - 1] = arguments[_key];
}
printWarning("warn", format, args);
}
}
}
function error(format) {
{
if (!suppressWarning) {
for (var _len2 = arguments.length, args = new Array(_len2 > 1 ? _len2 - 1 : 0), _key2 = 1; _key2 < _len2; _key2++) {
args[_key2 - 1] = arguments[_key2];
}
printWarning("error", format, args);
}
}
}
function printWarning(level, format, args) {
{
var ReactDebugCurrentFrame2 = ReactSharedInternals.ReactDebugCurrentFrame;
var stack = ReactDebugCurrentFrame2.getStackAddendum();
if (stack !== "") {
format += "%s";
args = args.concat([stack]);
}
var argsWithFormat = args.map(function(item) {
return String(item);
});
argsWithFormat.unshift("Warning: " + format);
Function.prototype.apply.call(console[level], console, argsWithFormat);
}
}
var FunctionComponent = 0;
var ClassComponent = 1;
var IndeterminateComponent = 2;
var HostRoot = 3;
var HostPortal = 4;
var HostComponent = 5;
var HostText = 6;
var Fragment12 = 7;
var Mode = 8;
var ContextConsumer = 9;
var ContextProvider = 10;
var ForwardRef = 11;
var Profiler = 12;
var SuspenseComponent = 13;
var MemoComponent = 14;
var SimpleMemoComponent = 15;
var LazyComponent = 16;
var IncompleteClassComponent = 17;
var DehydratedFragment = 18;
var SuspenseListComponent = 19;
var ScopeComponent = 21;
var OffscreenComponent = 22;
var LegacyHiddenComponent = 23;
var CacheComponent = 24;
var TracingMarkerComponent = 25;
var enableClientRenderFallbackOnTextMismatch = true;
var enableNewReconciler = false;
var enableLazyContextPropagation = false;
var enableLegacyHidden = false;
var enableSuspenseAvoidThisFallback = false;
var disableCommentsAsDOMContainers = true;
var enableCustomElementPropertySupport = false;
var warnAboutStringRefs = false;
var enableSchedulingProfiler = true;
var enableProfilerTimer = true;
var enableProfilerCommitHooks = true;
var allNativeEvents = /* @__PURE__ */ new Set();
var registrationNameDependencies = {};
var possibleRegistrationNames = {};
function registerTwoPhaseEvent(registrationName, dependencies) {
registerDirectEvent(registrationName, dependencies);
registerDirectEvent(registrationName + "Capture", dependencies);
}
function registerDirectEvent(registrationName, dependencies) {
{
if (registrationNameDependencies[registrationName]) {
error("EventRegistry: More than one plugin attempted to publish the same registration name, `%s`.", registrationName);
}
}
registrationNameDependencies[registrationName] = dependencies;
{
var lowerCasedName = registrationName.toLowerCase();
possibleRegistrationNames[lowerCasedName] = registrationName;
if (registrationName === "onDoubleClick") {
possibleRegistrationNames.ondblclick = registrationName;
}
}
for (var i = 0; i < dependencies.length; i++) {
allNativeEvents.add(dependencies[i]);
}
}
var canUseDOM = !!(typeof window !== "undefined" && typeof window.document !== "undefined" && typeof window.document.createElement !== "undefined");
var hasOwnProperty = Object.prototype.hasOwnProperty;
function typeName(value) {
{
var hasToStringTag = typeof Symbol === "function" && Symbol.toStringTag;
var type = hasToStringTag && value[Symbol.toStringTag] || value.constructor.name || "Object";
return type;
}
}
function willCoercionThrow(value) {
{
try {
testStringCoercion(value);
return false;
} catch (e) {
return true;
}
}
}
function testStringCoercion(value) {
return "" + value;
}
function checkAttributeStringCoercion(value, attributeName) {
{
if (willCoercionThrow(value)) {
error("The provided `%s` attribute is an unsupported type %s. This value must be coerced to a string before before using it here.", attributeName, typeName(value));
return testStringCoercion(value);
}
}
}
function checkKeyStringCoercion(value) {
{
if (willCoercionThrow(value)) {
error("The provided key is an unsupported type %s. This value must be coerced to a string before before using it here.", typeName(value));
return testStringCoercion(value);
}
}
}
function checkPropStringCoercion(value, propName) {
{
if (willCoercionThrow(value)) {
error("The provided `%s` prop is an unsupported type %s. This value must be coerced to a string before before using it here.", propName, typeName(value));
return testStringCoercion(value);
}
}
}
function checkCSSPropertyStringCoercion(value, propName) {
{
if (willCoercionThrow(value)) {
error("The provided `%s` CSS property is an unsupported type %s. This value must be coerced to a string before before using it here.", propName, typeName(value));
return testStringCoercion(value);
}
}
}
function checkHtmlStringCoercion(value) {
{
if (willCoercionThrow(value)) {
error("The provided HTML markup uses a value of unsupported type %s. This value must be coerced to a string before before using it here.", typeName(value));
return testStringCoercion(value);
}
}
}
function checkFormFieldValueStringCoercion(value) {
{
if (willCoercionThrow(value)) {
error("Form field values (value, checked, defaultValue, or defaultChecked props) must be strings, not %s. This value must be coerced to a string before before using it here.", typeName(value));
return testStringCoercion(value);
}
}
}
var RESERVED = 0;
var STRING = 1;
var BOOLEANISH_STRING = 2;
var BOOLEAN = 3;
var OVERLOADED_BOOLEAN = 4;
var NUMERIC = 5;
var POSITIVE_NUMERIC = 6;
var ATTRIBUTE_NAME_START_CHAR = ":A-Z_a-z\\u00C0-\\u00D6\\u00D8-\\u00F6\\u00F8-\\u02FF\\u0370-\\u037D\\u037F-\\u1FFF\\u200C-\\u200D\\u2070-\\u218F\\u2C00-\\u2FEF\\u3001-\\uD7FF\\uF900-\\uFDCF\\uFDF0-\\uFFFD";
var ATTRIBUTE_NAME_CHAR = ATTRIBUTE_NAME_START_CHAR + "\\-.0-9\\u00B7\\u0300-\\u036F\\u203F-\\u2040";
var VALID_ATTRIBUTE_NAME_REGEX = new RegExp("^[" + ATTRIBUTE_NAME_START_CHAR + "][" + ATTRIBUTE_NAME_CHAR + "]*$");
var illegalAttributeNameCache = {};
var validatedAttributeNameCache = {};
function isAttributeNameSafe(attributeName) {
if (hasOwnProperty.call(validatedAttributeNameCache, attributeName)) {
return true;
}
if (hasOwnProperty.call(illegalAttributeNameCache, attributeName)) {
return false;
}
if (VALID_ATTRIBUTE_NAME_REGEX.test(attributeName)) {
validatedAttributeNameCache[attributeName] = true;
return true;
}
illegalAttributeNameCache[attributeName] = true;
{
error("Invalid attribute name: `%s`", attributeName);
}
return false;
}
function shouldIgnoreAttribute(name, propertyInfo, isCustomComponentTag) {
if (propertyInfo !== null) {
return propertyInfo.type === RESERVED;
}
if (isCustomComponentTag) {
return false;
}
if (name.length > 2 && (name[0] === "o" || name[0] === "O") && (name[1] === "n" || name[1] === "N")) {
return true;
}
return false;
}
function shouldRemoveAttributeWithWarning(name, value, propertyInfo, isCustomComponentTag) {
if (propertyInfo !== null && propertyInfo.type === RESERVED) {
return false;
}
switch (typeof value) {
case "function":
case "symbol":
return true;
case "boolean": {
if (isCustomComponentTag) {
return false;
}
if (propertyInfo !== null) {
return !propertyInfo.acceptsBooleans;
} else {
var prefix2 = name.toLowerCase().slice(0, 5);
return prefix2 !== "data-" && prefix2 !== "aria-";
}
}
default:
return false;
}
}
function shouldRemoveAttribute(name, value, propertyInfo, isCustomComponentTag) {
if (value === null || typeof value === "undefined") {
return true;
}
if (shouldRemoveAttributeWithWarning(name, value, propertyInfo, isCustomComponentTag)) {
return true;
}
if (isCustomComponentTag) {
return false;
}
if (propertyInfo !== null) {
switch (propertyInfo.type) {
case BOOLEAN:
return !value;
case OVERLOADED_BOOLEAN:
return value === false;
case NUMERIC:
return isNaN(value);
case POSITIVE_NUMERIC:
return isNaN(value) || value < 1;
}
}
return false;
}
function getPropertyInfo(name) {
return properties.hasOwnProperty(name) ? properties[name] : null;
}
function PropertyInfoRecord(name, type, mustUseProperty, attributeName, attributeNamespace, sanitizeURL2, removeEmptyString) {
this.acceptsBooleans = type === BOOLEANISH_STRING || type === BOOLEAN || type === OVERLOADED_BOOLEAN;
this.attributeName = attributeName;
this.attributeNamespace = attributeNamespace;
this.mustUseProperty = mustUseProperty;
this.propertyName = name;
this.type = type;
this.sanitizeURL = sanitizeURL2;
this.removeEmptyString = removeEmptyString;
}
var properties = {};
var reservedProps = [
"children",
"dangerouslySetInnerHTML",
// TODO: This prevents the assignment of defaultValue to regular
// elements (not just inputs). Now that ReactDOMInput assigns to the
// defaultValue property -- do we need this?
"defaultValue",
"defaultChecked",
"innerHTML",
"suppressContentEditableWarning",
"suppressHydrationWarning",
"style"
];
reservedProps.forEach(function(name) {
properties[name] = new PropertyInfoRecord(
name,
RESERVED,
false,
// mustUseProperty
name,
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
[["acceptCharset", "accept-charset"], ["className", "class"], ["htmlFor", "for"], ["httpEquiv", "http-equiv"]].forEach(function(_ref) {
var name = _ref[0], attributeName = _ref[1];
properties[name] = new PropertyInfoRecord(
name,
STRING,
false,
// mustUseProperty
attributeName,
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
["contentEditable", "draggable", "spellCheck", "value"].forEach(function(name) {
properties[name] = new PropertyInfoRecord(
name,
BOOLEANISH_STRING,
false,
// mustUseProperty
name.toLowerCase(),
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
["autoReverse", "externalResourcesRequired", "focusable", "preserveAlpha"].forEach(function(name) {
properties[name] = new PropertyInfoRecord(
name,
BOOLEANISH_STRING,
false,
// mustUseProperty
name,
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
[
"allowFullScreen",
"async",
// Note: there is a special case that prevents it from being written to the DOM
// on the client side because the browsers are inconsistent. Instead we call focus().
"autoFocus",
"autoPlay",
"controls",
"default",
"defer",
"disabled",
"disablePictureInPicture",
"disableRemotePlayback",
"formNoValidate",
"hidden",
"loop",
"noModule",
"noValidate",
"open",
"playsInline",
"readOnly",
"required",
"reversed",
"scoped",
"seamless",
// Microdata
"itemScope"
].forEach(function(name) {
properties[name] = new PropertyInfoRecord(
name,
BOOLEAN,
false,
// mustUseProperty
name.toLowerCase(),
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
[
"checked",
// Note: `option.selected` is not updated if `select.multiple` is
// disabled with `removeAttribute`. We have special logic for handling this.
"multiple",
"muted",
"selected"
// NOTE: if you add a camelCased prop to this list,
// you'll need to set attributeName to name.toLowerCase()
// instead in the assignment below.
].forEach(function(name) {
properties[name] = new PropertyInfoRecord(
name,
BOOLEAN,
true,
// mustUseProperty
name,
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
[
"capture",
"download"
// NOTE: if you add a camelCased prop to this list,
// you'll need to set attributeName to name.toLowerCase()
// instead in the assignment below.
].forEach(function(name) {
properties[name] = new PropertyInfoRecord(
name,
OVERLOADED_BOOLEAN,
false,
// mustUseProperty
name,
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
[
"cols",
"rows",
"size",
"span"
// NOTE: if you add a camelCased prop to this list,
// you'll need to set attributeName to name.toLowerCase()
// instead in the assignment below.
].forEach(function(name) {
properties[name] = new PropertyInfoRecord(
name,
POSITIVE_NUMERIC,
false,
// mustUseProperty
name,
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
["rowSpan", "start"].forEach(function(name) {
properties[name] = new PropertyInfoRecord(
name,
NUMERIC,
false,
// mustUseProperty
name.toLowerCase(),
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
var CAMELIZE = /[\-\:]([a-z])/g;
var capitalize = function(token) {
return token[1].toUpperCase();
};
[
"accent-height",
"alignment-baseline",
"arabic-form",
"baseline-shift",
"cap-height",
"clip-path",
"clip-rule",
"color-interpolation",
"color-interpolation-filters",
"color-profile",
"color-rendering",
"dominant-baseline",
"enable-background",
"fill-opacity",
"fill-rule",
"flood-color",
"flood-opacity",
"font-family",
"font-size",
"font-size-adjust",
"font-stretch",
"font-style",
"font-variant",
"font-weight",
"glyph-name",
"glyph-orientation-horizontal",
"glyph-orientation-vertical",
"horiz-adv-x",
"horiz-origin-x",
"image-rendering",
"letter-spacing",
"lighting-color",
"marker-end",
"marker-mid",
"marker-start",
"overline-position",
"overline-thickness",
"paint-order",
"panose-1",
"pointer-events",
"rendering-intent",
"shape-rendering",
"stop-color",
"stop-opacity",
"strikethrough-position",
"strikethrough-thickness",
"stroke-dasharray",
"stroke-dashoffset",
"stroke-linecap",
"stroke-linejoin",
"stroke-miterlimit",
"stroke-opacity",
"stroke-width",
"text-anchor",
"text-decoration",
"text-rendering",
"underline-position",
"underline-thickness",
"unicode-bidi",
"unicode-range",
"units-per-em",
"v-alphabetic",
"v-hanging",
"v-ideographic",
"v-mathematical",
"vector-effect",
"vert-adv-y",
"vert-origin-x",
"vert-origin-y",
"word-spacing",
"writing-mode",
"xmlns:xlink",
"x-height"
// NOTE: if you add a camelCased prop to this list,
// you'll need to set attributeName to name.toLowerCase()
// instead in the assignment below.
].forEach(function(attributeName) {
var name = attributeName.replace(CAMELIZE, capitalize);
properties[name] = new PropertyInfoRecord(
name,
STRING,
false,
// mustUseProperty
attributeName,
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
[
"xlink:actuate",
"xlink:arcrole",
"xlink:role",
"xlink:show",
"xlink:title",
"xlink:type"
// NOTE: if you add a camelCased prop to this list,
// you'll need to set attributeName to name.toLowerCase()
// instead in the assignment below.
].forEach(function(attributeName) {
var name = attributeName.replace(CAMELIZE, capitalize);
properties[name] = new PropertyInfoRecord(
name,
STRING,
false,
// mustUseProperty
attributeName,
"http://www.w3.org/1999/xlink",
false,
// sanitizeURL
false
);
});
[
"xml:base",
"xml:lang",
"xml:space"
// NOTE: if you add a camelCased prop to this list,
// you'll need to set attributeName to name.toLowerCase()
// instead in the assignment below.
].forEach(function(attributeName) {
var name = attributeName.replace(CAMELIZE, capitalize);
properties[name] = new PropertyInfoRecord(
name,
STRING,
false,
// mustUseProperty
attributeName,
"http://www.w3.org/XML/1998/namespace",
false,
// sanitizeURL
false
);
});
["tabIndex", "crossOrigin"].forEach(function(attributeName) {
properties[attributeName] = new PropertyInfoRecord(
attributeName,
STRING,
false,
// mustUseProperty
attributeName.toLowerCase(),
// attributeName
null,
// attributeNamespace
false,
// sanitizeURL
false
);
});
var xlinkHref = "xlinkHref";
properties[xlinkHref] = new PropertyInfoRecord(
"xlinkHref",
STRING,
false,
// mustUseProperty
"xlink:href",
"http://www.w3.org/1999/xlink",
true,
// sanitizeURL
false
);
["src", "href", "action", "formAction"].forEach(function(attributeName) {
properties[attributeName] = new PropertyInfoRecord(
attributeName,
STRING,
false,
// mustUseProperty
attributeName.toLowerCase(),
// attributeName
null,
// attributeNamespace
true,
// sanitizeURL
true
);
});
var isJavaScriptProtocol = /^[\u0000-\u001F ]*j[\r\n\t]*a[\r\n\t]*v[\r\n\t]*a[\r\n\t]*s[\r\n\t]*c[\r\n\t]*r[\r\n\t]*i[\r\n\t]*p[\r\n\t]*t[\r\n\t]*\:/i;
var didWarn = false;
function sanitizeURL(url) {
{
if (!didWarn && isJavaScriptProtocol.test(url)) {
didWarn = true;
error("A future version of React will block javascript: URLs as a security precaution. Use event handlers instead if you can. If you need to generate unsafe HTML try using dangerouslySetInnerHTML instead. React was passed %s.", JSON.stringify(url));
}
}
}
function getValueForProperty(node, name, expected, propertyInfo) {
{
if (propertyInfo.mustUseProperty) {
var propertyName = propertyInfo.propertyName;
return node[propertyName];
} else {
{
checkAttributeStringCoercion(expected, name);
}
if (propertyInfo.sanitizeURL) {
sanitizeURL("" + expected);
}
var attributeName = propertyInfo.attributeName;
var stringValue = null;
if (propertyInfo.type === OVERLOADED_BOOLEAN) {
if (node.hasAttribute(attributeName)) {
var value = node.getAttribute(attributeName);
if (value === "") {
return true;
}
if (shouldRemoveAttribute(name, expected, propertyInfo, false)) {
return value;
}
if (value === "" + expected) {
return expected;
}
return value;
}
} else if (node.hasAttribute(attributeName)) {
if (shouldRemoveAttribute(name, expected, propertyInfo, false)) {
return node.getAttribute(attributeName);
}
if (propertyInfo.type === BOOLEAN) {
return expected;
}
stringValue = node.getAttribute(attributeName);
}
if (shouldRemoveAttribute(name, expected, propertyInfo, false)) {
return stringValue === null ? expected : stringValue;
} else if (stringValue === "" + expected) {
return expected;
} else {
return stringValue;
}
}
}
}
function getValueForAttribute(node, name, expected, isCustomComponentTag) {
{
if (!isAttributeNameSafe(name)) {
return;
}
if (!node.hasAttribute(name)) {
return expected === void 0 ? void 0 : null;
}
var value = node.getAttribute(name);
{
checkAttributeStringCoercion(expected, name);
}
if (value === "" + expected) {
return expected;
}
return value;
}
}
function setValueForProperty(node, name, value, isCustomComponentTag) {
var propertyInfo = getPropertyInfo(name);
if (shouldIgnoreAttribute(name, propertyInfo, isCustomComponentTag)) {
return;
}
if (shouldRemoveAttribute(name, value, propertyInfo, isCustomComponentTag)) {
value = null;
}
if (isCustomComponentTag || propertyInfo === null) {
if (isAttributeNameSafe(name)) {
var _attributeName = name;
if (value === null) {
node.removeAttribute(_attributeName);
} else {
{
checkAttributeStringCoercion(value, name);
}
node.setAttribute(_attributeName, "" + value);
}
}
return;
}
var mustUseProperty = propertyInfo.mustUseProperty;
if (mustUseProperty) {
var propertyName = propertyInfo.propertyName;
if (value === null) {
var type = propertyInfo.type;
node[propertyName] = type === BOOLEAN ? false : "";
} else {
node[propertyName] = value;
}
return;
}
var attributeName = propertyInfo.attributeName, attributeNamespace = propertyInfo.attributeNamespace;
if (value === null) {
node.removeAttribute(attributeName);
} else {
var _type = propertyInfo.type;
var attributeValue;
if (_type === BOOLEAN || _type === OVERLOADED_BOOLEAN && value === true) {
attributeValue = "";
} else {
{
{
checkAttributeStringCoercion(value, attributeName);
}
attributeValue = "" + value;
}
if (propertyInfo.sanitizeURL) {
sanitizeURL(attributeValue.toString());
}
}
if (attributeNamespace) {
node.setAttributeNS(attributeNamespace, attributeName, attributeValue);
} else {
node.setAttribute(attributeName, attributeValue);
}
}
}
var REACT_ELEMENT_TYPE = Symbol.for("react.element");
var REACT_PORTAL_TYPE = Symbol.for("react.portal");
var REACT_FRAGMENT_TYPE = Symbol.for("react.fragment");
var REACT_STRICT_MODE_TYPE = Symbol.for("react.strict_mode");
var REACT_PROFILER_TYPE = Symbol.for("react.profiler");
var REACT_PROVIDER_TYPE = Symbol.for("react.provider");
var REACT_CONTEXT_TYPE = Symbol.for("react.context");
var REACT_FORWARD_REF_TYPE = Symbol.for("react.forward_ref");
var REACT_SUSPENSE_TYPE = Symbol.for("react.suspense");
var REACT_SUSPENSE_LIST_TYPE = Symbol.for("react.suspense_list");
var REACT_MEMO_TYPE = Symbol.for("react.memo");
var REACT_LAZY_TYPE = Symbol.for("react.lazy");
var REACT_SCOPE_TYPE = Symbol.for("react.scope");
var REACT_DEBUG_TRACING_MODE_TYPE = Symbol.for("react.debug_trace_mode");
var REACT_OFFSCREEN_TYPE = Symbol.for("react.offscreen");
var REACT_LEGACY_HIDDEN_TYPE = Symbol.for("react.legacy_hidden");
var REACT_CACHE_TYPE = Symbol.for("react.cache");
var REACT_TRACING_MARKER_TYPE = Symbol.for("react.tracing_marker");
var MAYBE_ITERATOR_SYMBOL = Symbol.iterator;
var FAUX_ITERATOR_SYMBOL = "@@iterator";
function getIteratorFn(maybeIterable) {
if (maybeIterable === null || typeof maybeIterable !== "object") {
return null;
}
var maybeIterator = MAYBE_ITERATOR_SYMBOL && maybeIterable[MAYBE_ITERATOR_SYMBOL] || maybeIterable[FAUX_ITERATOR_SYMBOL];
if (typeof maybeIterator === "function") {
return maybeIterator;
}
return null;
}
var assign = Object.assign;
var disabledDepth = 0;
var prevLog;
var prevInfo;
var prevWarn;
var prevError;
var prevGroup;
var prevGroupCollapsed;
var prevGroupEnd;
function disabledLog() {
}
disabledLog.__reactDisabledLog = true;
function disableLogs() {
{
if (disabledDepth === 0) {
prevLog = console.log;
prevInfo = console.info;
prevWarn = console.warn;
prevError = console.error;
prevGroup = console.group;
prevGroupCollapsed = console.groupCollapsed;
prevGroupEnd = console.groupEnd;
var props = {
configurable: true,
enumerable: true,
value: disabledLog,
writable: true
};
Object.defineProperties(console, {
info: props,
log: props,
warn: props,
error: props,
group: props,
groupCollapsed: props,
groupEnd: props
});
}
disabledDepth++;
}
}
function reenableLogs() {
{
disabledDepth--;
if (disabledDepth === 0) {
var props = {
configurable: true,
enumerable: true,
writable: true
};
Object.defineProperties(console, {
log: assign({}, props, {
value: prevLog
}),
info: assign({}, props, {
value: prevInfo
}),
warn: assign({}, props, {
value: prevWarn
}),
error: assign({}, props, {
value: prevError
}),
group: assign({}, props, {
value: prevGroup
}),
groupCollapsed: assign({}, props, {
value: prevGroupCollapsed
}),
groupEnd: assign({}, props, {
value: prevGroupEnd
})
});
}
if (disabledDepth < 0) {
error("disabledDepth fell below zero. This is a bug in React. Please file an issue.");
}
}
}
var ReactCurrentDispatcher = ReactSharedInternals.ReactCurrentDispatcher;
var prefix;
function describeBuiltInComponentFrame(name, source, ownerFn) {
{
if (prefix === void 0) {
try {
throw Error();
} catch (x2) {
var match = x2.stack.trim().match(/\n( *(at )?)/);
prefix = match && match[1] || "";
}
}
return "\n" + prefix + name;
}
}
var reentry = false;
var componentFrameCache;
{
var PossiblyWeakMap = typeof WeakMap === "function" ? WeakMap : Map;
componentFrameCache = new PossiblyWeakMap();
}
function describeNativeComponentFrame(fn, construct) {
if (!fn || reentry) {
return "";
}
{
var frame = componentFrameCache.get(fn);
if (frame !== void 0) {
return frame;
}
}
var control;
reentry = true;
var previousPrepareStackTrace = Error.prepareStackTrace;
Error.prepareStackTrace = void 0;
var previousDispatcher;
{
previousDispatcher = ReactCurrentDispatcher.current;
ReactCurrentDispatcher.current = null;
disableLogs();
}
try {
if (construct) {
var Fake = function() {
throw Error();
};
Object.defineProperty(Fake.prototype, "props", {
set: function() {
throw Error();
}
});
if (typeof Reflect === "object" && Reflect.construct) {
try {
Reflect.construct(Fake, []);
} catch (x2) {
control = x2;
}
Reflect.construct(fn, [], Fake);
} else {
try {
Fake.call();
} catch (x2) {
control = x2;
}
fn.call(Fake.prototype);
}
} else {
try {
throw Error();
} catch (x2) {
control = x2;
}
fn();
}
} catch (sample) {
if (sample && control && typeof sample.stack === "string") {
var sampleLines = sample.stack.split("\n");
var controlLines = control.stack.split("\n");
var s = sampleLines.length - 1;
var c2 = controlLines.length - 1;
while (s >= 1 && c2 >= 0 && sampleLines[s] !== controlLines[c2]) {
c2--;
}
for (; s >= 1 && c2 >= 0; s--, c2--) {
if (sampleLines[s] !== controlLines[c2]) {
if (s !== 1 || c2 !== 1) {
do {
s--;
c2--;
if (c2 < 0 || sampleLines[s] !== controlLines[c2]) {
var _frame = "\n" + sampleLines[s].replace(" at new ", " at ");
if (fn.displayName && _frame.includes("<anonymous>")) {
_frame = _frame.replace("<anonymous>", fn.displayName);
}
{
if (typeof fn === "function") {
componentFrameCache.set(fn, _frame);
}
}
return _frame;
}
} while (s >= 1 && c2 >= 0);
}
break;
}
}
}
} finally {
reentry = false;
{
ReactCurrentDispatcher.current = previousDispatcher;
reenableLogs();
}
Error.prepareStackTrace = previousPrepareStackTrace;
}
var name = fn ? fn.displayName || fn.name : "";
var syntheticFrame = name ? describeBuiltInComponentFrame(name) : "";
{
if (typeof fn === "function") {
componentFrameCache.set(fn, syntheticFrame);
}
}
return syntheticFrame;
}
function describeClassComponentFrame(ctor, source, ownerFn) {
{
return describeNativeComponentFrame(ctor, true);
}
}
function describeFunctionComponentFrame(fn, source, ownerFn) {
{
return describeNativeComponentFrame(fn, false);
}
}
function shouldConstruct(Component) {
var prototype = Component.prototype;
return !!(prototype && prototype.isReactComponent);
}
function describeUnknownElementTypeFrameInDEV(type, source, ownerFn) {
if (type == null) {
return "";
}
if (typeof type === "function") {
{
return describeNativeComponentFrame(type, shouldConstruct(type));
}
}
if (typeof type === "string") {
return describeBuiltInComponentFrame(type);
}
switch (type) {
case REACT_SUSPENSE_TYPE:
return describeBuiltInComponentFrame("Suspense");
case REACT_SUSPENSE_LIST_TYPE:
return describeBuiltInComponentFrame("SuspenseList");
}
if (typeof type === "object") {
switch (type.$$typeof) {
case REACT_FORWARD_REF_TYPE:
return describeFunctionComponentFrame(type.render);
case REACT_MEMO_TYPE:
return describeUnknownElementTypeFrameInDEV(type.type, source, ownerFn);
case REACT_LAZY_TYPE: {
var lazyComponent = type;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
try {
return describeUnknownElementTypeFrameInDEV(init(payload), source, ownerFn);
} catch (x2) {
}
}
}
}
return "";
}
function describeFiber(fiber) {
var owner = fiber._debugOwner ? fiber._debugOwner.type : null;
var source = fiber._debugSource;
switch (fiber.tag) {
case HostComponent:
return describeBuiltInComponentFrame(fiber.type);
case LazyComponent:
return describeBuiltInComponentFrame("Lazy");
case SuspenseComponent:
return describeBuiltInComponentFrame("Suspense");
case SuspenseListComponent:
return describeBuiltInComponentFrame("SuspenseList");
case FunctionComponent:
case IndeterminateComponent:
case SimpleMemoComponent:
return describeFunctionComponentFrame(fiber.type);
case ForwardRef:
return describeFunctionComponentFrame(fiber.type.render);
case ClassComponent:
return describeClassComponentFrame(fiber.type);
default:
return "";
}
}
function getStackByFiberInDevAndProd(workInProgress2) {
try {
var info = "";
var node = workInProgress2;
do {
info += describeFiber(node);
node = node.return;
} while (node);
return info;
} catch (x2) {
return "\nError generating stack: " + x2.message + "\n" + x2.stack;
}
}
function getWrappedName(outerType, innerType, wrapperName) {
var displayName = outerType.displayName;
if (displayName) {
return displayName;
}
var functionName = innerType.displayName || innerType.name || "";
return functionName !== "" ? wrapperName + "(" + functionName + ")" : wrapperName;
}
function getContextName(type) {
return type.displayName || "Context";
}
function getComponentNameFromType(type) {
if (type == null) {
return null;
}
{
if (typeof type.tag === "number") {
error("Received an unexpected object in getComponentNameFromType(). This is likely a bug in React. Please file an issue.");
}
}
if (typeof type === "function") {
return type.displayName || type.name || null;
}
if (typeof type === "string") {
return type;
}
switch (type) {
case REACT_FRAGMENT_TYPE:
return "Fragment";
case REACT_PORTAL_TYPE:
return "Portal";
case REACT_PROFILER_TYPE:
return "Profiler";
case REACT_STRICT_MODE_TYPE:
return "StrictMode";
case REACT_SUSPENSE_TYPE:
return "Suspense";
case REACT_SUSPENSE_LIST_TYPE:
return "SuspenseList";
}
if (typeof type === "object") {
switch (type.$$typeof) {
case REACT_CONTEXT_TYPE:
var context = type;
return getContextName(context) + ".Consumer";
case REACT_PROVIDER_TYPE:
var provider = type;
return getContextName(provider._context) + ".Provider";
case REACT_FORWARD_REF_TYPE:
return getWrappedName(type, type.render, "ForwardRef");
case REACT_MEMO_TYPE:
var outerName = type.displayName || null;
if (outerName !== null) {
return outerName;
}
return getComponentNameFromType(type.type) || "Memo";
case REACT_LAZY_TYPE: {
var lazyComponent = type;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
try {
return getComponentNameFromType(init(payload));
} catch (x2) {
return null;
}
}
}
}
return null;
}
function getWrappedName$1(outerType, innerType, wrapperName) {
var functionName = innerType.displayName || innerType.name || "";
return outerType.displayName || (functionName !== "" ? wrapperName + "(" + functionName + ")" : wrapperName);
}
function getContextName$1(type) {
return type.displayName || "Context";
}
function getComponentNameFromFiber(fiber) {
var tag = fiber.tag, type = fiber.type;
switch (tag) {
case CacheComponent:
return "Cache";
case ContextConsumer:
var context = type;
return getContextName$1(context) + ".Consumer";
case ContextProvider:
var provider = type;
return getContextName$1(provider._context) + ".Provider";
case DehydratedFragment:
return "DehydratedFragment";
case ForwardRef:
return getWrappedName$1(type, type.render, "ForwardRef");
case Fragment12:
return "Fragment";
case HostComponent:
return type;
case HostPortal:
return "Portal";
case HostRoot:
return "Root";
case HostText:
return "Text";
case LazyComponent:
return getComponentNameFromType(type);
case Mode:
if (type === REACT_STRICT_MODE_TYPE) {
return "StrictMode";
}
return "Mode";
case OffscreenComponent:
return "Offscreen";
case Profiler:
return "Profiler";
case ScopeComponent:
return "Scope";
case SuspenseComponent:
return "Suspense";
case SuspenseListComponent:
return "SuspenseList";
case TracingMarkerComponent:
return "TracingMarker";
case ClassComponent:
case FunctionComponent:
case IncompleteClassComponent:
case IndeterminateComponent:
case MemoComponent:
case SimpleMemoComponent:
if (typeof type === "function") {
return type.displayName || type.name || null;
}
if (typeof type === "string") {
return type;
}
break;
}
return null;
}
var ReactDebugCurrentFrame = ReactSharedInternals.ReactDebugCurrentFrame;
var current = null;
var isRendering = false;
function getCurrentFiberOwnerNameInDevOrNull() {
{
if (current === null) {
return null;
}
var owner = current._debugOwner;
if (owner !== null && typeof owner !== "undefined") {
return getComponentNameFromFiber(owner);
}
}
return null;
}
function getCurrentFiberStackInDev() {
{
if (current === null) {
return "";
}
return getStackByFiberInDevAndProd(current);
}
}
function resetCurrentFiber() {
{
ReactDebugCurrentFrame.getCurrentStack = null;
current = null;
isRendering = false;
}
}
function setCurrentFiber(fiber) {
{
ReactDebugCurrentFrame.getCurrentStack = fiber === null ? null : getCurrentFiberStackInDev;
current = fiber;
isRendering = false;
}
}
function getCurrentFiber() {
{
return current;
}
}
function setIsRendering(rendering) {
{
isRendering = rendering;
}
}
function toString(value) {
return "" + value;
}
function getToStringValue(value) {
switch (typeof value) {
case "boolean":
case "number":
case "string":
case "undefined":
return value;
case "object":
{
checkFormFieldValueStringCoercion(value);
}
return value;
default:
return "";
}
}
var hasReadOnlyValue = {
button: true,
checkbox: true,
image: true,
hidden: true,
radio: true,
reset: true,
submit: true
};
function checkControlledValueProps(tagName, props) {
{
if (!(hasReadOnlyValue[props.type] || props.onChange || props.onInput || props.readOnly || props.disabled || props.value == null)) {
error("You provided a `value` prop to a form field without an `onChange` handler. This will render a read-only field. If the field should be mutable use `defaultValue`. Otherwise, set either `onChange` or `readOnly`.");
}
if (!(props.onChange || props.readOnly || props.disabled || props.checked == null)) {
error("You provided a `checked` prop to a form field without an `onChange` handler. This will render a read-only field. If the field should be mutable use `defaultChecked`. Otherwise, set either `onChange` or `readOnly`.");
}
}
}
function isCheckable(elem) {
var type = elem.type;
var nodeName = elem.nodeName;
return nodeName && nodeName.toLowerCase() === "input" && (type === "checkbox" || type === "radio");
}
function getTracker(node) {
return node._valueTracker;
}
function detachTracker(node) {
node._valueTracker = null;
}
function getValueFromNode(node) {
var value = "";
if (!node) {
return value;
}
if (isCheckable(node)) {
value = node.checked ? "true" : "false";
} else {
value = node.value;
}
return value;
}
function trackValueOnNode(node) {
var valueField = isCheckable(node) ? "checked" : "value";
var descriptor = Object.getOwnPropertyDescriptor(node.constructor.prototype, valueField);
{
checkFormFieldValueStringCoercion(node[valueField]);
}
var currentValue = "" + node[valueField];
if (node.hasOwnProperty(valueField) || typeof descriptor === "undefined" || typeof descriptor.get !== "function" || typeof descriptor.set !== "function") {
return;
}
var get2 = descriptor.get, set2 = descriptor.set;
Object.defineProperty(node, valueField, {
configurable: true,
get: function() {
return get2.call(this);
},
set: function(value) {
{
checkFormFieldValueStringCoercion(value);
}
currentValue = "" + value;
set2.call(this, value);
}
});
Object.defineProperty(node, valueField, {
enumerable: descriptor.enumerable
});
var tracker = {
getValue: function() {
return currentValue;
},
setValue: function(value) {
{
checkFormFieldValueStringCoercion(value);
}
currentValue = "" + value;
},
stopTracking: function() {
detachTracker(node);
delete node[valueField];
}
};
return tracker;
}
function track(node) {
if (getTracker(node)) {
return;
}
node._valueTracker = trackValueOnNode(node);
}
function updateValueIfChanged(node) {
if (!node) {
return false;
}
var tracker = getTracker(node);
if (!tracker) {
return true;
}
var lastValue = tracker.getValue();
var nextValue = getValueFromNode(node);
if (nextValue !== lastValue) {
tracker.setValue(nextValue);
return true;
}
return false;
}
function getActiveElement(doc) {
doc = doc || (typeof document !== "undefined" ? document : void 0);
if (typeof doc === "undefined") {
return null;
}
try {
return doc.activeElement || doc.body;
} catch (e) {
return doc.body;
}
}
var didWarnValueDefaultValue = false;
var didWarnCheckedDefaultChecked = false;
var didWarnControlledToUncontrolled = false;
var didWarnUncontrolledToControlled = false;
function isControlled(props) {
var usesChecked = props.type === "checkbox" || props.type === "radio";
return usesChecked ? props.checked != null : props.value != null;
}
function getHostProps(element, props) {
var node = element;
var checked = props.checked;
var hostProps = assign({}, props, {
defaultChecked: void 0,
defaultValue: void 0,
value: void 0,
checked: checked != null ? checked : node._wrapperState.initialChecked
});
return hostProps;
}
function initWrapperState(element, props) {
{
checkControlledValueProps("input", props);
if (props.checked !== void 0 && props.defaultChecked !== void 0 && !didWarnCheckedDefaultChecked) {
error("%s contains an input of type %s with both checked and defaultChecked props. Input elements must be either controlled or uncontrolled (specify either the checked prop, or the defaultChecked prop, but not both). Decide between using a controlled or uncontrolled input element and remove one of these props. More info: https://reactjs.org/link/controlled-components", getCurrentFiberOwnerNameInDevOrNull() || "A component", props.type);
didWarnCheckedDefaultChecked = true;
}
if (props.value !== void 0 && props.defaultValue !== void 0 && !didWarnValueDefaultValue) {
error("%s contains an input of type %s with both value and defaultValue props. Input elements must be either controlled or uncontrolled (specify either the value prop, or the defaultValue prop, but not both). Decide between using a controlled or uncontrolled input element and remove one of these props. More info: https://reactjs.org/link/controlled-components", getCurrentFiberOwnerNameInDevOrNull() || "A component", props.type);
didWarnValueDefaultValue = true;
}
}
var node = element;
var defaultValue = props.defaultValue == null ? "" : props.defaultValue;
node._wrapperState = {
initialChecked: props.checked != null ? props.checked : props.defaultChecked,
initialValue: getToStringValue(props.value != null ? props.value : defaultValue),
controlled: isControlled(props)
};
}
function updateChecked(element, props) {
var node = element;
var checked = props.checked;
if (checked != null) {
setValueForProperty(node, "checked", checked, false);
}
}
function updateWrapper(element, props) {
var node = element;
{
var controlled = isControlled(props);
if (!node._wrapperState.controlled && controlled && !didWarnUncontrolledToControlled) {
error("A component is changing an uncontrolled input to be controlled. This is likely caused by the value changing from undefined to a defined value, which should not happen. Decide between using a controlled or uncontrolled input element for the lifetime of the component. More info: https://reactjs.org/link/controlled-components");
didWarnUncontrolledToControlled = true;
}
if (node._wrapperState.controlled && !controlled && !didWarnControlledToUncontrolled) {
error("A component is changing a controlled input to be uncontrolled. This is likely caused by the value changing from a defined to undefined, which should not happen. Decide between using a controlled or uncontrolled input element for the lifetime of the component. More info: https://reactjs.org/link/controlled-components");
didWarnControlledToUncontrolled = true;
}
}
updateChecked(element, props);
var value = getToStringValue(props.value);
var type = props.type;
if (value != null) {
if (type === "number") {
if (value === 0 && node.value === "" || // We explicitly want to coerce to number here if possible.
// eslint-disable-next-line
node.value != value) {
node.value = toString(value);
}
} else if (node.value !== toString(value)) {
node.value = toString(value);
}
} else if (type === "submit" || type === "reset") {
node.removeAttribute("value");
return;
}
{
if (props.hasOwnProperty("value")) {
setDefaultValue(node, props.type, value);
} else if (props.hasOwnProperty("defaultValue")) {
setDefaultValue(node, props.type, getToStringValue(props.defaultValue));
}
}
{
if (props.checked == null && props.defaultChecked != null) {
node.defaultChecked = !!props.defaultChecked;
}
}
}
function postMountWrapper(element, props, isHydrating2) {
var node = element;
if (props.hasOwnProperty("value") || props.hasOwnProperty("defaultValue")) {
var type = props.type;
var isButton = type === "submit" || type === "reset";
if (isButton && (props.value === void 0 || props.value === null)) {
return;
}
var initialValue = toString(node._wrapperState.initialValue);
if (!isHydrating2) {
{
if (initialValue !== node.value) {
node.value = initialValue;
}
}
}
{
node.defaultValue = initialValue;
}
}
var name = node.name;
if (name !== "") {
node.name = "";
}
{
node.defaultChecked = !node.defaultChecked;
node.defaultChecked = !!node._wrapperState.initialChecked;
}
if (name !== "") {
node.name = name;
}
}
function restoreControlledState(element, props) {
var node = element;
updateWrapper(node, props);
updateNamedCousins(node, props);
}
function updateNamedCousins(rootNode, props) {
var name = props.name;
if (props.type === "radio" && name != null) {
var queryRoot = rootNode;
while (queryRoot.parentNode) {
queryRoot = queryRoot.parentNode;
}
{
checkAttributeStringCoercion(name, "name");
}
var group = queryRoot.querySelectorAll("input[name=" + JSON.stringify("" + name) + '][type="radio"]');
for (var i = 0; i < group.length; i++) {
var otherNode = group[i];
if (otherNode === rootNode || otherNode.form !== rootNode.form) {
continue;
}
var otherProps = getFiberCurrentPropsFromNode(otherNode);
if (!otherProps) {
throw new Error("ReactDOMInput: Mixing React and non-React radio inputs with the same `name` is not supported.");
}
updateValueIfChanged(otherNode);
updateWrapper(otherNode, otherProps);
}
}
}
function setDefaultValue(node, type, value) {
if (
// Focused number inputs synchronize on blur. See ChangeEventPlugin.js
type !== "number" || getActiveElement(node.ownerDocument) !== node
) {
if (value == null) {
node.defaultValue = toString(node._wrapperState.initialValue);
} else if (node.defaultValue !== toString(value)) {
node.defaultValue = toString(value);
}
}
}
var didWarnSelectedSetOnOption = false;
var didWarnInvalidChild = false;
var didWarnInvalidInnerHTML = false;
function validateProps(element, props) {
{
if (props.value == null) {
if (typeof props.children === "object" && props.children !== null) {
React17.Children.forEach(props.children, function(child) {
if (child == null) {
return;
}
if (typeof child === "string" || typeof child === "number") {
return;
}
if (!didWarnInvalidChild) {
didWarnInvalidChild = true;
error("Cannot infer the option value of complex children. Pass a `value` prop or use a plain string as children to <option>.");
}
});
} else if (props.dangerouslySetInnerHTML != null) {
if (!didWarnInvalidInnerHTML) {
didWarnInvalidInnerHTML = true;
error("Pass a `value` prop if you set dangerouslyInnerHTML so React knows which value should be selected.");
}
}
}
if (props.selected != null && !didWarnSelectedSetOnOption) {
error("Use the `defaultValue` or `value` props on <select> instead of setting `selected` on <option>.");
didWarnSelectedSetOnOption = true;
}
}
}
function postMountWrapper$1(element, props) {
if (props.value != null) {
element.setAttribute("value", toString(getToStringValue(props.value)));
}
}
var isArrayImpl = Array.isArray;
function isArray2(a2) {
return isArrayImpl(a2);
}
var didWarnValueDefaultValue$1;
{
didWarnValueDefaultValue$1 = false;
}
function getDeclarationErrorAddendum() {
var ownerName = getCurrentFiberOwnerNameInDevOrNull();
if (ownerName) {
return "\n\nCheck the render method of `" + ownerName + "`.";
}
return "";
}
var valuePropNames = ["value", "defaultValue"];
function checkSelectPropTypes(props) {
{
checkControlledValueProps("select", props);
for (var i = 0; i < valuePropNames.length; i++) {
var propName = valuePropNames[i];
if (props[propName] == null) {
continue;
}
var propNameIsArray = isArray2(props[propName]);
if (props.multiple && !propNameIsArray) {
error("The `%s` prop supplied to <select> must be an array if `multiple` is true.%s", propName, getDeclarationErrorAddendum());
} else if (!props.multiple && propNameIsArray) {
error("The `%s` prop supplied to <select> must be a scalar value if `multiple` is false.%s", propName, getDeclarationErrorAddendum());
}
}
}
}
function updateOptions(node, multiple, propValue, setDefaultSelected) {
var options2 = node.options;
if (multiple) {
var selectedValues = propValue;
var selectedValue = {};
for (var i = 0; i < selectedValues.length; i++) {
selectedValue["$" + selectedValues[i]] = true;
}
for (var _i = 0; _i < options2.length; _i++) {
var selected = selectedValue.hasOwnProperty("$" + options2[_i].value);
if (options2[_i].selected !== selected) {
options2[_i].selected = selected;
}
if (selected && setDefaultSelected) {
options2[_i].defaultSelected = true;
}
}
} else {
var _selectedValue = toString(getToStringValue(propValue));
var defaultSelected = null;
for (var _i2 = 0; _i2 < options2.length; _i2++) {
if (options2[_i2].value === _selectedValue) {
options2[_i2].selected = true;
if (setDefaultSelected) {
options2[_i2].defaultSelected = true;
}
return;
}
if (defaultSelected === null && !options2[_i2].disabled) {
defaultSelected = options2[_i2];
}
}
if (defaultSelected !== null) {
defaultSelected.selected = true;
}
}
}
function getHostProps$1(element, props) {
return assign({}, props, {
value: void 0
});
}
function initWrapperState$1(element, props) {
var node = element;
{
checkSelectPropTypes(props);
}
node._wrapperState = {
wasMultiple: !!props.multiple
};
{
if (props.value !== void 0 && props.defaultValue !== void 0 && !didWarnValueDefaultValue$1) {
error("Select elements must be either controlled or uncontrolled (specify either the value prop, or the defaultValue prop, but not both). Decide between using a controlled or uncontrolled select element and remove one of these props. More info: https://reactjs.org/link/controlled-components");
didWarnValueDefaultValue$1 = true;
}
}
}
function postMountWrapper$2(element, props) {
var node = element;
node.multiple = !!props.multiple;
var value = props.value;
if (value != null) {
updateOptions(node, !!props.multiple, value, false);
} else if (props.defaultValue != null) {
updateOptions(node, !!props.multiple, props.defaultValue, true);
}
}
function postUpdateWrapper(element, props) {
var node = element;
var wasMultiple = node._wrapperState.wasMultiple;
node._wrapperState.wasMultiple = !!props.multiple;
var value = props.value;
if (value != null) {
updateOptions(node, !!props.multiple, value, false);
} else if (wasMultiple !== !!props.multiple) {
if (props.defaultValue != null) {
updateOptions(node, !!props.multiple, props.defaultValue, true);
} else {
updateOptions(node, !!props.multiple, props.multiple ? [] : "", false);
}
}
}
function restoreControlledState$1(element, props) {
var node = element;
var value = props.value;
if (value != null) {
updateOptions(node, !!props.multiple, value, false);
}
}
var didWarnValDefaultVal = false;
function getHostProps$2(element, props) {
var node = element;
if (props.dangerouslySetInnerHTML != null) {
throw new Error("`dangerouslySetInnerHTML` does not make sense on <textarea>.");
}
var hostProps = assign({}, props, {
value: void 0,
defaultValue: void 0,
children: toString(node._wrapperState.initialValue)
});
return hostProps;
}
function initWrapperState$2(element, props) {
var node = element;
{
checkControlledValueProps("textarea", props);
if (props.value !== void 0 && props.defaultValue !== void 0 && !didWarnValDefaultVal) {
error("%s contains a textarea with both value and defaultValue props. Textarea elements must be either controlled or uncontrolled (specify either the value prop, or the defaultValue prop, but not both). Decide between using a controlled or uncontrolled textarea and remove one of these props. More info: https://reactjs.org/link/controlled-components", getCurrentFiberOwnerNameInDevOrNull() || "A component");
didWarnValDefaultVal = true;
}
}
var initialValue = props.value;
if (initialValue == null) {
var children = props.children, defaultValue = props.defaultValue;
if (children != null) {
{
error("Use the `defaultValue` or `value` props instead of setting children on <textarea>.");
}
{
if (defaultValue != null) {
throw new Error("If you supply `defaultValue` on a <textarea>, do not pass children.");
}
if (isArray2(children)) {
if (children.length > 1) {
throw new Error("<textarea> can only have at most one child.");
}
children = children[0];
}
defaultValue = children;
}
}
if (defaultValue == null) {
defaultValue = "";
}
initialValue = defaultValue;
}
node._wrapperState = {
initialValue: getToStringValue(initialValue)
};
}
function updateWrapper$1(element, props) {
var node = element;
var value = getToStringValue(props.value);
var defaultValue = getToStringValue(props.defaultValue);
if (value != null) {
var newValue = toString(value);
if (newValue !== node.value) {
node.value = newValue;
}
if (props.defaultValue == null && node.defaultValue !== newValue) {
node.defaultValue = newValue;
}
}
if (defaultValue != null) {
node.defaultValue = toString(defaultValue);
}
}
function postMountWrapper$3(element, props) {
var node = element;
var textContent = node.textContent;
if (textContent === node._wrapperState.initialValue) {
if (textContent !== "" && textContent !== null) {
node.value = textContent;
}
}
}
function restoreControlledState$2(element, props) {
updateWrapper$1(element, props);
}
var HTML_NAMESPACE = "http://www.w3.org/1999/xhtml";
var MATH_NAMESPACE = "http://www.w3.org/1998/Math/MathML";
var SVG_NAMESPACE = "http://www.w3.org/2000/svg";
function getIntrinsicNamespace(type) {
switch (type) {
case "svg":
return SVG_NAMESPACE;
case "math":
return MATH_NAMESPACE;
default:
return HTML_NAMESPACE;
}
}
function getChildNamespace(parentNamespace, type) {
if (parentNamespace == null || parentNamespace === HTML_NAMESPACE) {
return getIntrinsicNamespace(type);
}
if (parentNamespace === SVG_NAMESPACE && type === "foreignObject") {
return HTML_NAMESPACE;
}
return parentNamespace;
}
var createMicrosoftUnsafeLocalFunction = function(func) {
if (typeof MSApp !== "undefined" && MSApp.execUnsafeLocalFunction) {
return function(arg0, arg1, arg2, arg3) {
MSApp.execUnsafeLocalFunction(function() {
return func(arg0, arg1, arg2, arg3);
});
};
} else {
return func;
}
};
var reusableSVGContainer;
var setInnerHTML = createMicrosoftUnsafeLocalFunction(function(node, html) {
if (node.namespaceURI === SVG_NAMESPACE) {
if (!("innerHTML" in node)) {
reusableSVGContainer = reusableSVGContainer || document.createElement("div");
reusableSVGContainer.innerHTML = "<svg>" + html.valueOf().toString() + "</svg>";
var svgNode = reusableSVGContainer.firstChild;
while (node.firstChild) {
node.removeChild(node.firstChild);
}
while (svgNode.firstChild) {
node.appendChild(svgNode.firstChild);
}
return;
}
}
node.innerHTML = html;
});
var ELEMENT_NODE = 1;
var TEXT_NODE = 3;
var COMMENT_NODE = 8;
var DOCUMENT_NODE = 9;
var DOCUMENT_FRAGMENT_NODE = 11;
var setTextContent = function(node, text) {
if (text) {
var firstChild = node.firstChild;
if (firstChild && firstChild === node.lastChild && firstChild.nodeType === TEXT_NODE) {
firstChild.nodeValue = text;
return;
}
}
node.textContent = text;
};
var shorthandToLonghand = {
animation: ["animationDelay", "animationDirection", "animationDuration", "animationFillMode", "animationIterationCount", "animationName", "animationPlayState", "animationTimingFunction"],
background: ["backgroundAttachment", "backgroundClip", "backgroundColor", "backgroundImage", "backgroundOrigin", "backgroundPositionX", "backgroundPositionY", "backgroundRepeat", "backgroundSize"],
backgroundPosition: ["backgroundPositionX", "backgroundPositionY"],
border: ["borderBottomColor", "borderBottomStyle", "borderBottomWidth", "borderImageOutset", "borderImageRepeat", "borderImageSlice", "borderImageSource", "borderImageWidth", "borderLeftColor", "borderLeftStyle", "borderLeftWidth", "borderRightColor", "borderRightStyle", "borderRightWidth", "borderTopColor", "borderTopStyle", "borderTopWidth"],
borderBlockEnd: ["borderBlockEndColor", "borderBlockEndStyle", "borderBlockEndWidth"],
borderBlockStart: ["borderBlockStartColor", "borderBlockStartStyle", "borderBlockStartWidth"],
borderBottom: ["borderBottomColor", "borderBottomStyle", "borderBottomWidth"],
borderColor: ["borderBottomColor", "borderLeftColor", "borderRightColor", "borderTopColor"],
borderImage: ["borderImageOutset", "borderImageRepeat", "borderImageSlice", "borderImageSource", "borderImageWidth"],
borderInlineEnd: ["borderInlineEndColor", "borderInlineEndStyle", "borderInlineEndWidth"],
borderInlineStart: ["borderInlineStartColor", "borderInlineStartStyle", "borderInlineStartWidth"],
borderLeft: ["borderLeftColor", "borderLeftStyle", "borderLeftWidth"],
borderRadius: ["borderBottomLeftRadius", "borderBottomRightRadius", "borderTopLeftRadius", "borderTopRightRadius"],
borderRight: ["borderRightColor", "borderRightStyle", "borderRightWidth"],
borderStyle: ["borderBottomStyle", "borderLeftStyle", "borderRightStyle", "borderTopStyle"],
borderTop: ["borderTopColor", "borderTopStyle", "borderTopWidth"],
borderWidth: ["borderBottomWidth", "borderLeftWidth", "borderRightWidth", "borderTopWidth"],
columnRule: ["columnRuleColor", "columnRuleStyle", "columnRuleWidth"],
columns: ["columnCount", "columnWidth"],
flex: ["flexBasis", "flexGrow", "flexShrink"],
flexFlow: ["flexDirection", "flexWrap"],
font: ["fontFamily", "fontFeatureSettings", "fontKerning", "fontLanguageOverride", "fontSize", "fontSizeAdjust", "fontStretch", "fontStyle", "fontVariant", "fontVariantAlternates", "fontVariantCaps", "fontVariantEastAsian", "fontVariantLigatures", "fontVariantNumeric", "fontVariantPosition", "fontWeight", "lineHeight"],
fontVariant: ["fontVariantAlternates", "fontVariantCaps", "fontVariantEastAsian", "fontVariantLigatures", "fontVariantNumeric", "fontVariantPosition"],
gap: ["columnGap", "rowGap"],
grid: ["gridAutoColumns", "gridAutoFlow", "gridAutoRows", "gridTemplateAreas", "gridTemplateColumns", "gridTemplateRows"],
gridArea: ["gridColumnEnd", "gridColumnStart", "gridRowEnd", "gridRowStart"],
gridColumn: ["gridColumnEnd", "gridColumnStart"],
gridColumnGap: ["columnGap"],
gridGap: ["columnGap", "rowGap"],
gridRow: ["gridRowEnd", "gridRowStart"],
gridRowGap: ["rowGap"],
gridTemplate: ["gridTemplateAreas", "gridTemplateColumns", "gridTemplateRows"],
listStyle: ["listStyleImage", "listStylePosition", "listStyleType"],
margin: ["marginBottom", "marginLeft", "marginRight", "marginTop"],
marker: ["markerEnd", "markerMid", "markerStart"],
mask: ["maskClip", "maskComposite", "maskImage", "maskMode", "maskOrigin", "maskPositionX", "maskPositionY", "maskRepeat", "maskSize"],
maskPosition: ["maskPositionX", "maskPositionY"],
outline: ["outlineColor", "outlineStyle", "outlineWidth"],
overflow: ["overflowX", "overflowY"],
padding: ["paddingBottom", "paddingLeft", "paddingRight", "paddingTop"],
placeContent: ["alignContent", "justifyContent"],
placeItems: ["alignItems", "justifyItems"],
placeSelf: ["alignSelf", "justifySelf"],
textDecoration: ["textDecorationColor", "textDecorationLine", "textDecorationStyle"],
textEmphasis: ["textEmphasisColor", "textEmphasisStyle"],
transition: ["transitionDelay", "transitionDuration", "transitionProperty", "transitionTimingFunction"],
wordWrap: ["overflowWrap"]
};
var isUnitlessNumber = {
animationIterationCount: true,
aspectRatio: true,
borderImageOutset: true,
borderImageSlice: true,
borderImageWidth: true,
boxFlex: true,
boxFlexGroup: true,
boxOrdinalGroup: true,
columnCount: true,
columns: true,
flex: true,
flexGrow: true,
flexPositive: true,
flexShrink: true,
flexNegative: true,
flexOrder: true,
gridArea: true,
gridRow: true,
gridRowEnd: true,
gridRowSpan: true,
gridRowStart: true,
gridColumn: true,
gridColumnEnd: true,
gridColumnSpan: true,
gridColumnStart: true,
fontWeight: true,
lineClamp: true,
lineHeight: true,
opacity: true,
order: true,
orphans: true,
tabSize: true,
widows: true,
zIndex: true,
zoom: true,
// SVG-related properties
fillOpacity: true,
floodOpacity: true,
stopOpacity: true,
strokeDasharray: true,
strokeDashoffset: true,
strokeMiterlimit: true,
strokeOpacity: true,
strokeWidth: true
};
function prefixKey(prefix2, key) {
return prefix2 + key.charAt(0).toUpperCase() + key.substring(1);
}
var prefixes = ["Webkit", "ms", "Moz", "O"];
Object.keys(isUnitlessNumber).forEach(function(prop) {
prefixes.forEach(function(prefix2) {
isUnitlessNumber[prefixKey(prefix2, prop)] = isUnitlessNumber[prop];
});
});
function dangerousStyleValue(name, value, isCustomProperty) {
var isEmpty = value == null || typeof value === "boolean" || value === "";
if (isEmpty) {
return "";
}
if (!isCustomProperty && typeof value === "number" && value !== 0 && !(isUnitlessNumber.hasOwnProperty(name) && isUnitlessNumber[name])) {
return value + "px";
}
{
checkCSSPropertyStringCoercion(value, name);
}
return ("" + value).trim();
}
var uppercasePattern = /([A-Z])/g;
var msPattern = /^ms-/;
function hyphenateStyleName(name) {
return name.replace(uppercasePattern, "-$1").toLowerCase().replace(msPattern, "-ms-");
}
var warnValidStyle = function() {
};
{
var badVendoredStyleNamePattern = /^(?:webkit|moz|o)[A-Z]/;
var msPattern$1 = /^-ms-/;
var hyphenPattern = /-(.)/g;
var badStyleValueWithSemicolonPattern = /;\s*$/;
var warnedStyleNames = {};
var warnedStyleValues = {};
var warnedForNaNValue = false;
var warnedForInfinityValue = false;
var camelize = function(string) {
return string.replace(hyphenPattern, function(_2, character) {
return character.toUpperCase();
});
};
var warnHyphenatedStyleName = function(name) {
if (warnedStyleNames.hasOwnProperty(name) && warnedStyleNames[name]) {
return;
}
warnedStyleNames[name] = true;
error(
"Unsupported style property %s. Did you mean %s?",
name,
// As Andi Smith suggests
// (http://www.andismith.com/blog/2012/02/modernizr-prefixed/), an `-ms` prefix
// is converted to lowercase `ms`.
camelize(name.replace(msPattern$1, "ms-"))
);
};
var warnBadVendoredStyleName = function(name) {
if (warnedStyleNames.hasOwnProperty(name) && warnedStyleNames[name]) {
return;
}
warnedStyleNames[name] = true;
error("Unsupported vendor-prefixed style property %s. Did you mean %s?", name, name.charAt(0).toUpperCase() + name.slice(1));
};
var warnStyleValueWithSemicolon = function(name, value) {
if (warnedStyleValues.hasOwnProperty(value) && warnedStyleValues[value]) {
return;
}
warnedStyleValues[value] = true;
error(`Style property values shouldn't contain a semicolon. Try "%s: %s" instead.`, name, value.replace(badStyleValueWithSemicolonPattern, ""));
};
var warnStyleValueIsNaN = function(name, value) {
if (warnedForNaNValue) {
return;
}
warnedForNaNValue = true;
error("`NaN` is an invalid value for the `%s` css style property.", name);
};
var warnStyleValueIsInfinity = function(name, value) {
if (warnedForInfinityValue) {
return;
}
warnedForInfinityValue = true;
error("`Infinity` is an invalid value for the `%s` css style property.", name);
};
warnValidStyle = function(name, value) {
if (name.indexOf("-") > -1) {
warnHyphenatedStyleName(name);
} else if (badVendoredStyleNamePattern.test(name)) {
warnBadVendoredStyleName(name);
} else if (badStyleValueWithSemicolonPattern.test(value)) {
warnStyleValueWithSemicolon(name, value);
}
if (typeof value === "number") {
if (isNaN(value)) {
warnStyleValueIsNaN(name, value);
} else if (!isFinite(value)) {
warnStyleValueIsInfinity(name, value);
}
}
};
}
var warnValidStyle$1 = warnValidStyle;
function createDangerousStringForStyles(styles) {
{
var serialized = "";
var delimiter = "";
for (var styleName in styles) {
if (!styles.hasOwnProperty(styleName)) {
continue;
}
var styleValue = styles[styleName];
if (styleValue != null) {
var isCustomProperty = styleName.indexOf("--") === 0;
serialized += delimiter + (isCustomProperty ? styleName : hyphenateStyleName(styleName)) + ":";
serialized += dangerousStyleValue(styleName, styleValue, isCustomProperty);
delimiter = ";";
}
}
return serialized || null;
}
}
function setValueForStyles(node, styles) {
var style2 = node.style;
for (var styleName in styles) {
if (!styles.hasOwnProperty(styleName)) {
continue;
}
var isCustomProperty = styleName.indexOf("--") === 0;
{
if (!isCustomProperty) {
warnValidStyle$1(styleName, styles[styleName]);
}
}
var styleValue = dangerousStyleValue(styleName, styles[styleName], isCustomProperty);
if (styleName === "float") {
styleName = "cssFloat";
}
if (isCustomProperty) {
style2.setProperty(styleName, styleValue);
} else {
style2[styleName] = styleValue;
}
}
}
function isValueEmpty(value) {
return value == null || typeof value === "boolean" || value === "";
}
function expandShorthandMap(styles) {
var expanded = {};
for (var key in styles) {
var longhands = shorthandToLonghand[key] || [key];
for (var i = 0; i < longhands.length; i++) {
expanded[longhands[i]] = key;
}
}
return expanded;
}
function validateShorthandPropertyCollisionInDev(styleUpdates, nextStyles) {
{
if (!nextStyles) {
return;
}
var expandedUpdates = expandShorthandMap(styleUpdates);
var expandedStyles = expandShorthandMap(nextStyles);
var warnedAbout = {};
for (var key in expandedUpdates) {
var originalKey = expandedUpdates[key];
var correctOriginalKey = expandedStyles[key];
if (correctOriginalKey && originalKey !== correctOriginalKey) {
var warningKey = originalKey + "," + correctOriginalKey;
if (warnedAbout[warningKey]) {
continue;
}
warnedAbout[warningKey] = true;
error("%s a style property during rerender (%s) when a conflicting property is set (%s) can lead to styling bugs. To avoid this, don't mix shorthand and non-shorthand properties for the same value; instead, replace the shorthand with separate values.", isValueEmpty(styleUpdates[originalKey]) ? "Removing" : "Updating", originalKey, correctOriginalKey);
}
}
}
}
var omittedCloseTags = {
area: true,
base: true,
br: true,
col: true,
embed: true,
hr: true,
img: true,
input: true,
keygen: true,
link: true,
meta: true,
param: true,
source: true,
track: true,
wbr: true
// NOTE: menuitem's close tag should be omitted, but that causes problems.
};
var voidElementTags = assign({
menuitem: true
}, omittedCloseTags);
var HTML = "__html";
function assertValidProps(tag, props) {
if (!props) {
return;
}
if (voidElementTags[tag]) {
if (props.children != null || props.dangerouslySetInnerHTML != null) {
throw new Error(tag + " is a void element tag and must neither have `children` nor use `dangerouslySetInnerHTML`.");
}
}
if (props.dangerouslySetInnerHTML != null) {
if (props.children != null) {
throw new Error("Can only set one of `children` or `props.dangerouslySetInnerHTML`.");
}
if (typeof props.dangerouslySetInnerHTML !== "object" || !(HTML in props.dangerouslySetInnerHTML)) {
throw new Error("`props.dangerouslySetInnerHTML` must be in the form `{__html: ...}`. Please visit https://reactjs.org/link/dangerously-set-inner-html for more information.");
}
}
{
if (!props.suppressContentEditableWarning && props.contentEditable && props.children != null) {
error("A component is `contentEditable` and contains `children` managed by React. It is now your responsibility to guarantee that none of those nodes are unexpectedly modified or duplicated. This is probably not intentional.");
}
}
if (props.style != null && typeof props.style !== "object") {
throw new Error("The `style` prop expects a mapping from style properties to values, not a string. For example, style={{marginRight: spacing + 'em'}} when using JSX.");
}
}
function isCustomComponent(tagName, props) {
if (tagName.indexOf("-") === -1) {
return typeof props.is === "string";
}
switch (tagName) {
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 possibleStandardNames = {
// HTML
accept: "accept",
acceptcharset: "acceptCharset",
"accept-charset": "acceptCharset",
accesskey: "accessKey",
action: "action",
allowfullscreen: "allowFullScreen",
alt: "alt",
as: "as",
async: "async",
autocapitalize: "autoCapitalize",
autocomplete: "autoComplete",
autocorrect: "autoCorrect",
autofocus: "autoFocus",
autoplay: "autoPlay",
autosave: "autoSave",
capture: "capture",
cellpadding: "cellPadding",
cellspacing: "cellSpacing",
challenge: "challenge",
charset: "charSet",
checked: "checked",
children: "children",
cite: "cite",
class: "className",
classid: "classID",
classname: "className",
cols: "cols",
colspan: "colSpan",
content: "content",
contenteditable: "contentEditable",
contextmenu: "contextMenu",
controls: "controls",
controlslist: "controlsList",
coords: "coords",
crossorigin: "crossOrigin",
dangerouslysetinnerhtml: "dangerouslySetInnerHTML",
data: "data",
datetime: "dateTime",
default: "default",
defaultchecked: "defaultChecked",
defaultvalue: "defaultValue",
defer: "defer",
dir: "dir",
disabled: "disabled",
disablepictureinpicture: "disablePictureInPicture",
disableremoteplayback: "disableRemotePlayback",
download: "download",
draggable: "draggable",
enctype: "encType",
enterkeyhint: "enterKeyHint",
for: "htmlFor",
form: "form",
formmethod: "formMethod",
formaction: "formAction",
formenctype: "formEncType",
formnovalidate: "formNoValidate",
formtarget: "formTarget",
frameborder: "frameBorder",
headers: "headers",
height: "height",
hidden: "hidden",
high: "high",
href: "href",
hreflang: "hrefLang",
htmlfor: "htmlFor",
httpequiv: "httpEquiv",
"http-equiv": "httpEquiv",
icon: "icon",
id: "id",
imagesizes: "imageSizes",
imagesrcset: "imageSrcSet",
innerhtml: "innerHTML",
inputmode: "inputMode",
integrity: "integrity",
is: "is",
itemid: "itemID",
itemprop: "itemProp",
itemref: "itemRef",
itemscope: "itemScope",
itemtype: "itemType",
keyparams: "keyParams",
keytype: "keyType",
kind: "kind",
label: "label",
lang: "lang",
list: "list",
loop: "loop",
low: "low",
manifest: "manifest",
marginwidth: "marginWidth",
marginheight: "marginHeight",
max: "max",
maxlength: "maxLength",
media: "media",
mediagroup: "mediaGroup",
method: "method",
min: "min",
minlength: "minLength",
multiple: "multiple",
muted: "muted",
name: "name",
nomodule: "noModule",
nonce: "nonce",
novalidate: "noValidate",
open: "open",
optimum: "optimum",
pattern: "pattern",
placeholder: "placeholder",
playsinline: "playsInline",
poster: "poster",
preload: "preload",
profile: "profile",
radiogroup: "radioGroup",
readonly: "readOnly",
referrerpolicy: "referrerPolicy",
rel: "rel",
required: "required",
reversed: "reversed",
role: "role",
rows: "rows",
rowspan: "rowSpan",
sandbox: "sandbox",
scope: "scope",
scoped: "scoped",
scrolling: "scrolling",
seamless: "seamless",
selected: "selected",
shape: "shape",
size: "size",
sizes: "sizes",
span: "span",
spellcheck: "spellCheck",
src: "src",
srcdoc: "srcDoc",
srclang: "srcLang",
srcset: "srcSet",
start: "start",
step: "step",
style: "style",
summary: "summary",
tabindex: "tabIndex",
target: "target",
title: "title",
type: "type",
usemap: "useMap",
value: "value",
width: "width",
wmode: "wmode",
wrap: "wrap",
// SVG
about: "about",
accentheight: "accentHeight",
"accent-height": "accentHeight",
accumulate: "accumulate",
additive: "additive",
alignmentbaseline: "alignmentBaseline",
"alignment-baseline": "alignmentBaseline",
allowreorder: "allowReorder",
alphabetic: "alphabetic",
amplitude: "amplitude",
arabicform: "arabicForm",
"arabic-form": "arabicForm",
ascent: "ascent",
attributename: "attributeName",
attributetype: "attributeType",
autoreverse: "autoReverse",
azimuth: "azimuth",
basefrequency: "baseFrequency",
baselineshift: "baselineShift",
"baseline-shift": "baselineShift",
baseprofile: "baseProfile",
bbox: "bbox",
begin: "begin",
bias: "bias",
by: "by",
calcmode: "calcMode",
capheight: "capHeight",
"cap-height": "capHeight",
clip: "clip",
clippath: "clipPath",
"clip-path": "clipPath",
clippathunits: "clipPathUnits",
cliprule: "clipRule",
"clip-rule": "clipRule",
color: "color",
colorinterpolation: "colorInterpolation",
"color-interpolation": "colorInterpolation",
colorinterpolationfilters: "colorInterpolationFilters",
"color-interpolation-filters": "colorInterpolationFilters",
colorprofile: "colorProfile",
"color-profile": "colorProfile",
colorrendering: "colorRendering",
"color-rendering": "colorRendering",
contentscripttype: "contentScriptType",
contentstyletype: "contentStyleType",
cursor: "cursor",
cx: "cx",
cy: "cy",
d: "d",
datatype: "datatype",
decelerate: "decelerate",
descent: "descent",
diffuseconstant: "diffuseConstant",
direction: "direction",
display: "display",
divisor: "divisor",
dominantbaseline: "dominantBaseline",
"dominant-baseline": "dominantBaseline",
dur: "dur",
dx: "dx",
dy: "dy",
edgemode: "edgeMode",
elevation: "elevation",
enablebackground: "enableBackground",
"enable-background": "enableBackground",
end: "end",
exponent: "exponent",
externalresourcesrequired: "externalResourcesRequired",
fill: "fill",
fillopacity: "fillOpacity",
"fill-opacity": "fillOpacity",
fillrule: "fillRule",
"fill-rule": "fillRule",
filter: "filter",
filterres: "filterRes",
filterunits: "filterUnits",
floodopacity: "floodOpacity",
"flood-opacity": "floodOpacity",
floodcolor: "floodColor",
"flood-color": "floodColor",
focusable: "focusable",
fontfamily: "fontFamily",
"font-family": "fontFamily",
fontsize: "fontSize",
"font-size": "fontSize",
fontsizeadjust: "fontSizeAdjust",
"font-size-adjust": "fontSizeAdjust",
fontstretch: "fontStretch",
"font-stretch": "fontStretch",
fontstyle: "fontStyle",
"font-style": "fontStyle",
fontvariant: "fontVariant",
"font-variant": "fontVariant",
fontweight: "fontWeight",
"font-weight": "fontWeight",
format: "format",
from: "from",
fx: "fx",
fy: "fy",
g1: "g1",
g2: "g2",
glyphname: "glyphName",
"glyph-name": "glyphName",
glyphorientationhorizontal: "glyphOrientationHorizontal",
"glyph-orientation-horizontal": "glyphOrientationHorizontal",
glyphorientationvertical: "glyphOrientationVertical",
"glyph-orientation-vertical": "glyphOrientationVertical",
glyphref: "glyphRef",
gradienttransform: "gradientTransform",
gradientunits: "gradientUnits",
hanging: "hanging",
horizadvx: "horizAdvX",
"horiz-adv-x": "horizAdvX",
horizoriginx: "horizOriginX",
"horiz-origin-x": "horizOriginX",
ideographic: "ideographic",
imagerendering: "imageRendering",
"image-rendering": "imageRendering",
in2: "in2",
in: "in",
inlist: "inlist",
intercept: "intercept",
k1: "k1",
k2: "k2",
k3: "k3",
k4: "k4",
k: "k",
kernelmatrix: "kernelMatrix",
kernelunitlength: "kernelUnitLength",
kerning: "kerning",
keypoints: "keyPoints",
keysplines: "keySplines",
keytimes: "keyTimes",
lengthadjust: "lengthAdjust",
letterspacing: "letterSpacing",
"letter-spacing": "letterSpacing",
lightingcolor: "lightingColor",
"lighting-color": "lightingColor",
limitingconeangle: "limitingConeAngle",
local: "local",
markerend: "markerEnd",
"marker-end": "markerEnd",
markerheight: "markerHeight",
markermid: "markerMid",
"marker-mid": "markerMid",
markerstart: "markerStart",
"marker-start": "markerStart",
markerunits: "markerUnits",
markerwidth: "markerWidth",
mask: "mask",
maskcontentunits: "maskContentUnits",
maskunits: "maskUnits",
mathematical: "mathematical",
mode: "mode",
numoctaves: "numOctaves",
offset: "offset",
opacity: "opacity",
operator: "operator",
order: "order",
orient: "orient",
orientation: "orientation",
origin: "origin",
overflow: "overflow",
overlineposition: "overlinePosition",
"overline-position": "overlinePosition",
overlinethickness: "overlineThickness",
"overline-thickness": "overlineThickness",
paintorder: "paintOrder",
"paint-order": "paintOrder",
panose1: "panose1",
"panose-1": "panose1",
pathlength: "pathLength",
patterncontentunits: "patternContentUnits",
patterntransform: "patternTransform",
patternunits: "patternUnits",
pointerevents: "pointerEvents",
"pointer-events": "pointerEvents",
points: "points",
pointsatx: "pointsAtX",
pointsaty: "pointsAtY",
pointsatz: "pointsAtZ",
prefix: "prefix",
preservealpha: "preserveAlpha",
preserveaspectratio: "preserveAspectRatio",
primitiveunits: "primitiveUnits",
property: "property",
r: "r",
radius: "radius",
refx: "refX",
refy: "refY",
renderingintent: "renderingIntent",
"rendering-intent": "renderingIntent",
repeatcount: "repeatCount",
repeatdur: "repeatDur",
requiredextensions: "requiredExtensions",
requiredfeatures: "requiredFeatures",
resource: "resource",
restart: "restart",
result: "result",
results: "results",
rotate: "rotate",
rx: "rx",
ry: "ry",
scale: "scale",
security: "security",
seed: "seed",
shaperendering: "shapeRendering",
"shape-rendering": "shapeRendering",
slope: "slope",
spacing: "spacing",
specularconstant: "specularConstant",
specularexponent: "specularExponent",
speed: "speed",
spreadmethod: "spreadMethod",
startoffset: "startOffset",
stddeviation: "stdDeviation",
stemh: "stemh",
stemv: "stemv",
stitchtiles: "stitchTiles",
stopcolor: "stopColor",
"stop-color": "stopColor",
stopopacity: "stopOpacity",
"stop-opacity": "stopOpacity",
strikethroughposition: "strikethroughPosition",
"strikethrough-position": "strikethroughPosition",
strikethroughthickness: "strikethroughThickness",
"strikethrough-thickness": "strikethroughThickness",
string: "string",
stroke: "stroke",
strokedasharray: "strokeDasharray",
"stroke-dasharray": "strokeDasharray",
strokedashoffset: "strokeDashoffset",
"stroke-dashoffset": "strokeDashoffset",
strokelinecap: "strokeLinecap",
"stroke-linecap": "strokeLinecap",
strokelinejoin: "strokeLinejoin",
"stroke-linejoin": "strokeLinejoin",
strokemiterlimit: "strokeMiterlimit",
"stroke-miterlimit": "strokeMiterlimit",
strokewidth: "strokeWidth",
"stroke-width": "strokeWidth",
strokeopacity: "strokeOpacity",
"stroke-opacity": "strokeOpacity",
suppresscontenteditablewarning: "suppressContentEditableWarning",
suppresshydrationwarning: "suppressHydrationWarning",
surfacescale: "surfaceScale",
systemlanguage: "systemLanguage",
tablevalues: "tableValues",
targetx: "targetX",
targety: "targetY",
textanchor: "textAnchor",
"text-anchor": "textAnchor",
textdecoration: "textDecoration",
"text-decoration": "textDecoration",
textlength: "textLength",
textrendering: "textRendering",
"text-rendering": "textRendering",
to: "to",
transform: "transform",
typeof: "typeof",
u1: "u1",
u2: "u2",
underlineposition: "underlinePosition",
"underline-position": "underlinePosition",
underlinethickness: "underlineThickness",
"underline-thickness": "underlineThickness",
unicode: "unicode",
unicodebidi: "unicodeBidi",
"unicode-bidi": "unicodeBidi",
unicoderange: "unicodeRange",
"unicode-range": "unicodeRange",
unitsperem: "unitsPerEm",
"units-per-em": "unitsPerEm",
unselectable: "unselectable",
valphabetic: "vAlphabetic",
"v-alphabetic": "vAlphabetic",
values: "values",
vectoreffect: "vectorEffect",
"vector-effect": "vectorEffect",
version: "version",
vertadvy: "vertAdvY",
"vert-adv-y": "vertAdvY",
vertoriginx: "vertOriginX",
"vert-origin-x": "vertOriginX",
vertoriginy: "vertOriginY",
"vert-origin-y": "vertOriginY",
vhanging: "vHanging",
"v-hanging": "vHanging",
videographic: "vIdeographic",
"v-ideographic": "vIdeographic",
viewbox: "viewBox",
viewtarget: "viewTarget",
visibility: "visibility",
vmathematical: "vMathematical",
"v-mathematical": "vMathematical",
vocab: "vocab",
widths: "widths",
wordspacing: "wordSpacing",
"word-spacing": "wordSpacing",
writingmode: "writingMode",
"writing-mode": "writingMode",
x1: "x1",
x2: "x2",
x: "x",
xchannelselector: "xChannelSelector",
xheight: "xHeight",
"x-height": "xHeight",
xlinkactuate: "xlinkActuate",
"xlink:actuate": "xlinkActuate",
xlinkarcrole: "xlinkArcrole",
"xlink:arcrole": "xlinkArcrole",
xlinkhref: "xlinkHref",
"xlink:href": "xlinkHref",
xlinkrole: "xlinkRole",
"xlink:role": "xlinkRole",
xlinkshow: "xlinkShow",
"xlink:show": "xlinkShow",
xlinktitle: "xlinkTitle",
"xlink:title": "xlinkTitle",
xlinktype: "xlinkType",
"xlink:type": "xlinkType",
xmlbase: "xmlBase",
"xml:base": "xmlBase",
xmllang: "xmlLang",
"xml:lang": "xmlLang",
xmlns: "xmlns",
"xml:space": "xmlSpace",
xmlnsxlink: "xmlnsXlink",
"xmlns:xlink": "xmlnsXlink",
xmlspace: "xmlSpace",
y1: "y1",
y2: "y2",
y: "y",
ychannelselector: "yChannelSelector",
z: "z",
zoomandpan: "zoomAndPan"
};
var ariaProperties = {
"aria-current": 0,
// state
"aria-description": 0,
"aria-details": 0,
"aria-disabled": 0,
// state
"aria-hidden": 0,
// state
"aria-invalid": 0,
// state
"aria-keyshortcuts": 0,
"aria-label": 0,
"aria-roledescription": 0,
// Widget Attributes
"aria-autocomplete": 0,
"aria-checked": 0,
"aria-expanded": 0,
"aria-haspopup": 0,
"aria-level": 0,
"aria-modal": 0,
"aria-multiline": 0,
"aria-multiselectable": 0,
"aria-orientation": 0,
"aria-placeholder": 0,
"aria-pressed": 0,
"aria-readonly": 0,
"aria-required": 0,
"aria-selected": 0,
"aria-sort": 0,
"aria-valuemax": 0,
"aria-valuemin": 0,
"aria-valuenow": 0,
"aria-valuetext": 0,
// Live Region Attributes
"aria-atomic": 0,
"aria-busy": 0,
"aria-live": 0,
"aria-relevant": 0,
// Drag-and-Drop Attributes
"aria-dropeffect": 0,
"aria-grabbed": 0,
// Relationship Attributes
"aria-activedescendant": 0,
"aria-colcount": 0,
"aria-colindex": 0,
"aria-colspan": 0,
"aria-controls": 0,
"aria-describedby": 0,
"aria-errormessage": 0,
"aria-flowto": 0,
"aria-labelledby": 0,
"aria-owns": 0,
"aria-posinset": 0,
"aria-rowcount": 0,
"aria-rowindex": 0,
"aria-rowspan": 0,
"aria-setsize": 0
};
var warnedProperties = {};
var rARIA = new RegExp("^(aria)-[" + ATTRIBUTE_NAME_CHAR + "]*$");
var rARIACamel = new RegExp("^(aria)[A-Z][" + ATTRIBUTE_NAME_CHAR + "]*$");
function validateProperty(tagName, name) {
{
if (hasOwnProperty.call(warnedProperties, name) && warnedProperties[name]) {
return true;
}
if (rARIACamel.test(name)) {
var ariaName = "aria-" + name.slice(4).toLowerCase();
var correctName = ariaProperties.hasOwnProperty(ariaName) ? ariaName : null;
if (correctName == null) {
error("Invalid ARIA attribute `%s`. ARIA attributes follow the pattern aria-* and must be lowercase.", name);
warnedProperties[name] = true;
return true;
}
if (name !== correctName) {
error("Invalid ARIA attribute `%s`. Did you mean `%s`?", name, correctName);
warnedProperties[name] = true;
return true;
}
}
if (rARIA.test(name)) {
var lowerCasedName = name.toLowerCase();
var standardName = ariaProperties.hasOwnProperty(lowerCasedName) ? lowerCasedName : null;
if (standardName == null) {
warnedProperties[name] = true;
return false;
}
if (name !== standardName) {
error("Unknown ARIA attribute `%s`. Did you mean `%s`?", name, standardName);
warnedProperties[name] = true;
return true;
}
}
}
return true;
}
function warnInvalidARIAProps(type, props) {
{
var invalidProps = [];
for (var key in props) {
var isValid2 = validateProperty(type, key);
if (!isValid2) {
invalidProps.push(key);
}
}
var unknownPropString = invalidProps.map(function(prop) {
return "`" + prop + "`";
}).join(", ");
if (invalidProps.length === 1) {
error("Invalid aria prop %s on <%s> tag. For details, see https://reactjs.org/link/invalid-aria-props", unknownPropString, type);
} else if (invalidProps.length > 1) {
error("Invalid aria props %s on <%s> tag. For details, see https://reactjs.org/link/invalid-aria-props", unknownPropString, type);
}
}
}
function validateProperties(type, props) {
if (isCustomComponent(type, props)) {
return;
}
warnInvalidARIAProps(type, props);
}
var didWarnValueNull = false;
function validateProperties$1(type, props) {
{
if (type !== "input" && type !== "textarea" && type !== "select") {
return;
}
if (props != null && props.value === null && !didWarnValueNull) {
didWarnValueNull = true;
if (type === "select" && props.multiple) {
error("`value` prop on `%s` should not be null. Consider using an empty array when `multiple` is set to `true` to clear the component or `undefined` for uncontrolled components.", type);
} else {
error("`value` prop on `%s` should not be null. Consider using an empty string to clear the component or `undefined` for uncontrolled components.", type);
}
}
}
}
var validateProperty$1 = function() {
};
{
var warnedProperties$1 = {};
var EVENT_NAME_REGEX = /^on./;
var INVALID_EVENT_NAME_REGEX = /^on[^A-Z]/;
var rARIA$1 = new RegExp("^(aria)-[" + ATTRIBUTE_NAME_CHAR + "]*$");
var rARIACamel$1 = new RegExp("^(aria)[A-Z][" + ATTRIBUTE_NAME_CHAR + "]*$");
validateProperty$1 = function(tagName, name, value, eventRegistry) {
if (hasOwnProperty.call(warnedProperties$1, name) && warnedProperties$1[name]) {
return true;
}
var lowerCasedName = name.toLowerCase();
if (lowerCasedName === "onfocusin" || lowerCasedName === "onfocusout") {
error("React uses onFocus and onBlur instead of onFocusIn and onFocusOut. All React events are normalized to bubble, so onFocusIn and onFocusOut are not needed/supported by React.");
warnedProperties$1[name] = true;
return true;
}
if (eventRegistry != null) {
var registrationNameDependencies2 = eventRegistry.registrationNameDependencies, possibleRegistrationNames2 = eventRegistry.possibleRegistrationNames;
if (registrationNameDependencies2.hasOwnProperty(name)) {
return true;
}
var registrationName = possibleRegistrationNames2.hasOwnProperty(lowerCasedName) ? possibleRegistrationNames2[lowerCasedName] : null;
if (registrationName != null) {
error("Invalid event handler property `%s`. Did you mean `%s`?", name, registrationName);
warnedProperties$1[name] = true;
return true;
}
if (EVENT_NAME_REGEX.test(name)) {
error("Unknown event handler property `%s`. It will be ignored.", name);
warnedProperties$1[name] = true;
return true;
}
} else if (EVENT_NAME_REGEX.test(name)) {
if (INVALID_EVENT_NAME_REGEX.test(name)) {
error("Invalid event handler property `%s`. React events use the camelCase naming convention, for example `onClick`.", name);
}
warnedProperties$1[name] = true;
return true;
}
if (rARIA$1.test(name) || rARIACamel$1.test(name)) {
return true;
}
if (lowerCasedName === "innerhtml") {
error("Directly setting property `innerHTML` is not permitted. For more information, lookup documentation on `dangerouslySetInnerHTML`.");
warnedProperties$1[name] = true;
return true;
}
if (lowerCasedName === "aria") {
error("The `aria` attribute is reserved for future use in React. Pass individual `aria-` attributes instead.");
warnedProperties$1[name] = true;
return true;
}
if (lowerCasedName === "is" && value !== null && value !== void 0 && typeof value !== "string") {
error("Received a `%s` for a string attribute `is`. If this is expected, cast the value to a string.", typeof value);
warnedProperties$1[name] = true;
return true;
}
if (typeof value === "number" && isNaN(value)) {
error("Received NaN for the `%s` attribute. If this is expected, cast the value to a string.", name);
warnedProperties$1[name] = true;
return true;
}
var propertyInfo = getPropertyInfo(name);
var isReserved = propertyInfo !== null && propertyInfo.type === RESERVED;
if (possibleStandardNames.hasOwnProperty(lowerCasedName)) {
var standardName = possibleStandardNames[lowerCasedName];
if (standardName !== name) {
error("Invalid DOM property `%s`. Did you mean `%s`?", name, standardName);
warnedProperties$1[name] = true;
return true;
}
} else if (!isReserved && name !== lowerCasedName) {
error("React does not recognize the `%s` prop on a DOM element. If you intentionally want it to appear in the DOM as a custom attribute, spell it as lowercase `%s` instead. If you accidentally passed it from a parent component, remove it from the DOM element.", name, lowerCasedName);
warnedProperties$1[name] = true;
return true;
}
if (typeof value === "boolean" && shouldRemoveAttributeWithWarning(name, value, propertyInfo, false)) {
if (value) {
error('Received `%s` for a non-boolean attribute `%s`.\n\nIf you want to write it to the DOM, pass a string instead: %s="%s" or %s={value.toString()}.', value, name, name, value, name);
} else {
error('Received `%s` for a non-boolean attribute `%s`.\n\nIf you want to write it to the DOM, pass a string instead: %s="%s" or %s={value.toString()}.\n\nIf you used to conditionally omit it with %s={condition && value}, pass %s={condition ? value : undefined} instead.', value, name, name, value, name, name, name);
}
warnedProperties$1[name] = true;
return true;
}
if (isReserved) {
return true;
}
if (shouldRemoveAttributeWithWarning(name, value, propertyInfo, false)) {
warnedProperties$1[name] = true;
return false;
}
if ((value === "false" || value === "true") && propertyInfo !== null && propertyInfo.type === BOOLEAN) {
error("Received the string `%s` for the boolean attribute `%s`. %s Did you mean %s={%s}?", value, name, value === "false" ? "The browser will interpret it as a truthy value." : 'Although this works, it will not work as expected if you pass the string "false".', name, value);
warnedProperties$1[name] = true;
return true;
}
return true;
};
}
var warnUnknownProperties = function(type, props, eventRegistry) {
{
var unknownProps = [];
for (var key in props) {
var isValid2 = validateProperty$1(type, key, props[key], eventRegistry);
if (!isValid2) {
unknownProps.push(key);
}
}
var unknownPropString = unknownProps.map(function(prop) {
return "`" + prop + "`";
}).join(", ");
if (unknownProps.length === 1) {
error("Invalid value for prop %s on <%s> tag. Either remove it from the element, or pass a string or number value to keep it in the DOM. For details, see https://reactjs.org/link/attribute-behavior ", unknownPropString, type);
} else if (unknownProps.length > 1) {
error("Invalid values for props %s on <%s> tag. Either remove them from the element, or pass a string or number value to keep them in the DOM. For details, see https://reactjs.org/link/attribute-behavior ", unknownPropString, type);
}
}
};
function validateProperties$2(type, props, eventRegistry) {
if (isCustomComponent(type, props)) {
return;
}
warnUnknownProperties(type, props, eventRegistry);
}
var IS_EVENT_HANDLE_NON_MANAGED_NODE = 1;
var IS_NON_DELEGATED = 1 << 1;
var IS_CAPTURE_PHASE = 1 << 2;
var SHOULD_NOT_PROCESS_POLYFILL_EVENT_PLUGINS = IS_EVENT_HANDLE_NON_MANAGED_NODE | IS_NON_DELEGATED | IS_CAPTURE_PHASE;
var currentReplayingEvent = null;
function setReplayingEvent(event) {
{
if (currentReplayingEvent !== null) {
error("Expected currently replaying event to be null. This error is likely caused by a bug in React. Please file an issue.");
}
}
currentReplayingEvent = event;
}
function resetReplayingEvent() {
{
if (currentReplayingEvent === null) {
error("Expected currently replaying event to not be null. This error is likely caused by a bug in React. Please file an issue.");
}
}
currentReplayingEvent = null;
}
function isReplayingEvent(event) {
return event === currentReplayingEvent;
}
function getEventTarget(nativeEvent) {
var target = nativeEvent.target || nativeEvent.srcElement || window;
if (target.correspondingUseElement) {
target = target.correspondingUseElement;
}
return target.nodeType === TEXT_NODE ? target.parentNode : target;
}
var restoreImpl = null;
var restoreTarget = null;
var restoreQueue = null;
function restoreStateOfTarget(target) {
var internalInstance = getInstanceFromNode(target);
if (!internalInstance) {
return;
}
if (typeof restoreImpl !== "function") {
throw new Error("setRestoreImplementation() needs to be called to handle a target for controlled events. This error is likely caused by a bug in React. Please file an issue.");
}
var stateNode = internalInstance.stateNode;
if (stateNode) {
var _props = getFiberCurrentPropsFromNode(stateNode);
restoreImpl(internalInstance.stateNode, internalInstance.type, _props);
}
}
function setRestoreImplementation(impl) {
restoreImpl = impl;
}
function enqueueStateRestore(target) {
if (restoreTarget) {
if (restoreQueue) {
restoreQueue.push(target);
} else {
restoreQueue = [target];
}
} else {
restoreTarget = target;
}
}
function needsStateRestore() {
return restoreTarget !== null || restoreQueue !== null;
}
function restoreStateIfNeeded() {
if (!restoreTarget) {
return;
}
var target = restoreTarget;
var queuedTargets = restoreQueue;
restoreTarget = null;
restoreQueue = null;
restoreStateOfTarget(target);
if (queuedTargets) {
for (var i = 0; i < queuedTargets.length; i++) {
restoreStateOfTarget(queuedTargets[i]);
}
}
}
var batchedUpdatesImpl = function(fn, bookkeeping) {
return fn(bookkeeping);
};
var flushSyncImpl = function() {
};
var isInsideEventHandler = false;
function finishEventHandler() {
var controlledComponentsHavePendingUpdates = needsStateRestore();
if (controlledComponentsHavePendingUpdates) {
flushSyncImpl();
restoreStateIfNeeded();
}
}
function batchedUpdates(fn, a2, b2) {
if (isInsideEventHandler) {
return fn(a2, b2);
}
isInsideEventHandler = true;
try {
return batchedUpdatesImpl(fn, a2, b2);
} finally {
isInsideEventHandler = false;
finishEventHandler();
}
}
function setBatchingImplementation(_batchedUpdatesImpl, _discreteUpdatesImpl, _flushSyncImpl) {
batchedUpdatesImpl = _batchedUpdatesImpl;
flushSyncImpl = _flushSyncImpl;
}
function isInteractive(tag) {
return tag === "button" || tag === "input" || tag === "select" || tag === "textarea";
}
function shouldPreventMouseEvent(name, type, props) {
switch (name) {
case "onClick":
case "onClickCapture":
case "onDoubleClick":
case "onDoubleClickCapture":
case "onMouseDown":
case "onMouseDownCapture":
case "onMouseMove":
case "onMouseMoveCapture":
case "onMouseUp":
case "onMouseUpCapture":
case "onMouseEnter":
return !!(props.disabled && isInteractive(type));
default:
return false;
}
}
function getListener(inst, registrationName) {
var stateNode = inst.stateNode;
if (stateNode === null) {
return null;
}
var props = getFiberCurrentPropsFromNode(stateNode);
if (props === null) {
return null;
}
var listener = props[registrationName];
if (shouldPreventMouseEvent(registrationName, inst.type, props)) {
return null;
}
if (listener && typeof listener !== "function") {
throw new Error("Expected `" + registrationName + "` listener to be a function, instead got a value of `" + typeof listener + "` type.");
}
return listener;
}
var 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;
}
}
function invokeGuardedCallbackProd(name, func, context, a2, b2, c2, d2, e, f) {
var funcArgs = Array.prototype.slice.call(arguments, 3);
try {
func.apply(context, funcArgs);
} catch (error2) {
this.onError(error2);
}
}
var invokeGuardedCallbackImpl = invokeGuardedCallbackProd;
{
if (typeof window !== "undefined" && typeof window.dispatchEvent === "function" && typeof document !== "undefined" && typeof document.createEvent === "function") {
var fakeNode = document.createElement("react");
invokeGuardedCallbackImpl = function invokeGuardedCallbackDev(name, func, context, a2, b2, c2, d2, e, f) {
if (typeof document === "undefined" || document === null) {
throw new Error("The `document` global was defined when React was initialized, but is not defined anymore. This can happen in a test environment if a component schedules an update from an asynchronous callback, but the test has already finished running. To solve this, you can either unmount the component at the end of your test (and ensure that any asynchronous operations get canceled in `componentWillUnmount`), or you can change the test itself to be asynchronous.");
}
var evt = document.createEvent("Event");
var didCall = false;
var didError = true;
var windowEvent = window.event;
var windowEventDescriptor = Object.getOwnPropertyDescriptor(window, "event");
function restoreAfterDispatch() {
fakeNode.removeEventListener(evtType, callCallback2, false);
if (typeof window.event !== "undefined" && window.hasOwnProperty("event")) {
window.event = windowEvent;
}
}
var funcArgs = Array.prototype.slice.call(arguments, 3);
function callCallback2() {
didCall = true;
restoreAfterDispatch();
func.apply(context, funcArgs);
didError = false;
}
var error2;
var didSetError = false;
var isCrossOriginError = false;
function handleWindowError(event) {
error2 = event.error;
didSetError = true;
if (error2 === null && event.colno === 0 && event.lineno === 0) {
isCrossOriginError = true;
}
if (event.defaultPrevented) {
if (error2 != null && typeof error2 === "object") {
try {
error2._suppressLogging = true;
} catch (inner) {
}
}
}
}
var evtType = "react-" + (name ? name : "invokeguardedcallback");
window.addEventListener("error", handleWindowError);
fakeNode.addEventListener(evtType, callCallback2, false);
evt.initEvent(evtType, false, false);
fakeNode.dispatchEvent(evt);
if (windowEventDescriptor) {
Object.defineProperty(window, "event", windowEventDescriptor);
}
if (didCall && didError) {
if (!didSetError) {
error2 = new Error(`An error was thrown inside one of your components, but React doesn't know what it was. This is likely due to browser flakiness. React does its best to preserve the "Pause on exceptions" behavior of the DevTools, which requires some DEV-mode only tricks. It's possible that these don't work in your browser. Try triggering the error in production mode, or switching to a modern browser. If you suspect that this is actually an issue with React, please file an issue.`);
} else if (isCrossOriginError) {
error2 = new Error("A cross-origin error was thrown. React doesn't have access to the actual error object in development. See https://reactjs.org/link/crossorigin-error for more information.");
}
this.onError(error2);
}
window.removeEventListener("error", handleWindowError);
if (!didCall) {
restoreAfterDispatch();
return invokeGuardedCallbackProd.apply(this, arguments);
}
};
}
}
var invokeGuardedCallbackImpl$1 = invokeGuardedCallbackImpl;
var hasError = false;
var caughtError = null;
var hasRethrowError = false;
var rethrowError = null;
var reporter = {
onError: function(error2) {
hasError = true;
caughtError = error2;
}
};
function invokeGuardedCallback(name, func, context, a2, b2, c2, d2, e, f) {
hasError = false;
caughtError = null;
invokeGuardedCallbackImpl$1.apply(reporter, arguments);
}
function invokeGuardedCallbackAndCatchFirstError(name, func, context, a2, b2, c2, d2, e, f) {
invokeGuardedCallback.apply(this, arguments);
if (hasError) {
var error2 = clearCaughtError();
if (!hasRethrowError) {
hasRethrowError = true;
rethrowError = error2;
}
}
}
function rethrowCaughtError() {
if (hasRethrowError) {
var error2 = rethrowError;
hasRethrowError = false;
rethrowError = null;
throw error2;
}
}
function hasCaughtError() {
return hasError;
}
function clearCaughtError() {
if (hasError) {
var error2 = caughtError;
hasError = false;
caughtError = null;
return error2;
} else {
throw new Error("clearCaughtError was called but no error was captured. This error is likely caused by a bug in React. Please file an issue.");
}
}
function get(key) {
return key._reactInternals;
}
function has(key) {
return key._reactInternals !== void 0;
}
function set(key, value) {
key._reactInternals = value;
}
var NoFlags = (
/* */
0
);
var PerformedWork = (
/* */
1
);
var Placement = (
/* */
2
);
var Update = (
/* */
4
);
var ChildDeletion = (
/* */
16
);
var ContentReset = (
/* */
32
);
var Callback = (
/* */
64
);
var DidCapture = (
/* */
128
);
var ForceClientRender = (
/* */
256
);
var Ref = (
/* */
512
);
var Snapshot = (
/* */
1024
);
var Passive = (
/* */
2048
);
var Hydrating = (
/* */
4096
);
var Visibility = (
/* */
8192
);
var StoreConsistency = (
/* */
16384
);
var LifecycleEffectMask = Passive | Update | Callback | Ref | Snapshot | StoreConsistency;
var HostEffectMask = (
/* */
32767
);
var Incomplete = (
/* */
32768
);
var ShouldCapture = (
/* */
65536
);
var ForceUpdateForLegacySuspense = (
/* */
131072
);
var Forked = (
/* */
1048576
);
var RefStatic = (
/* */
2097152
);
var LayoutStatic = (
/* */
4194304
);
var PassiveStatic = (
/* */
8388608
);
var MountLayoutDev = (
/* */
16777216
);
var MountPassiveDev = (
/* */
33554432
);
var BeforeMutationMask = (
// TODO: Remove Update flag from before mutation phase by re-landing Visibility
// flag logic (see #20043)
Update | Snapshot | 0
);
var MutationMask = Placement | Update | ChildDeletion | ContentReset | Ref | Hydrating | Visibility;
var LayoutMask = Update | Callback | Ref | Visibility;
var PassiveMask = Passive | ChildDeletion;
var StaticMask = LayoutStatic | PassiveStatic | RefStatic;
var ReactCurrentOwner = ReactSharedInternals.ReactCurrentOwner;
function getNearestMountedFiber(fiber) {
var node = fiber;
var nearestMounted = fiber;
if (!fiber.alternate) {
var nextNode = node;
do {
node = nextNode;
if ((node.flags & (Placement | Hydrating)) !== NoFlags) {
nearestMounted = node.return;
}
nextNode = node.return;
} while (nextNode);
} else {
while (node.return) {
node = node.return;
}
}
if (node.tag === HostRoot) {
return nearestMounted;
}
return null;
}
function getSuspenseInstanceFromFiber(fiber) {
if (fiber.tag === SuspenseComponent) {
var suspenseState = fiber.memoizedState;
if (suspenseState === null) {
var current2 = fiber.alternate;
if (current2 !== null) {
suspenseState = current2.memoizedState;
}
}
if (suspenseState !== null) {
return suspenseState.dehydrated;
}
}
return null;
}
function getContainerFromFiber(fiber) {
return fiber.tag === HostRoot ? fiber.stateNode.containerInfo : null;
}
function isFiberMounted(fiber) {
return getNearestMountedFiber(fiber) === fiber;
}
function isMounted(component) {
{
var owner = ReactCurrentOwner.current;
if (owner !== null && owner.tag === ClassComponent) {
var ownerFiber = owner;
var instance = ownerFiber.stateNode;
if (!instance._warnedAboutRefsInRender) {
error("%s is accessing isMounted inside its render() function. render() should be a pure function of props and state. It should never access something that requires stale data from the previous render, such as refs. Move this logic to componentDidMount and componentDidUpdate instead.", getComponentNameFromFiber(ownerFiber) || "A component");
}
instance._warnedAboutRefsInRender = true;
}
}
var fiber = get(component);
if (!fiber) {
return false;
}
return getNearestMountedFiber(fiber) === fiber;
}
function assertIsMounted(fiber) {
if (getNearestMountedFiber(fiber) !== fiber) {
throw new Error("Unable to find node on an unmounted component.");
}
}
function findCurrentFiberUsingSlowPath(fiber) {
var alternate = fiber.alternate;
if (!alternate) {
var nearestMounted = getNearestMountedFiber(fiber);
if (nearestMounted === null) {
throw new Error("Unable to find node on an unmounted component.");
}
if (nearestMounted !== fiber) {
return null;
}
return fiber;
}
var a2 = fiber;
var b2 = alternate;
while (true) {
var parentA = a2.return;
if (parentA === null) {
break;
}
var parentB = parentA.alternate;
if (parentB === null) {
var nextParent = parentA.return;
if (nextParent !== null) {
a2 = b2 = nextParent;
continue;
}
break;
}
if (parentA.child === parentB.child) {
var child = parentA.child;
while (child) {
if (child === a2) {
assertIsMounted(parentA);
return fiber;
}
if (child === b2) {
assertIsMounted(parentA);
return alternate;
}
child = child.sibling;
}
throw new Error("Unable to find node on an unmounted component.");
}
if (a2.return !== b2.return) {
a2 = parentA;
b2 = parentB;
} else {
var didFindChild = false;
var _child = parentA.child;
while (_child) {
if (_child === a2) {
didFindChild = true;
a2 = parentA;
b2 = parentB;
break;
}
if (_child === b2) {
didFindChild = true;
b2 = parentA;
a2 = parentB;
break;
}
_child = _child.sibling;
}
if (!didFindChild) {
_child = parentB.child;
while (_child) {
if (_child === a2) {
didFindChild = true;
a2 = parentB;
b2 = parentA;
break;
}
if (_child === b2) {
didFindChild = true;
b2 = parentB;
a2 = parentA;
break;
}
_child = _child.sibling;
}
if (!didFindChild) {
throw new Error("Child was not found in either parent set. This indicates a bug in React related to the return pointer. Please file an issue.");
}
}
}
if (a2.alternate !== b2) {
throw new Error("Return fibers should always be each others' alternates. This error is likely caused by a bug in React. Please file an issue.");
}
}
if (a2.tag !== HostRoot) {
throw new Error("Unable to find node on an unmounted component.");
}
if (a2.stateNode.current === a2) {
return fiber;
}
return alternate;
}
function findCurrentHostFiber(parent) {
var currentParent = findCurrentFiberUsingSlowPath(parent);
return currentParent !== null ? findCurrentHostFiberImpl(currentParent) : null;
}
function findCurrentHostFiberImpl(node) {
if (node.tag === HostComponent || node.tag === HostText) {
return node;
}
var child = node.child;
while (child !== null) {
var match = findCurrentHostFiberImpl(child);
if (match !== null) {
return match;
}
child = child.sibling;
}
return null;
}
function findCurrentHostFiberWithNoPortals(parent) {
var currentParent = findCurrentFiberUsingSlowPath(parent);
return currentParent !== null ? findCurrentHostFiberWithNoPortalsImpl(currentParent) : null;
}
function findCurrentHostFiberWithNoPortalsImpl(node) {
if (node.tag === HostComponent || node.tag === HostText) {
return node;
}
var child = node.child;
while (child !== null) {
if (child.tag !== HostPortal) {
var match = findCurrentHostFiberWithNoPortalsImpl(child);
if (match !== null) {
return match;
}
}
child = child.sibling;
}
return null;
}
var scheduleCallback = Scheduler.unstable_scheduleCallback;
var cancelCallback = Scheduler.unstable_cancelCallback;
var shouldYield = Scheduler.unstable_shouldYield;
var requestPaint = Scheduler.unstable_requestPaint;
var now = Scheduler.unstable_now;
var getCurrentPriorityLevel = Scheduler.unstable_getCurrentPriorityLevel;
var ImmediatePriority = Scheduler.unstable_ImmediatePriority;
var UserBlockingPriority = Scheduler.unstable_UserBlockingPriority;
var NormalPriority = Scheduler.unstable_NormalPriority;
var LowPriority = Scheduler.unstable_LowPriority;
var IdlePriority = Scheduler.unstable_IdlePriority;
var unstable_yieldValue = Scheduler.unstable_yieldValue;
var unstable_setDisableYieldValue = Scheduler.unstable_setDisableYieldValue;
var rendererID = null;
var injectedHook = null;
var injectedProfilingHooks = null;
var hasLoggedError = false;
var isDevToolsPresent = typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ !== "undefined";
function injectInternals(internals) {
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ === "undefined") {
return false;
}
var hook = __REACT_DEVTOOLS_GLOBAL_HOOK__;
if (hook.isDisabled) {
return true;
}
if (!hook.supportsFiber) {
{
error("The installed version of React DevTools is too old and will not work with the current version of React. Please update React DevTools. https://reactjs.org/link/react-devtools");
}
return true;
}
try {
if (enableSchedulingProfiler) {
internals = assign({}, internals, {
getLaneLabelMap,
injectProfilingHooks
});
}
rendererID = hook.inject(internals);
injectedHook = hook;
} catch (err) {
{
error("React instrumentation encountered an error: %s.", err);
}
}
if (hook.checkDCE) {
return true;
} else {
return false;
}
}
function onScheduleRoot(root2, children) {
{
if (injectedHook && typeof injectedHook.onScheduleFiberRoot === "function") {
try {
injectedHook.onScheduleFiberRoot(rendererID, root2, children);
} catch (err) {
if (!hasLoggedError) {
hasLoggedError = true;
error("React instrumentation encountered an error: %s", err);
}
}
}
}
}
function onCommitRoot(root2, eventPriority) {
if (injectedHook && typeof injectedHook.onCommitFiberRoot === "function") {
try {
var didError = (root2.current.flags & DidCapture) === DidCapture;
if (enableProfilerTimer) {
var schedulerPriority;
switch (eventPriority) {
case DiscreteEventPriority:
schedulerPriority = ImmediatePriority;
break;
case ContinuousEventPriority:
schedulerPriority = UserBlockingPriority;
break;
case DefaultEventPriority:
schedulerPriority = NormalPriority;
break;
case IdleEventPriority:
schedulerPriority = IdlePriority;
break;
default:
schedulerPriority = NormalPriority;
break;
}
injectedHook.onCommitFiberRoot(rendererID, root2, schedulerPriority, didError);
} else {
injectedHook.onCommitFiberRoot(rendererID, root2, void 0, didError);
}
} catch (err) {
{
if (!hasLoggedError) {
hasLoggedError = true;
error("React instrumentation encountered an error: %s", err);
}
}
}
}
}
function onPostCommitRoot(root2) {
if (injectedHook && typeof injectedHook.onPostCommitFiberRoot === "function") {
try {
injectedHook.onPostCommitFiberRoot(rendererID, root2);
} catch (err) {
{
if (!hasLoggedError) {
hasLoggedError = true;
error("React instrumentation encountered an error: %s", err);
}
}
}
}
}
function onCommitUnmount(fiber) {
if (injectedHook && typeof injectedHook.onCommitFiberUnmount === "function") {
try {
injectedHook.onCommitFiberUnmount(rendererID, fiber);
} catch (err) {
{
if (!hasLoggedError) {
hasLoggedError = true;
error("React instrumentation encountered an error: %s", err);
}
}
}
}
}
function setIsStrictModeForDevtools(newIsStrictMode) {
{
if (typeof unstable_yieldValue === "function") {
unstable_setDisableYieldValue(newIsStrictMode);
setSuppressWarning(newIsStrictMode);
}
if (injectedHook && typeof injectedHook.setStrictMode === "function") {
try {
injectedHook.setStrictMode(rendererID, newIsStrictMode);
} catch (err) {
{
if (!hasLoggedError) {
hasLoggedError = true;
error("React instrumentation encountered an error: %s", err);
}
}
}
}
}
}
function injectProfilingHooks(profilingHooks) {
injectedProfilingHooks = profilingHooks;
}
function getLaneLabelMap() {
{
var map = /* @__PURE__ */ new Map();
var lane = 1;
for (var index2 = 0; index2 < TotalLanes; index2++) {
var label = getLabelForLane(lane);
map.set(lane, label);
lane *= 2;
}
return map;
}
}
function markCommitStarted(lanes) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markCommitStarted === "function") {
injectedProfilingHooks.markCommitStarted(lanes);
}
}
}
function markCommitStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markCommitStopped === "function") {
injectedProfilingHooks.markCommitStopped();
}
}
}
function markComponentRenderStarted(fiber) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentRenderStarted === "function") {
injectedProfilingHooks.markComponentRenderStarted(fiber);
}
}
}
function markComponentRenderStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentRenderStopped === "function") {
injectedProfilingHooks.markComponentRenderStopped();
}
}
}
function markComponentPassiveEffectMountStarted(fiber) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentPassiveEffectMountStarted === "function") {
injectedProfilingHooks.markComponentPassiveEffectMountStarted(fiber);
}
}
}
function markComponentPassiveEffectMountStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentPassiveEffectMountStopped === "function") {
injectedProfilingHooks.markComponentPassiveEffectMountStopped();
}
}
}
function markComponentPassiveEffectUnmountStarted(fiber) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentPassiveEffectUnmountStarted === "function") {
injectedProfilingHooks.markComponentPassiveEffectUnmountStarted(fiber);
}
}
}
function markComponentPassiveEffectUnmountStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentPassiveEffectUnmountStopped === "function") {
injectedProfilingHooks.markComponentPassiveEffectUnmountStopped();
}
}
}
function markComponentLayoutEffectMountStarted(fiber) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentLayoutEffectMountStarted === "function") {
injectedProfilingHooks.markComponentLayoutEffectMountStarted(fiber);
}
}
}
function markComponentLayoutEffectMountStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentLayoutEffectMountStopped === "function") {
injectedProfilingHooks.markComponentLayoutEffectMountStopped();
}
}
}
function markComponentLayoutEffectUnmountStarted(fiber) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentLayoutEffectUnmountStarted === "function") {
injectedProfilingHooks.markComponentLayoutEffectUnmountStarted(fiber);
}
}
}
function markComponentLayoutEffectUnmountStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentLayoutEffectUnmountStopped === "function") {
injectedProfilingHooks.markComponentLayoutEffectUnmountStopped();
}
}
}
function markComponentErrored(fiber, thrownValue, lanes) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentErrored === "function") {
injectedProfilingHooks.markComponentErrored(fiber, thrownValue, lanes);
}
}
}
function markComponentSuspended(fiber, wakeable, lanes) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markComponentSuspended === "function") {
injectedProfilingHooks.markComponentSuspended(fiber, wakeable, lanes);
}
}
}
function markLayoutEffectsStarted(lanes) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markLayoutEffectsStarted === "function") {
injectedProfilingHooks.markLayoutEffectsStarted(lanes);
}
}
}
function markLayoutEffectsStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markLayoutEffectsStopped === "function") {
injectedProfilingHooks.markLayoutEffectsStopped();
}
}
}
function markPassiveEffectsStarted(lanes) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markPassiveEffectsStarted === "function") {
injectedProfilingHooks.markPassiveEffectsStarted(lanes);
}
}
}
function markPassiveEffectsStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markPassiveEffectsStopped === "function") {
injectedProfilingHooks.markPassiveEffectsStopped();
}
}
}
function markRenderStarted(lanes) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markRenderStarted === "function") {
injectedProfilingHooks.markRenderStarted(lanes);
}
}
}
function markRenderYielded() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markRenderYielded === "function") {
injectedProfilingHooks.markRenderYielded();
}
}
}
function markRenderStopped() {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markRenderStopped === "function") {
injectedProfilingHooks.markRenderStopped();
}
}
}
function markRenderScheduled(lane) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markRenderScheduled === "function") {
injectedProfilingHooks.markRenderScheduled(lane);
}
}
}
function markForceUpdateScheduled(fiber, lane) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markForceUpdateScheduled === "function") {
injectedProfilingHooks.markForceUpdateScheduled(fiber, lane);
}
}
}
function markStateUpdateScheduled(fiber, lane) {
{
if (injectedProfilingHooks !== null && typeof injectedProfilingHooks.markStateUpdateScheduled === "function") {
injectedProfilingHooks.markStateUpdateScheduled(fiber, lane);
}
}
}
var NoMode = (
/* */
0
);
var ConcurrentMode = (
/* */
1
);
var ProfileMode = (
/* */
2
);
var StrictLegacyMode = (
/* */
8
);
var StrictEffectsMode = (
/* */
16
);
var clz32 = Math.clz32 ? Math.clz32 : clz32Fallback;
var log = Math.log;
var LN2 = Math.LN2;
function clz32Fallback(x2) {
var asUint = x2 >>> 0;
if (asUint === 0) {
return 32;
}
return 31 - (log(asUint) / LN2 | 0) | 0;
}
var TotalLanes = 31;
var NoLanes = (
/* */
0
);
var NoLane = (
/* */
0
);
var SyncLane = (
/* */
1
);
var InputContinuousHydrationLane = (
/* */
2
);
var InputContinuousLane = (
/* */
4
);
var DefaultHydrationLane = (
/* */
8
);
var DefaultLane = (
/* */
16
);
var TransitionHydrationLane = (
/* */
32
);
var TransitionLanes = (
/* */
4194240
);
var TransitionLane1 = (
/* */
64
);
var TransitionLane2 = (
/* */
128
);
var TransitionLane3 = (
/* */
256
);
var TransitionLane4 = (
/* */
512
);
var TransitionLane5 = (
/* */
1024
);
var TransitionLane6 = (
/* */
2048
);
var TransitionLane7 = (
/* */
4096
);
var TransitionLane8 = (
/* */
8192
);
var TransitionLane9 = (
/* */
16384
);
var TransitionLane10 = (
/* */
32768
);
var TransitionLane11 = (
/* */
65536
);
var TransitionLane12 = (
/* */
131072
);
var TransitionLane13 = (
/* */
262144
);
var TransitionLane14 = (
/* */
524288
);
var TransitionLane15 = (
/* */
1048576
);
var TransitionLane16 = (
/* */
2097152
);
var RetryLanes = (
/* */
130023424
);
var RetryLane1 = (
/* */
4194304
);
var RetryLane2 = (
/* */
8388608
);
var RetryLane3 = (
/* */
16777216
);
var RetryLane4 = (
/* */
33554432
);
var RetryLane5 = (
/* */
67108864
);
var SomeRetryLane = RetryLane1;
var SelectiveHydrationLane = (
/* */
134217728
);
var NonIdleLanes = (
/* */
268435455
);
var IdleHydrationLane = (
/* */
268435456
);
var IdleLane = (
/* */
536870912
);
var OffscreenLane = (
/* */
1073741824
);
function getLabelForLane(lane) {
{
if (lane & SyncLane) {
return "Sync";
}
if (lane & InputContinuousHydrationLane) {
return "InputContinuousHydration";
}
if (lane & InputContinuousLane) {
return "InputContinuous";
}
if (lane & DefaultHydrationLane) {
return "DefaultHydration";
}
if (lane & DefaultLane) {
return "Default";
}
if (lane & TransitionHydrationLane) {
return "TransitionHydration";
}
if (lane & TransitionLanes) {
return "Transition";
}
if (lane & RetryLanes) {
return "Retry";
}
if (lane & SelectiveHydrationLane) {
return "SelectiveHydration";
}
if (lane & IdleHydrationLane) {
return "IdleHydration";
}
if (lane & IdleLane) {
return "Idle";
}
if (lane & OffscreenLane) {
return "Offscreen";
}
}
}
var NoTimestamp = -1;
var nextTransitionLane = TransitionLane1;
var nextRetryLane = RetryLane1;
function getHighestPriorityLanes(lanes) {
switch (getHighestPriorityLane(lanes)) {
case SyncLane:
return SyncLane;
case InputContinuousHydrationLane:
return InputContinuousHydrationLane;
case InputContinuousLane:
return InputContinuousLane;
case DefaultHydrationLane:
return DefaultHydrationLane;
case DefaultLane:
return DefaultLane;
case TransitionHydrationLane:
return TransitionHydrationLane;
case TransitionLane1:
case TransitionLane2:
case TransitionLane3:
case TransitionLane4:
case TransitionLane5:
case TransitionLane6:
case TransitionLane7:
case TransitionLane8:
case TransitionLane9:
case TransitionLane10:
case TransitionLane11:
case TransitionLane12:
case TransitionLane13:
case TransitionLane14:
case TransitionLane15:
case TransitionLane16:
return lanes & TransitionLanes;
case RetryLane1:
case RetryLane2:
case RetryLane3:
case RetryLane4:
case RetryLane5:
return lanes & RetryLanes;
case SelectiveHydrationLane:
return SelectiveHydrationLane;
case IdleHydrationLane:
return IdleHydrationLane;
case IdleLane:
return IdleLane;
case OffscreenLane:
return OffscreenLane;
default:
{
error("Should have found matching lanes. This is a bug in React.");
}
return lanes;
}
}
function getNextLanes(root2, wipLanes) {
var pendingLanes = root2.pendingLanes;
if (pendingLanes === NoLanes) {
return NoLanes;
}
var nextLanes = NoLanes;
var suspendedLanes = root2.suspendedLanes;
var pingedLanes = root2.pingedLanes;
var nonIdlePendingLanes = pendingLanes & NonIdleLanes;
if (nonIdlePendingLanes !== NoLanes) {
var nonIdleUnblockedLanes = nonIdlePendingLanes & ~suspendedLanes;
if (nonIdleUnblockedLanes !== NoLanes) {
nextLanes = getHighestPriorityLanes(nonIdleUnblockedLanes);
} else {
var nonIdlePingedLanes = nonIdlePendingLanes & pingedLanes;
if (nonIdlePingedLanes !== NoLanes) {
nextLanes = getHighestPriorityLanes(nonIdlePingedLanes);
}
}
} else {
var unblockedLanes = pendingLanes & ~suspendedLanes;
if (unblockedLanes !== NoLanes) {
nextLanes = getHighestPriorityLanes(unblockedLanes);
} else {
if (pingedLanes !== NoLanes) {
nextLanes = getHighestPriorityLanes(pingedLanes);
}
}
}
if (nextLanes === NoLanes) {
return NoLanes;
}
if (wipLanes !== NoLanes && wipLanes !== nextLanes && // If we already suspended with a delay, then interrupting is fine. Don't
// bother waiting until the root is complete.
(wipLanes & suspendedLanes) === NoLanes) {
var nextLane = getHighestPriorityLane(nextLanes);
var wipLane = getHighestPriorityLane(wipLanes);
if (
// Tests whether the next lane is equal or lower priority than the wip
// one. This works because the bits decrease in priority as you go left.
nextLane >= wipLane || // Default priority updates should not interrupt transition updates. The
// only difference between default updates and transition updates is that
// default updates do not support refresh transitions.
nextLane === DefaultLane && (wipLane & TransitionLanes) !== NoLanes
) {
return wipLanes;
}
}
if ((nextLanes & InputContinuousLane) !== NoLanes) {
nextLanes |= pendingLanes & DefaultLane;
}
var entangledLanes = root2.entangledLanes;
if (entangledLanes !== NoLanes) {
var entanglements = root2.entanglements;
var lanes = nextLanes & entangledLanes;
while (lanes > 0) {
var index2 = pickArbitraryLaneIndex(lanes);
var lane = 1 << index2;
nextLanes |= entanglements[index2];
lanes &= ~lane;
}
}
return nextLanes;
}
function getMostRecentEventTime(root2, lanes) {
var eventTimes = root2.eventTimes;
var mostRecentEventTime = NoTimestamp;
while (lanes > 0) {
var index2 = pickArbitraryLaneIndex(lanes);
var lane = 1 << index2;
var eventTime = eventTimes[index2];
if (eventTime > mostRecentEventTime) {
mostRecentEventTime = eventTime;
}
lanes &= ~lane;
}
return mostRecentEventTime;
}
function computeExpirationTime(lane, currentTime) {
switch (lane) {
case SyncLane:
case InputContinuousHydrationLane:
case InputContinuousLane:
return currentTime + 250;
case DefaultHydrationLane:
case DefaultLane:
case TransitionHydrationLane:
case TransitionLane1:
case TransitionLane2:
case TransitionLane3:
case TransitionLane4:
case TransitionLane5:
case TransitionLane6:
case TransitionLane7:
case TransitionLane8:
case TransitionLane9:
case TransitionLane10:
case TransitionLane11:
case TransitionLane12:
case TransitionLane13:
case TransitionLane14:
case TransitionLane15:
case TransitionLane16:
return currentTime + 5e3;
case RetryLane1:
case RetryLane2:
case RetryLane3:
case RetryLane4:
case RetryLane5:
return NoTimestamp;
case SelectiveHydrationLane:
case IdleHydrationLane:
case IdleLane:
case OffscreenLane:
return NoTimestamp;
default:
{
error("Should have found matching lanes. This is a bug in React.");
}
return NoTimestamp;
}
}
function markStarvedLanesAsExpired(root2, currentTime) {
var pendingLanes = root2.pendingLanes;
var suspendedLanes = root2.suspendedLanes;
var pingedLanes = root2.pingedLanes;
var expirationTimes = root2.expirationTimes;
var lanes = pendingLanes;
while (lanes > 0) {
var index2 = pickArbitraryLaneIndex(lanes);
var lane = 1 << index2;
var expirationTime = expirationTimes[index2];
if (expirationTime === NoTimestamp) {
if ((lane & suspendedLanes) === NoLanes || (lane & pingedLanes) !== NoLanes) {
expirationTimes[index2] = computeExpirationTime(lane, currentTime);
}
} else if (expirationTime <= currentTime) {
root2.expiredLanes |= lane;
}
lanes &= ~lane;
}
}
function getHighestPriorityPendingLanes(root2) {
return getHighestPriorityLanes(root2.pendingLanes);
}
function getLanesToRetrySynchronouslyOnError(root2) {
var everythingButOffscreen = root2.pendingLanes & ~OffscreenLane;
if (everythingButOffscreen !== NoLanes) {
return everythingButOffscreen;
}
if (everythingButOffscreen & OffscreenLane) {
return OffscreenLane;
}
return NoLanes;
}
function includesSyncLane(lanes) {
return (lanes & SyncLane) !== NoLanes;
}
function includesNonIdleWork(lanes) {
return (lanes & NonIdleLanes) !== NoLanes;
}
function includesOnlyRetries(lanes) {
return (lanes & RetryLanes) === lanes;
}
function includesOnlyNonUrgentLanes(lanes) {
var UrgentLanes = SyncLane | InputContinuousLane | DefaultLane;
return (lanes & UrgentLanes) === NoLanes;
}
function includesOnlyTransitions(lanes) {
return (lanes & TransitionLanes) === lanes;
}
function includesBlockingLane(root2, lanes) {
var SyncDefaultLanes = InputContinuousHydrationLane | InputContinuousLane | DefaultHydrationLane | DefaultLane;
return (lanes & SyncDefaultLanes) !== NoLanes;
}
function includesExpiredLane(root2, lanes) {
return (lanes & root2.expiredLanes) !== NoLanes;
}
function isTransitionLane(lane) {
return (lane & TransitionLanes) !== NoLanes;
}
function claimNextTransitionLane() {
var lane = nextTransitionLane;
nextTransitionLane <<= 1;
if ((nextTransitionLane & TransitionLanes) === NoLanes) {
nextTransitionLane = TransitionLane1;
}
return lane;
}
function claimNextRetryLane() {
var lane = nextRetryLane;
nextRetryLane <<= 1;
if ((nextRetryLane & RetryLanes) === NoLanes) {
nextRetryLane = RetryLane1;
}
return lane;
}
function getHighestPriorityLane(lanes) {
return lanes & -lanes;
}
function pickArbitraryLane(lanes) {
return getHighestPriorityLane(lanes);
}
function pickArbitraryLaneIndex(lanes) {
return 31 - clz32(lanes);
}
function laneToIndex(lane) {
return pickArbitraryLaneIndex(lane);
}
function includesSomeLane(a2, b2) {
return (a2 & b2) !== NoLanes;
}
function isSubsetOfLanes(set2, subset) {
return (set2 & subset) === subset;
}
function mergeLanes(a2, b2) {
return a2 | b2;
}
function removeLanes(set2, subset) {
return set2 & ~subset;
}
function intersectLanes(a2, b2) {
return a2 & b2;
}
function laneToLanes(lane) {
return lane;
}
function higherPriorityLane(a2, b2) {
return a2 !== NoLane && a2 < b2 ? a2 : b2;
}
function createLaneMap(initial) {
var laneMap = [];
for (var i = 0; i < TotalLanes; i++) {
laneMap.push(initial);
}
return laneMap;
}
function markRootUpdated(root2, updateLane, eventTime) {
root2.pendingLanes |= updateLane;
if (updateLane !== IdleLane) {
root2.suspendedLanes = NoLanes;
root2.pingedLanes = NoLanes;
}
var eventTimes = root2.eventTimes;
var index2 = laneToIndex(updateLane);
eventTimes[index2] = eventTime;
}
function markRootSuspended(root2, suspendedLanes) {
root2.suspendedLanes |= suspendedLanes;
root2.pingedLanes &= ~suspendedLanes;
var expirationTimes = root2.expirationTimes;
var lanes = suspendedLanes;
while (lanes > 0) {
var index2 = pickArbitraryLaneIndex(lanes);
var lane = 1 << index2;
expirationTimes[index2] = NoTimestamp;
lanes &= ~lane;
}
}
function markRootPinged(root2, pingedLanes, eventTime) {
root2.pingedLanes |= root2.suspendedLanes & pingedLanes;
}
function markRootFinished(root2, remainingLanes) {
var noLongerPendingLanes = root2.pendingLanes & ~remainingLanes;
root2.pendingLanes = remainingLanes;
root2.suspendedLanes = NoLanes;
root2.pingedLanes = NoLanes;
root2.expiredLanes &= remainingLanes;
root2.mutableReadLanes &= remainingLanes;
root2.entangledLanes &= remainingLanes;
var entanglements = root2.entanglements;
var eventTimes = root2.eventTimes;
var expirationTimes = root2.expirationTimes;
var lanes = noLongerPendingLanes;
while (lanes > 0) {
var index2 = pickArbitraryLaneIndex(lanes);
var lane = 1 << index2;
entanglements[index2] = NoLanes;
eventTimes[index2] = NoTimestamp;
expirationTimes[index2] = NoTimestamp;
lanes &= ~lane;
}
}
function markRootEntangled(root2, entangledLanes) {
var rootEntangledLanes = root2.entangledLanes |= entangledLanes;
var entanglements = root2.entanglements;
var lanes = rootEntangledLanes;
while (lanes) {
var index2 = pickArbitraryLaneIndex(lanes);
var lane = 1 << index2;
if (
// Is this one of the newly entangled lanes?
lane & entangledLanes | // Is this lane transitively entangled with the newly entangled lanes?
entanglements[index2] & entangledLanes
) {
entanglements[index2] |= entangledLanes;
}
lanes &= ~lane;
}
}
function getBumpedLaneForHydration(root2, renderLanes2) {
var renderLane = getHighestPriorityLane(renderLanes2);
var lane;
switch (renderLane) {
case InputContinuousLane:
lane = InputContinuousHydrationLane;
break;
case DefaultLane:
lane = DefaultHydrationLane;
break;
case TransitionLane1:
case TransitionLane2:
case TransitionLane3:
case TransitionLane4:
case TransitionLane5:
case TransitionLane6:
case TransitionLane7:
case TransitionLane8:
case TransitionLane9:
case TransitionLane10:
case TransitionLane11:
case TransitionLane12:
case TransitionLane13:
case TransitionLane14:
case TransitionLane15:
case TransitionLane16:
case RetryLane1:
case RetryLane2:
case RetryLane3:
case RetryLane4:
case RetryLane5:
lane = TransitionHydrationLane;
break;
case IdleLane:
lane = IdleHydrationLane;
break;
default:
lane = NoLane;
break;
}
if ((lane & (root2.suspendedLanes | renderLanes2)) !== NoLane) {
return NoLane;
}
return lane;
}
function addFiberToLanesMap(root2, fiber, lanes) {
if (!isDevToolsPresent) {
return;
}
var pendingUpdatersLaneMap = root2.pendingUpdatersLaneMap;
while (lanes > 0) {
var index2 = laneToIndex(lanes);
var lane = 1 << index2;
var updaters = pendingUpdatersLaneMap[index2];
updaters.add(fiber);
lanes &= ~lane;
}
}
function movePendingFibersToMemoized(root2, lanes) {
if (!isDevToolsPresent) {
return;
}
var pendingUpdatersLaneMap = root2.pendingUpdatersLaneMap;
var memoizedUpdaters = root2.memoizedUpdaters;
while (lanes > 0) {
var index2 = laneToIndex(lanes);
var lane = 1 << index2;
var updaters = pendingUpdatersLaneMap[index2];
if (updaters.size > 0) {
updaters.forEach(function(fiber) {
var alternate = fiber.alternate;
if (alternate === null || !memoizedUpdaters.has(alternate)) {
memoizedUpdaters.add(fiber);
}
});
updaters.clear();
}
lanes &= ~lane;
}
}
function getTransitionsForLanes(root2, lanes) {
{
return null;
}
}
var DiscreteEventPriority = SyncLane;
var ContinuousEventPriority = InputContinuousLane;
var DefaultEventPriority = DefaultLane;
var IdleEventPriority = IdleLane;
var currentUpdatePriority = NoLane;
function getCurrentUpdatePriority() {
return currentUpdatePriority;
}
function setCurrentUpdatePriority(newPriority) {
currentUpdatePriority = newPriority;
}
function runWithPriority(priority, fn) {
var previousPriority = currentUpdatePriority;
try {
currentUpdatePriority = priority;
return fn();
} finally {
currentUpdatePriority = previousPriority;
}
}
function higherEventPriority(a2, b2) {
return a2 !== 0 && a2 < b2 ? a2 : b2;
}
function lowerEventPriority(a2, b2) {
return a2 === 0 || a2 > b2 ? a2 : b2;
}
function isHigherEventPriority(a2, b2) {
return a2 !== 0 && a2 < b2;
}
function lanesToEventPriority(lanes) {
var lane = getHighestPriorityLane(lanes);
if (!isHigherEventPriority(DiscreteEventPriority, lane)) {
return DiscreteEventPriority;
}
if (!isHigherEventPriority(ContinuousEventPriority, lane)) {
return ContinuousEventPriority;
}
if (includesNonIdleWork(lane)) {
return DefaultEventPriority;
}
return IdleEventPriority;
}
function isRootDehydrated(root2) {
var currentState = root2.current.memoizedState;
return currentState.isDehydrated;
}
var _attemptSynchronousHydration;
function setAttemptSynchronousHydration(fn) {
_attemptSynchronousHydration = fn;
}
function attemptSynchronousHydration(fiber) {
_attemptSynchronousHydration(fiber);
}
var attemptContinuousHydration;
function setAttemptContinuousHydration(fn) {
attemptContinuousHydration = fn;
}
var attemptHydrationAtCurrentPriority;
function setAttemptHydrationAtCurrentPriority(fn) {
attemptHydrationAtCurrentPriority = fn;
}
var getCurrentUpdatePriority$1;
function setGetCurrentUpdatePriority(fn) {
getCurrentUpdatePriority$1 = fn;
}
var attemptHydrationAtPriority;
function setAttemptHydrationAtPriority(fn) {
attemptHydrationAtPriority = fn;
}
var hasScheduledReplayAttempt = false;
var queuedDiscreteEvents = [];
var queuedFocus = null;
var queuedDrag = null;
var queuedMouse = null;
var queuedPointers = /* @__PURE__ */ new Map();
var queuedPointerCaptures = /* @__PURE__ */ new Map();
var queuedExplicitHydrationTargets = [];
var discreteReplayableEvents = [
"mousedown",
"mouseup",
"touchcancel",
"touchend",
"touchstart",
"auxclick",
"dblclick",
"pointercancel",
"pointerdown",
"pointerup",
"dragend",
"dragstart",
"drop",
"compositionend",
"compositionstart",
"keydown",
"keypress",
"keyup",
"input",
"textInput",
// Intentionally camelCase
"copy",
"cut",
"paste",
"click",
"change",
"contextmenu",
"reset",
"submit"
];
function isDiscreteEventThatRequiresHydration(eventType) {
return discreteReplayableEvents.indexOf(eventType) > -1;
}
function createQueuedReplayableEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
return {
blockedOn,
domEventName,
eventSystemFlags,
nativeEvent,
targetContainers: [targetContainer]
};
}
function clearIfContinuousEvent(domEventName, nativeEvent) {
switch (domEventName) {
case "focusin":
case "focusout":
queuedFocus = null;
break;
case "dragenter":
case "dragleave":
queuedDrag = null;
break;
case "mouseover":
case "mouseout":
queuedMouse = null;
break;
case "pointerover":
case "pointerout": {
var pointerId = nativeEvent.pointerId;
queuedPointers.delete(pointerId);
break;
}
case "gotpointercapture":
case "lostpointercapture": {
var _pointerId = nativeEvent.pointerId;
queuedPointerCaptures.delete(_pointerId);
break;
}
}
}
function accumulateOrCreateContinuousQueuedReplayableEvent(existingQueuedEvent, blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
if (existingQueuedEvent === null || existingQueuedEvent.nativeEvent !== nativeEvent) {
var queuedEvent = createQueuedReplayableEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent);
if (blockedOn !== null) {
var _fiber2 = getInstanceFromNode(blockedOn);
if (_fiber2 !== null) {
attemptContinuousHydration(_fiber2);
}
}
return queuedEvent;
}
existingQueuedEvent.eventSystemFlags |= eventSystemFlags;
var targetContainers = existingQueuedEvent.targetContainers;
if (targetContainer !== null && targetContainers.indexOf(targetContainer) === -1) {
targetContainers.push(targetContainer);
}
return existingQueuedEvent;
}
function queueIfContinuousEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent) {
switch (domEventName) {
case "focusin": {
var focusEvent = nativeEvent;
queuedFocus = accumulateOrCreateContinuousQueuedReplayableEvent(queuedFocus, blockedOn, domEventName, eventSystemFlags, targetContainer, focusEvent);
return true;
}
case "dragenter": {
var dragEvent = nativeEvent;
queuedDrag = accumulateOrCreateContinuousQueuedReplayableEvent(queuedDrag, blockedOn, domEventName, eventSystemFlags, targetContainer, dragEvent);
return true;
}
case "mouseover": {
var mouseEvent = nativeEvent;
queuedMouse = accumulateOrCreateContinuousQueuedReplayableEvent(queuedMouse, blockedOn, domEventName, eventSystemFlags, targetContainer, mouseEvent);
return true;
}
case "pointerover": {
var pointerEvent = nativeEvent;
var pointerId = pointerEvent.pointerId;
queuedPointers.set(pointerId, accumulateOrCreateContinuousQueuedReplayableEvent(queuedPointers.get(pointerId) || null, blockedOn, domEventName, eventSystemFlags, targetContainer, pointerEvent));
return true;
}
case "gotpointercapture": {
var _pointerEvent = nativeEvent;
var _pointerId2 = _pointerEvent.pointerId;
queuedPointerCaptures.set(_pointerId2, accumulateOrCreateContinuousQueuedReplayableEvent(queuedPointerCaptures.get(_pointerId2) || null, blockedOn, domEventName, eventSystemFlags, targetContainer, _pointerEvent));
return true;
}
}
return false;
}
function attemptExplicitHydrationTarget(queuedTarget) {
var targetInst = getClosestInstanceFromNode(queuedTarget.target);
if (targetInst !== null) {
var nearestMounted = getNearestMountedFiber(targetInst);
if (nearestMounted !== null) {
var tag = nearestMounted.tag;
if (tag === SuspenseComponent) {
var instance = getSuspenseInstanceFromFiber(nearestMounted);
if (instance !== null) {
queuedTarget.blockedOn = instance;
attemptHydrationAtPriority(queuedTarget.priority, function() {
attemptHydrationAtCurrentPriority(nearestMounted);
});
return;
}
} else if (tag === HostRoot) {
var root2 = nearestMounted.stateNode;
if (isRootDehydrated(root2)) {
queuedTarget.blockedOn = getContainerFromFiber(nearestMounted);
return;
}
}
}
}
queuedTarget.blockedOn = null;
}
function queueExplicitHydrationTarget(target) {
var updatePriority = getCurrentUpdatePriority$1();
var queuedTarget = {
blockedOn: null,
target,
priority: updatePriority
};
var i = 0;
for (; i < queuedExplicitHydrationTargets.length; i++) {
if (!isHigherEventPriority(updatePriority, queuedExplicitHydrationTargets[i].priority)) {
break;
}
}
queuedExplicitHydrationTargets.splice(i, 0, queuedTarget);
if (i === 0) {
attemptExplicitHydrationTarget(queuedTarget);
}
}
function attemptReplayContinuousQueuedEvent(queuedEvent) {
if (queuedEvent.blockedOn !== null) {
return false;
}
var targetContainers = queuedEvent.targetContainers;
while (targetContainers.length > 0) {
var targetContainer = targetContainers[0];
var nextBlockedOn = findInstanceBlockingEvent(queuedEvent.domEventName, queuedEvent.eventSystemFlags, targetContainer, queuedEvent.nativeEvent);
if (nextBlockedOn === null) {
{
var nativeEvent = queuedEvent.nativeEvent;
var nativeEventClone = new nativeEvent.constructor(nativeEvent.type, nativeEvent);
setReplayingEvent(nativeEventClone);
nativeEvent.target.dispatchEvent(nativeEventClone);
resetReplayingEvent();
}
} else {
var _fiber3 = getInstanceFromNode(nextBlockedOn);
if (_fiber3 !== null) {
attemptContinuousHydration(_fiber3);
}
queuedEvent.blockedOn = nextBlockedOn;
return false;
}
targetContainers.shift();
}
return true;
}
function attemptReplayContinuousQueuedEventInMap(queuedEvent, key, map) {
if (attemptReplayContinuousQueuedEvent(queuedEvent)) {
map.delete(key);
}
}
function replayUnblockedEvents() {
hasScheduledReplayAttempt = false;
if (queuedFocus !== null && attemptReplayContinuousQueuedEvent(queuedFocus)) {
queuedFocus = null;
}
if (queuedDrag !== null && attemptReplayContinuousQueuedEvent(queuedDrag)) {
queuedDrag = null;
}
if (queuedMouse !== null && attemptReplayContinuousQueuedEvent(queuedMouse)) {
queuedMouse = null;
}
queuedPointers.forEach(attemptReplayContinuousQueuedEventInMap);
queuedPointerCaptures.forEach(attemptReplayContinuousQueuedEventInMap);
}
function scheduleCallbackIfUnblocked(queuedEvent, unblocked) {
if (queuedEvent.blockedOn === unblocked) {
queuedEvent.blockedOn = null;
if (!hasScheduledReplayAttempt) {
hasScheduledReplayAttempt = true;
Scheduler.unstable_scheduleCallback(Scheduler.unstable_NormalPriority, replayUnblockedEvents);
}
}
}
function retryIfBlockedOn(unblocked) {
if (queuedDiscreteEvents.length > 0) {
scheduleCallbackIfUnblocked(queuedDiscreteEvents[0], unblocked);
for (var i = 1; i < queuedDiscreteEvents.length; i++) {
var queuedEvent = queuedDiscreteEvents[i];
if (queuedEvent.blockedOn === unblocked) {
queuedEvent.blockedOn = null;
}
}
}
if (queuedFocus !== null) {
scheduleCallbackIfUnblocked(queuedFocus, unblocked);
}
if (queuedDrag !== null) {
scheduleCallbackIfUnblocked(queuedDrag, unblocked);
}
if (queuedMouse !== null) {
scheduleCallbackIfUnblocked(queuedMouse, unblocked);
}
var unblock = function(queuedEvent2) {
return scheduleCallbackIfUnblocked(queuedEvent2, unblocked);
};
queuedPointers.forEach(unblock);
queuedPointerCaptures.forEach(unblock);
for (var _i = 0; _i < queuedExplicitHydrationTargets.length; _i++) {
var queuedTarget = queuedExplicitHydrationTargets[_i];
if (queuedTarget.blockedOn === unblocked) {
queuedTarget.blockedOn = null;
}
}
while (queuedExplicitHydrationTargets.length > 0) {
var nextExplicitTarget = queuedExplicitHydrationTargets[0];
if (nextExplicitTarget.blockedOn !== null) {
break;
} else {
attemptExplicitHydrationTarget(nextExplicitTarget);
if (nextExplicitTarget.blockedOn === null) {
queuedExplicitHydrationTargets.shift();
}
}
}
}
var ReactCurrentBatchConfig = ReactSharedInternals.ReactCurrentBatchConfig;
var _enabled = true;
function setEnabled(enabled) {
_enabled = !!enabled;
}
function isEnabled() {
return _enabled;
}
function createEventListenerWrapperWithPriority(targetContainer, domEventName, eventSystemFlags) {
var eventPriority = getEventPriority(domEventName);
var listenerWrapper;
switch (eventPriority) {
case DiscreteEventPriority:
listenerWrapper = dispatchDiscreteEvent;
break;
case ContinuousEventPriority:
listenerWrapper = dispatchContinuousEvent;
break;
case DefaultEventPriority:
default:
listenerWrapper = dispatchEvent;
break;
}
return listenerWrapper.bind(null, domEventName, eventSystemFlags, targetContainer);
}
function dispatchDiscreteEvent(domEventName, eventSystemFlags, container, nativeEvent) {
var previousPriority = getCurrentUpdatePriority();
var prevTransition = ReactCurrentBatchConfig.transition;
ReactCurrentBatchConfig.transition = null;
try {
setCurrentUpdatePriority(DiscreteEventPriority);
dispatchEvent(domEventName, eventSystemFlags, container, nativeEvent);
} finally {
setCurrentUpdatePriority(previousPriority);
ReactCurrentBatchConfig.transition = prevTransition;
}
}
function dispatchContinuousEvent(domEventName, eventSystemFlags, container, nativeEvent) {
var previousPriority = getCurrentUpdatePriority();
var prevTransition = ReactCurrentBatchConfig.transition;
ReactCurrentBatchConfig.transition = null;
try {
setCurrentUpdatePriority(ContinuousEventPriority);
dispatchEvent(domEventName, eventSystemFlags, container, nativeEvent);
} finally {
setCurrentUpdatePriority(previousPriority);
ReactCurrentBatchConfig.transition = prevTransition;
}
}
function dispatchEvent(domEventName, eventSystemFlags, targetContainer, nativeEvent) {
if (!_enabled) {
return;
}
{
dispatchEventWithEnableCapturePhaseSelectiveHydrationWithoutDiscreteEventReplay(domEventName, eventSystemFlags, targetContainer, nativeEvent);
}
}
function dispatchEventWithEnableCapturePhaseSelectiveHydrationWithoutDiscreteEventReplay(domEventName, eventSystemFlags, targetContainer, nativeEvent) {
var blockedOn = findInstanceBlockingEvent(domEventName, eventSystemFlags, targetContainer, nativeEvent);
if (blockedOn === null) {
dispatchEventForPluginEventSystem(domEventName, eventSystemFlags, nativeEvent, return_targetInst, targetContainer);
clearIfContinuousEvent(domEventName, nativeEvent);
return;
}
if (queueIfContinuousEvent(blockedOn, domEventName, eventSystemFlags, targetContainer, nativeEvent)) {
nativeEvent.stopPropagation();
return;
}
clearIfContinuousEvent(domEventName, nativeEvent);
if (eventSystemFlags & IS_CAPTURE_PHASE && isDiscreteEventThatRequiresHydration(domEventName)) {
while (blockedOn !== null) {
var fiber = getInstanceFromNode(blockedOn);
if (fiber !== null) {
attemptSynchronousHydration(fiber);
}
var nextBlockedOn = findInstanceBlockingEvent(domEventName, eventSystemFlags, targetContainer, nativeEvent);
if (nextBlockedOn === null) {
dispatchEventForPluginEventSystem(domEventName, eventSystemFlags, nativeEvent, return_targetInst, targetContainer);
}
if (nextBlockedOn === blockedOn) {
break;
}
blockedOn = nextBlockedOn;
}
if (blockedOn !== null) {
nativeEvent.stopPropagation();
}
return;
}
dispatchEventForPluginEventSystem(domEventName, eventSystemFlags, nativeEvent, null, targetContainer);
}
var return_targetInst = null;
function findInstanceBlockingEvent(domEventName, eventSystemFlags, targetContainer, nativeEvent) {
return_targetInst = null;
var nativeEventTarget = getEventTarget(nativeEvent);
var targetInst = getClosestInstanceFromNode(nativeEventTarget);
if (targetInst !== null) {
var nearestMounted = getNearestMountedFiber(targetInst);
if (nearestMounted === null) {
targetInst = null;
} else {
var tag = nearestMounted.tag;
if (tag === SuspenseComponent) {
var instance = getSuspenseInstanceFromFiber(nearestMounted);
if (instance !== null) {
return instance;
}
targetInst = null;
} else if (tag === HostRoot) {
var root2 = nearestMounted.stateNode;
if (isRootDehydrated(root2)) {
return getContainerFromFiber(nearestMounted);
}
targetInst = null;
} else if (nearestMounted !== targetInst) {
targetInst = null;
}
}
}
return_targetInst = targetInst;
return null;
}
function getEventPriority(domEventName) {
switch (domEventName) {
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 "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 DiscreteEventPriority;
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 "toggle":
case "touchmove":
case "wheel":
case "mouseenter":
case "mouseleave":
case "pointerenter":
case "pointerleave":
return ContinuousEventPriority;
case "message": {
var schedulerPriority = getCurrentPriorityLevel();
switch (schedulerPriority) {
case ImmediatePriority:
return DiscreteEventPriority;
case UserBlockingPriority:
return ContinuousEventPriority;
case NormalPriority:
case LowPriority:
return DefaultEventPriority;
case IdlePriority:
return IdleEventPriority;
default:
return DefaultEventPriority;
}
}
default:
return DefaultEventPriority;
}
}
function addEventBubbleListener(target, eventType, listener) {
target.addEventListener(eventType, listener, false);
return listener;
}
function addEventCaptureListener(target, eventType, listener) {
target.addEventListener(eventType, listener, true);
return listener;
}
function addEventCaptureListenerWithPassiveFlag(target, eventType, listener, passive) {
target.addEventListener(eventType, listener, {
capture: true,
passive
});
return listener;
}
function addEventBubbleListenerWithPassiveFlag(target, eventType, listener, passive) {
target.addEventListener(eventType, listener, {
passive
});
return listener;
}
var root = null;
var startText = null;
var fallbackText = null;
function initialize(nativeEventTarget) {
root = nativeEventTarget;
startText = getText();
return true;
}
function reset() {
root = null;
startText = null;
fallbackText = null;
}
function getData() {
if (fallbackText) {
return fallbackText;
}
var start;
var startValue = startText;
var startLength = startValue.length;
var end;
var endValue = getText();
var endLength = endValue.length;
for (start = 0; start < startLength; start++) {
if (startValue[start] !== endValue[start]) {
break;
}
}
var minEnd = startLength - start;
for (end = 1; end <= minEnd; end++) {
if (startValue[startLength - end] !== endValue[endLength - end]) {
break;
}
}
var sliceTail = end > 1 ? 1 - end : void 0;
fallbackText = endValue.slice(start, sliceTail);
return fallbackText;
}
function getText() {
if ("value" in root) {
return root.value;
}
return root.textContent;
}
function getEventCharCode(nativeEvent) {
var charCode;
var keyCode = nativeEvent.keyCode;
if ("charCode" in nativeEvent) {
charCode = nativeEvent.charCode;
if (charCode === 0 && keyCode === 13) {
charCode = 13;
}
} else {
charCode = keyCode;
}
if (charCode === 10) {
charCode = 13;
}
if (charCode >= 32 || charCode === 13) {
return charCode;
}
return 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) {
if (!Interface.hasOwnProperty(_propName)) {
continue;
}
var normalize = Interface[_propName];
if (normalize) {
this[_propName] = normalize(nativeEvent);
} else {
this[_propName] = nativeEvent[_propName];
}
}
var defaultPrevented = nativeEvent.defaultPrevented != null ? nativeEvent.defaultPrevented : nativeEvent.returnValue === false;
if (defaultPrevented) {
this.isDefaultPrevented = functionThatReturnsTrue;
} else {
this.isDefaultPrevented = functionThatReturnsFalse;
}
this.isPropagationStopped = functionThatReturnsFalse;
return this;
}
assign(SyntheticBaseEvent.prototype, {
preventDefault: function() {
this.defaultPrevented = true;
var event = this.nativeEvent;
if (!event) {
return;
}
if (event.preventDefault) {
event.preventDefault();
} else if (typeof event.returnValue !== "unknown") {
event.returnValue = false;
}
this.isDefaultPrevented = functionThatReturnsTrue;
},
stopPropagation: function() {
var event = this.nativeEvent;
if (!event) {
return;
}
if (event.stopPropagation) {
event.stopPropagation();
} else if (typeof event.cancelBubble !== "unknown") {
event.cancelBubble = true;
}
this.isPropagationStopped = functionThatReturnsTrue;
},
/**
* We release all dispatched `SyntheticEvent`s after each event loop, adding
* them back into the pool. This allows a way to hold onto a reference that
* won't be added back into the pool.
*/
persist: function() {
},
/**
* Checks if this event should be released back into the pool.
*
* @return {boolean} True if this should not be released, false otherwise.
*/
isPersistent: functionThatReturnsTrue
});
return SyntheticBaseEvent;
}
var EventInterface = {
eventPhase: 0,
bubbles: 0,
cancelable: 0,
timeStamp: function(event) {
return event.timeStamp || Date.now();
},
defaultPrevented: 0,
isTrusted: 0
};
var SyntheticEvent = createSyntheticEvent(EventInterface);
var UIEventInterface = assign({}, EventInterface, {
view: 0,
detail: 0
});
var SyntheticUIEvent = createSyntheticEvent(UIEventInterface);
var lastMovementX;
var lastMovementY;
var lastMouseEvent;
function updateMouseMovementPolyfillState(event) {
if (event !== lastMouseEvent) {
if (lastMouseEvent && event.type === "mousemove") {
lastMovementX = event.screenX - lastMouseEvent.screenX;
lastMovementY = event.screenY - lastMouseEvent.screenY;
} else {
lastMovementX = 0;
lastMovementY = 0;
}
lastMouseEvent = event;
}
}
var MouseEventInterface = assign({}, UIEventInterface, {
screenX: 0,
screenY: 0,
clientX: 0,
clientY: 0,
pageX: 0,
pageY: 0,
ctrlKey: 0,
shiftKey: 0,
altKey: 0,
metaKey: 0,
getModifierState: getEventModifierState,
button: 0,
buttons: 0,
relatedTarget: function(event) {
if (event.relatedTarget === void 0)
return event.fromElement === event.srcElement ? event.toElement : event.fromElement;
return event.relatedTarget;
},
movementX: function(event) {
if ("movementX" in event) {
return event.movementX;
}
updateMouseMovementPolyfillState(event);
return lastMovementX;
},
movementY: function(event) {
if ("movementY" in event) {
return event.movementY;
}
return lastMovementY;
}
});
var SyntheticMouseEvent = createSyntheticEvent(MouseEventInterface);
var DragEventInterface = assign({}, MouseEventInterface, {
dataTransfer: 0
});
var SyntheticDragEvent = createSyntheticEvent(DragEventInterface);
var FocusEventInterface = assign({}, UIEventInterface, {
relatedTarget: 0
});
var SyntheticFocusEvent = createSyntheticEvent(FocusEventInterface);
var AnimationEventInterface = assign({}, EventInterface, {
animationName: 0,
elapsedTime: 0,
pseudoElement: 0
});
var SyntheticAnimationEvent = createSyntheticEvent(AnimationEventInterface);
var ClipboardEventInterface = assign({}, EventInterface, {
clipboardData: function(event) {
return "clipboardData" in event ? event.clipboardData : window.clipboardData;
}
});
var SyntheticClipboardEvent = createSyntheticEvent(ClipboardEventInterface);
var CompositionEventInterface = assign({}, EventInterface, {
data: 0
});
var SyntheticCompositionEvent = createSyntheticEvent(CompositionEventInterface);
var SyntheticInputEvent = SyntheticCompositionEvent;
var normalizeKey = {
Esc: "Escape",
Spacebar: " ",
Left: "ArrowLeft",
Up: "ArrowUp",
Right: "ArrowRight",
Down: "ArrowDown",
Del: "Delete",
Win: "OS",
Menu: "ContextMenu",
Apps: "ContextMenu",
Scroll: "ScrollLock",
MozPrintableKey: "Unidentified"
};
var translateToKey = {
"8": "Backspace",
"9": "Tab",
"12": "Clear",
"13": "Enter",
"16": "Shift",
"17": "Control",
"18": "Alt",
"19": "Pause",
"20": "CapsLock",
"27": "Escape",
"32": " ",
"33": "PageUp",
"34": "PageDown",
"35": "End",
"36": "Home",
"37": "ArrowLeft",
"38": "ArrowUp",
"39": "ArrowRight",
"40": "ArrowDown",
"45": "Insert",
"46": "Delete",
"112": "F1",
"113": "F2",
"114": "F3",
"115": "F4",
"116": "F5",
"117": "F6",
"118": "F7",
"119": "F8",
"120": "F9",
"121": "F10",
"122": "F11",
"123": "F12",
"144": "NumLock",
"145": "ScrollLock",
"224": "Meta"
};
function getEventKey(nativeEvent) {
if (nativeEvent.key) {
var key = normalizeKey[nativeEvent.key] || nativeEvent.key;
if (key !== "Unidentified") {
return key;
}
}
if (nativeEvent.type === "keypress") {
var charCode = getEventCharCode(nativeEvent);
return charCode === 13 ? "Enter" : String.fromCharCode(charCode);
}
if (nativeEvent.type === "keydown" || nativeEvent.type === "keyup") {
return translateToKey[nativeEvent.keyCode] || "Unidentified";
}
return "";
}
var modifierKeyToProp = {
Alt: "altKey",
Control: "ctrlKey",
Meta: "metaKey",
Shift: "shiftKey"
};
function modifierStateGetter(keyArg) {
var syntheticEvent = this;
var nativeEvent = syntheticEvent.nativeEvent;
if (nativeEvent.getModifierState) {
return nativeEvent.getModifierState(keyArg);
}
var keyProp = modifierKeyToProp[keyArg];
return keyProp ? !!nativeEvent[keyProp] : false;
}
function getEventModifierState(nativeEvent) {
return modifierStateGetter;
}
var KeyboardEventInterface = assign({}, UIEventInterface, {
key: getEventKey,
code: 0,
location: 0,
ctrlKey: 0,
shiftKey: 0,
altKey: 0,
metaKey: 0,
repeat: 0,
locale: 0,
getModifierState: getEventModifierState,
// Legacy Interface
charCode: function(event) {
if (event.type === "keypress") {
return getEventCharCode(event);
}
return 0;
},
keyCode: function(event) {
if (event.type === "keydown" || event.type === "keyup") {
return event.keyCode;
}
return 0;
},
which: function(event) {
if (event.type === "keypress") {
return getEventCharCode(event);
}
if (event.type === "keydown" || event.type === "keyup") {
return event.keyCode;
}
return 0;
}
});
var SyntheticKeyboardEvent = createSyntheticEvent(KeyboardEventInterface);
var PointerEventInterface = assign({}, MouseEventInterface, {
pointerId: 0,
width: 0,
height: 0,
pressure: 0,
tangentialPressure: 0,
tiltX: 0,
tiltY: 0,
twist: 0,
pointerType: 0,
isPrimary: 0
});
var SyntheticPointerEvent = createSyntheticEvent(PointerEventInterface);
var TouchEventInterface = assign({}, UIEventInterface, {
touches: 0,
targetTouches: 0,
changedTouches: 0,
altKey: 0,
metaKey: 0,
ctrlKey: 0,
shiftKey: 0,
getModifierState: getEventModifierState
});
var SyntheticTouchEvent = createSyntheticEvent(TouchEventInterface);
var TransitionEventInterface = assign({}, EventInterface, {
propertyName: 0,
elapsedTime: 0,
pseudoElement: 0
});
var SyntheticTransitionEvent = createSyntheticEvent(TransitionEventInterface);
var WheelEventInterface = assign({}, MouseEventInterface, {
deltaX: function(event) {
return "deltaX" in event ? event.deltaX : (
// Fallback to `wheelDeltaX` for Webkit and normalize (right is positive).
"wheelDeltaX" in event ? -event.wheelDeltaX : 0
);
},
deltaY: function(event) {
return "deltaY" in event ? event.deltaY : (
// Fallback to `wheelDeltaY` for Webkit and normalize (down is positive).
"wheelDeltaY" in event ? -event.wheelDeltaY : (
// Fallback to `wheelDelta` for IE<9 and normalize (down is positive).
"wheelDelta" in event ? -event.wheelDelta : 0
)
);
},
deltaZ: 0,
// Browsers without "deltaMode" is reporting in raw wheel delta where one
// notch on the scroll is always +/- 120, roughly equivalent to pixels.
// A good approximation of DOM_DELTA_LINE (1) is 5% of viewport size or
// ~40 pixels, for DOM_DELTA_SCREEN (2) it is 87.5% of viewport size.
deltaMode: 0
});
var SyntheticWheelEvent = createSyntheticEvent(WheelEventInterface);
var END_KEYCODES = [9, 13, 27, 32];
var START_KEYCODE = 229;
var canUseCompositionEvent = canUseDOM && "CompositionEvent" in window;
var documentMode = null;
if (canUseDOM && "documentMode" in document) {
documentMode = document.documentMode;
}
var canUseTextInputEvent = canUseDOM && "TextEvent" in window && !documentMode;
var useFallbackCompositionData = canUseDOM && (!canUseCompositionEvent || documentMode && documentMode > 8 && documentMode <= 11);
var SPACEBAR_CODE = 32;
var SPACEBAR_CHAR = String.fromCharCode(SPACEBAR_CODE);
function registerEvents() {
registerTwoPhaseEvent("onBeforeInput", ["compositionend", "keypress", "textInput", "paste"]);
registerTwoPhaseEvent("onCompositionEnd", ["compositionend", "focusout", "keydown", "keypress", "keyup", "mousedown"]);
registerTwoPhaseEvent("onCompositionStart", ["compositionstart", "focusout", "keydown", "keypress", "keyup", "mousedown"]);
registerTwoPhaseEvent("onCompositionUpdate", ["compositionupdate", "focusout", "keydown", "keypress", "keyup", "mousedown"]);
}
var hasSpaceKeypress = false;
function isKeypressCommand(nativeEvent) {
return (nativeEvent.ctrlKey || nativeEvent.altKey || nativeEvent.metaKey) && // ctrlKey && altKey is equivalent to AltGr, and is not a command.
!(nativeEvent.ctrlKey && nativeEvent.altKey);
}
function getCompositionEventType(domEventName) {
switch (domEventName) {
case "compositionstart":
return "onCompositionStart";
case "compositionend":
return "onCompositionEnd";
case "compositionupdate":
return "onCompositionUpdate";
}
}
function isFallbackCompositionStart(domEventName, nativeEvent) {
return domEventName === "keydown" && nativeEvent.keyCode === START_KEYCODE;
}
function isFallbackCompositionEnd(domEventName, nativeEvent) {
switch (domEventName) {
case "keyup":
return END_KEYCODES.indexOf(nativeEvent.keyCode) !== -1;
case "keydown":
return nativeEvent.keyCode !== START_KEYCODE;
case "keypress":
case "mousedown":
case "focusout":
return true;
default:
return false;
}
}
function getDataFromCustomEvent(nativeEvent) {
var detail = nativeEvent.detail;
if (typeof detail === "object" && "data" in detail) {
return detail.data;
}
return null;
}
function isUsingKoreanIME(nativeEvent) {
return nativeEvent.locale === "ko";
}
var isComposing = false;
function extractCompositionEvent(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget) {
var eventType;
var fallbackData;
if (canUseCompositionEvent) {
eventType = getCompositionEventType(domEventName);
} else if (!isComposing) {
if (isFallbackCompositionStart(domEventName, nativeEvent)) {
eventType = "onCompositionStart";
}
} else if (isFallbackCompositionEnd(domEventName, nativeEvent)) {
eventType = "onCompositionEnd";
}
if (!eventType) {
return null;
}
if (useFallbackCompositionData && !isUsingKoreanIME(nativeEvent)) {
if (!isComposing && eventType === "onCompositionStart") {
isComposing = initialize(nativeEventTarget);
} else if (eventType === "onCompositionEnd") {
if (isComposing) {
fallbackData = getData();
}
}
}
var listeners = accumulateTwoPhaseListeners(targetInst, eventType);
if (listeners.length > 0) {
var event = new SyntheticCompositionEvent(eventType, domEventName, null, nativeEvent, nativeEventTarget);
dispatchQueue.push({
event,
listeners
});
if (fallbackData) {
event.data = fallbackData;
} else {
var customData = getDataFromCustomEvent(nativeEvent);
if (customData !== null) {
event.data = customData;
}
}
}
}
function getNativeBeforeInputChars(domEventName, nativeEvent) {
switch (domEventName) {
case "compositionend":
return getDataFromCustomEvent(nativeEvent);
case "keypress":
var which = nativeEvent.which;
if (which !== SPACEBAR_CODE) {
return null;
}
hasSpaceKeypress = true;
return SPACEBAR_CHAR;
case "textInput":
var chars = nativeEvent.data;
if (chars === SPACEBAR_CHAR && hasSpaceKeypress) {
return null;
}
return chars;
default:
return null;
}
}
function getFallbackBeforeInputChars(domEventName, nativeEvent) {
if (isComposing) {
if (domEventName === "compositionend" || !canUseCompositionEvent && isFallbackCompositionEnd(domEventName, nativeEvent)) {
var chars = getData();
reset();
isComposing = false;
return chars;
}
return null;
}
switch (domEventName) {
case "paste":
return null;
case "keypress":
if (!isKeypressCommand(nativeEvent)) {
if (nativeEvent.char && nativeEvent.char.length > 1) {
return nativeEvent.char;
} else if (nativeEvent.which) {
return String.fromCharCode(nativeEvent.which);
}
}
return null;
case "compositionend":
return useFallbackCompositionData && !isUsingKoreanIME(nativeEvent) ? null : nativeEvent.data;
default:
return null;
}
}
function extractBeforeInputEvent(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget) {
var chars;
if (canUseTextInputEvent) {
chars = getNativeBeforeInputChars(domEventName, nativeEvent);
} else {
chars = getFallbackBeforeInputChars(domEventName, nativeEvent);
}
if (!chars) {
return null;
}
var listeners = accumulateTwoPhaseListeners(targetInst, "onBeforeInput");
if (listeners.length > 0) {
var event = new SyntheticInputEvent("onBeforeInput", "beforeinput", null, nativeEvent, nativeEventTarget);
dispatchQueue.push({
event,
listeners
});
event.data = chars;
}
}
function extractEvents(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
extractCompositionEvent(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
extractBeforeInputEvent(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
}
var supportedInputTypes = {
color: true,
date: true,
datetime: true,
"datetime-local": true,
email: true,
month: true,
number: true,
password: true,
range: true,
search: true,
tel: true,
text: true,
time: true,
url: true,
week: true
};
function isTextInputElement(elem) {
var nodeName = elem && elem.nodeName && elem.nodeName.toLowerCase();
if (nodeName === "input") {
return !!supportedInputTypes[elem.type];
}
if (nodeName === "textarea") {
return true;
}
return false;
}
function isEventSupported(eventNameSuffix) {
if (!canUseDOM) {
return false;
}
var eventName = "on" + eventNameSuffix;
var isSupported = eventName in document;
if (!isSupported) {
var element = document.createElement("div");
element.setAttribute(eventName, "return;");
isSupported = typeof element[eventName] === "function";
}
return isSupported;
}
function registerEvents$1() {
registerTwoPhaseEvent("onChange", ["change", "click", "focusin", "focusout", "input", "keydown", "keyup", "selectionchange"]);
}
function createAndAccumulateChangeEvent(dispatchQueue, inst, nativeEvent, target) {
enqueueStateRestore(target);
var listeners = accumulateTwoPhaseListeners(inst, "onChange");
if (listeners.length > 0) {
var event = new SyntheticEvent("onChange", "change", null, nativeEvent, target);
dispatchQueue.push({
event,
listeners
});
}
}
var activeElement = null;
var activeElementInst = null;
function shouldUseChangeEvent(elem) {
var nodeName = elem.nodeName && elem.nodeName.toLowerCase();
return nodeName === "select" || nodeName === "input" && elem.type === "file";
}
function manualDispatchChangeEvent(nativeEvent) {
var dispatchQueue = [];
createAndAccumulateChangeEvent(dispatchQueue, activeElementInst, nativeEvent, getEventTarget(nativeEvent));
batchedUpdates(runEventInBatch, dispatchQueue);
}
function runEventInBatch(dispatchQueue) {
processDispatchQueue(dispatchQueue, 0);
}
function getInstIfValueChanged(targetInst) {
var targetNode = getNodeFromInstance(targetInst);
if (updateValueIfChanged(targetNode)) {
return targetInst;
}
}
function getTargetInstForChangeEvent(domEventName, targetInst) {
if (domEventName === "change") {
return targetInst;
}
}
var isInputEventSupported = false;
if (canUseDOM) {
isInputEventSupported = isEventSupported("input") && (!document.documentMode || document.documentMode > 9);
}
function startWatchingForValueChange(target, targetInst) {
activeElement = target;
activeElementInst = targetInst;
activeElement.attachEvent("onpropertychange", handlePropertyChange);
}
function stopWatchingForValueChange() {
if (!activeElement) {
return;
}
activeElement.detachEvent("onpropertychange", handlePropertyChange);
activeElement = null;
activeElementInst = null;
}
function handlePropertyChange(nativeEvent) {
if (nativeEvent.propertyName !== "value") {
return;
}
if (getInstIfValueChanged(activeElementInst)) {
manualDispatchChangeEvent(nativeEvent);
}
}
function handleEventsForInputEventPolyfill(domEventName, target, targetInst) {
if (domEventName === "focusin") {
stopWatchingForValueChange();
startWatchingForValueChange(target, targetInst);
} else if (domEventName === "focusout") {
stopWatchingForValueChange();
}
}
function getTargetInstForInputEventPolyfill(domEventName, targetInst) {
if (domEventName === "selectionchange" || domEventName === "keyup" || domEventName === "keydown") {
return getInstIfValueChanged(activeElementInst);
}
}
function shouldUseClickEvent(elem) {
var nodeName = elem.nodeName;
return nodeName && nodeName.toLowerCase() === "input" && (elem.type === "checkbox" || elem.type === "radio");
}
function getTargetInstForClickEvent(domEventName, targetInst) {
if (domEventName === "click") {
return getInstIfValueChanged(targetInst);
}
}
function getTargetInstForInputOrChangeEvent(domEventName, targetInst) {
if (domEventName === "input" || domEventName === "change") {
return getInstIfValueChanged(targetInst);
}
}
function handleControlledInputBlur(node) {
var state = node._wrapperState;
if (!state || !state.controlled || node.type !== "number") {
return;
}
{
setDefaultValue(node, "number", node.value);
}
}
function extractEvents$1(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
var targetNode = targetInst ? getNodeFromInstance(targetInst) : window;
var getTargetInstFunc, handleEventFunc;
if (shouldUseChangeEvent(targetNode)) {
getTargetInstFunc = getTargetInstForChangeEvent;
} else if (isTextInputElement(targetNode)) {
if (isInputEventSupported) {
getTargetInstFunc = getTargetInstForInputOrChangeEvent;
} else {
getTargetInstFunc = getTargetInstForInputEventPolyfill;
handleEventFunc = handleEventsForInputEventPolyfill;
}
} else if (shouldUseClickEvent(targetNode)) {
getTargetInstFunc = getTargetInstForClickEvent;
}
if (getTargetInstFunc) {
var inst = getTargetInstFunc(domEventName, targetInst);
if (inst) {
createAndAccumulateChangeEvent(dispatchQueue, inst, nativeEvent, nativeEventTarget);
return;
}
}
if (handleEventFunc) {
handleEventFunc(domEventName, targetNode, targetInst);
}
if (domEventName === "focusout") {
handleControlledInputBlur(targetNode);
}
}
function registerEvents$2() {
registerDirectEvent("onMouseEnter", ["mouseout", "mouseover"]);
registerDirectEvent("onMouseLeave", ["mouseout", "mouseover"]);
registerDirectEvent("onPointerEnter", ["pointerout", "pointerover"]);
registerDirectEvent("onPointerLeave", ["pointerout", "pointerover"]);
}
function extractEvents$2(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
var isOverEvent = domEventName === "mouseover" || domEventName === "pointerover";
var isOutEvent = domEventName === "mouseout" || domEventName === "pointerout";
if (isOverEvent && !isReplayingEvent(nativeEvent)) {
var related = nativeEvent.relatedTarget || nativeEvent.fromElement;
if (related) {
if (getClosestInstanceFromNode(related) || isContainerMarkedAsRoot(related)) {
return;
}
}
}
if (!isOutEvent && !isOverEvent) {
return;
}
var win;
if (nativeEventTarget.window === nativeEventTarget) {
win = nativeEventTarget;
} else {
var doc = nativeEventTarget.ownerDocument;
if (doc) {
win = doc.defaultView || doc.parentWindow;
} else {
win = window;
}
}
var from;
var to;
if (isOutEvent) {
var _related = nativeEvent.relatedTarget || nativeEvent.toElement;
from = targetInst;
to = _related ? getClosestInstanceFromNode(_related) : null;
if (to !== null) {
var nearestMounted = getNearestMountedFiber(to);
if (to !== nearestMounted || to.tag !== HostComponent && to.tag !== HostText) {
to = null;
}
}
} else {
from = null;
to = targetInst;
}
if (from === to) {
return;
}
var SyntheticEventCtor = SyntheticMouseEvent;
var leaveEventType = "onMouseLeave";
var enterEventType = "onMouseEnter";
var eventTypePrefix = "mouse";
if (domEventName === "pointerout" || domEventName === "pointerover") {
SyntheticEventCtor = SyntheticPointerEvent;
leaveEventType = "onPointerLeave";
enterEventType = "onPointerEnter";
eventTypePrefix = "pointer";
}
var fromNode = from == null ? win : getNodeFromInstance(from);
var toNode = to == null ? win : getNodeFromInstance(to);
var leave = new SyntheticEventCtor(leaveEventType, eventTypePrefix + "leave", from, nativeEvent, nativeEventTarget);
leave.target = fromNode;
leave.relatedTarget = toNode;
var enter = null;
var nativeTargetInst = getClosestInstanceFromNode(nativeEventTarget);
if (nativeTargetInst === targetInst) {
var enterEvent = new SyntheticEventCtor(enterEventType, eventTypePrefix + "enter", to, nativeEvent, nativeEventTarget);
enterEvent.target = toNode;
enterEvent.relatedTarget = fromNode;
enter = enterEvent;
}
accumulateEnterLeaveTwoPhaseListeners(dispatchQueue, leave, enter, from, to);
}
function is(x2, y) {
return x2 === y && (x2 !== 0 || 1 / x2 === 1 / y) || x2 !== x2 && y !== y;
}
var objectIs = typeof Object.is === "function" ? Object.is : is;
function shallowEqual(objA, objB) {
if (objectIs(objA, objB)) {
return true;
}
if (typeof objA !== "object" || objA === null || typeof objB !== "object" || objB === null) {
return false;
}
var keysA = Object.keys(objA);
var keysB = Object.keys(objB);
if (keysA.length !== keysB.length) {
return false;
}
for (var i = 0; i < keysA.length; i++) {
var currentKey = keysA[i];
if (!hasOwnProperty.call(objB, currentKey) || !objectIs(objA[currentKey], objB[currentKey])) {
return false;
}
}
return true;
}
function getLeafNode(node) {
while (node && node.firstChild) {
node = node.firstChild;
}
return node;
}
function getSiblingNode(node) {
while (node) {
if (node.nextSibling) {
return node.nextSibling;
}
node = node.parentNode;
}
}
function getNodeForCharacterOffset(root2, offset) {
var node = getLeafNode(root2);
var nodeStart = 0;
var nodeEnd = 0;
while (node) {
if (node.nodeType === TEXT_NODE) {
nodeEnd = nodeStart + node.textContent.length;
if (nodeStart <= offset && nodeEnd >= offset) {
return {
node,
offset: offset - nodeStart
};
}
nodeStart = nodeEnd;
}
node = getLeafNode(getSiblingNode(node));
}
}
function getOffsets(outerNode) {
var ownerDocument = outerNode.ownerDocument;
var win = ownerDocument && ownerDocument.defaultView || window;
var selection = win.getSelection && win.getSelection();
if (!selection || selection.rangeCount === 0) {
return null;
}
var anchorNode = selection.anchorNode, anchorOffset = selection.anchorOffset, focusNode = selection.focusNode, focusOffset = selection.focusOffset;
try {
anchorNode.nodeType;
focusNode.nodeType;
} catch (e) {
return null;
}
return getModernOffsetsFromPoints(outerNode, anchorNode, anchorOffset, focusNode, focusOffset);
}
function getModernOffsetsFromPoints(outerNode, anchorNode, anchorOffset, focusNode, focusOffset) {
var length = 0;
var start = -1;
var end = -1;
var indexWithinAnchor = 0;
var indexWithinFocus = 0;
var node = outerNode;
var parentNode = null;
outer:
while (true) {
var next = null;
while (true) {
if (node === anchorNode && (anchorOffset === 0 || node.nodeType === TEXT_NODE)) {
start = length + anchorOffset;
}
if (node === focusNode && (focusOffset === 0 || node.nodeType === TEXT_NODE)) {
end = length + focusOffset;
}
if (node.nodeType === TEXT_NODE) {
length += node.nodeValue.length;
}
if ((next = node.firstChild) === null) {
break;
}
parentNode = node;
node = next;
}
while (true) {
if (node === outerNode) {
break outer;
}
if (parentNode === anchorNode && ++indexWithinAnchor === anchorOffset) {
start = length;
}
if (parentNode === focusNode && ++indexWithinFocus === focusOffset) {
end = length;
}
if ((next = node.nextSibling) !== null) {
break;
}
node = parentNode;
parentNode = node.parentNode;
}
node = next;
}
if (start === -1 || end === -1) {
return null;
}
return {
start,
end
};
}
function setOffsets(node, offsets) {
var doc = node.ownerDocument || document;
var win = doc && doc.defaultView || window;
if (!win.getSelection) {
return;
}
var selection = win.getSelection();
var length = node.textContent.length;
var start = Math.min(offsets.start, length);
var end = offsets.end === void 0 ? start : Math.min(offsets.end, length);
if (!selection.extend && start > end) {
var temp = end;
end = start;
start = temp;
}
var startMarker = getNodeForCharacterOffset(node, start);
var endMarker = getNodeForCharacterOffset(node, end);
if (startMarker && endMarker) {
if (selection.rangeCount === 1 && selection.anchorNode === startMarker.node && selection.anchorOffset === startMarker.offset && selection.focusNode === endMarker.node && selection.focusOffset === endMarker.offset) {
return;
}
var range = doc.createRange();
range.setStart(startMarker.node, startMarker.offset);
selection.removeAllRanges();
if (start > end) {
selection.addRange(range);
selection.extend(endMarker.node, endMarker.offset);
} else {
range.setEnd(endMarker.node, endMarker.offset);
selection.addRange(range);
}
}
}
function isTextNode(node) {
return node && node.nodeType === TEXT_NODE;
}
function containsNode(outerNode, innerNode) {
if (!outerNode || !innerNode) {
return false;
} else if (outerNode === innerNode) {
return true;
} else if (isTextNode(outerNode)) {
return false;
} else if (isTextNode(innerNode)) {
return containsNode(outerNode, innerNode.parentNode);
} else if ("contains" in outerNode) {
return outerNode.contains(innerNode);
} else if (outerNode.compareDocumentPosition) {
return !!(outerNode.compareDocumentPosition(innerNode) & 16);
} else {
return false;
}
}
function isInDocument(node) {
return node && node.ownerDocument && containsNode(node.ownerDocument.documentElement, node);
}
function isSameOriginFrame(iframe) {
try {
return typeof iframe.contentWindow.location.href === "string";
} catch (err) {
return false;
}
}
function getActiveElementDeep() {
var win = window;
var element = getActiveElement();
while (element instanceof win.HTMLIFrameElement) {
if (isSameOriginFrame(element)) {
win = element.contentWindow;
} else {
return element;
}
element = getActiveElement(win.document);
}
return element;
}
function hasSelectionCapabilities(elem) {
var nodeName = elem && elem.nodeName && elem.nodeName.toLowerCase();
return nodeName && (nodeName === "input" && (elem.type === "text" || elem.type === "search" || elem.type === "tel" || elem.type === "url" || elem.type === "password") || nodeName === "textarea" || elem.contentEditable === "true");
}
function getSelectionInformation() {
var focusedElem = getActiveElementDeep();
return {
focusedElem,
selectionRange: hasSelectionCapabilities(focusedElem) ? getSelection(focusedElem) : null
};
}
function restoreSelection(priorSelectionInformation) {
var curFocusedElem = getActiveElementDeep();
var priorFocusedElem = priorSelectionInformation.focusedElem;
var priorSelectionRange = priorSelectionInformation.selectionRange;
if (curFocusedElem !== priorFocusedElem && isInDocument(priorFocusedElem)) {
if (priorSelectionRange !== null && hasSelectionCapabilities(priorFocusedElem)) {
setSelection(priorFocusedElem, priorSelectionRange);
}
var ancestors = [];
var ancestor = priorFocusedElem;
while (ancestor = ancestor.parentNode) {
if (ancestor.nodeType === ELEMENT_NODE) {
ancestors.push({
element: ancestor,
left: ancestor.scrollLeft,
top: ancestor.scrollTop
});
}
}
if (typeof priorFocusedElem.focus === "function") {
priorFocusedElem.focus();
}
for (var i = 0; i < ancestors.length; i++) {
var info = ancestors[i];
info.element.scrollLeft = info.left;
info.element.scrollTop = info.top;
}
}
}
function getSelection(input) {
var selection;
if ("selectionStart" in input) {
selection = {
start: input.selectionStart,
end: input.selectionEnd
};
} else {
selection = getOffsets(input);
}
return selection || {
start: 0,
end: 0
};
}
function setSelection(input, offsets) {
var start = offsets.start;
var end = offsets.end;
if (end === void 0) {
end = start;
}
if ("selectionStart" in input) {
input.selectionStart = start;
input.selectionEnd = Math.min(end, input.value.length);
} else {
setOffsets(input, offsets);
}
}
var skipSelectionChangeEvent = canUseDOM && "documentMode" in document && document.documentMode <= 11;
function registerEvents$3() {
registerTwoPhaseEvent("onSelect", ["focusout", "contextmenu", "dragend", "focusin", "keydown", "keyup", "mousedown", "mouseup", "selectionchange"]);
}
var activeElement$1 = null;
var activeElementInst$1 = null;
var lastSelection = null;
var mouseDown = false;
function getSelection$1(node) {
if ("selectionStart" in node && hasSelectionCapabilities(node)) {
return {
start: node.selectionStart,
end: node.selectionEnd
};
} else {
var win = node.ownerDocument && node.ownerDocument.defaultView || window;
var selection = win.getSelection();
return {
anchorNode: selection.anchorNode,
anchorOffset: selection.anchorOffset,
focusNode: selection.focusNode,
focusOffset: selection.focusOffset
};
}
}
function getEventTargetDocument(eventTarget) {
return eventTarget.window === eventTarget ? eventTarget.document : eventTarget.nodeType === DOCUMENT_NODE ? eventTarget : eventTarget.ownerDocument;
}
function constructSelectEvent(dispatchQueue, nativeEvent, nativeEventTarget) {
var doc = getEventTargetDocument(nativeEventTarget);
if (mouseDown || activeElement$1 == null || activeElement$1 !== getActiveElement(doc)) {
return;
}
var currentSelection = getSelection$1(activeElement$1);
if (!lastSelection || !shallowEqual(lastSelection, currentSelection)) {
lastSelection = currentSelection;
var listeners = accumulateTwoPhaseListeners(activeElementInst$1, "onSelect");
if (listeners.length > 0) {
var event = new SyntheticEvent("onSelect", "select", null, nativeEvent, nativeEventTarget);
dispatchQueue.push({
event,
listeners
});
event.target = activeElement$1;
}
}
}
function extractEvents$3(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
var targetNode = targetInst ? getNodeFromInstance(targetInst) : window;
switch (domEventName) {
case "focusin":
if (isTextInputElement(targetNode) || targetNode.contentEditable === "true") {
activeElement$1 = targetNode;
activeElementInst$1 = targetInst;
lastSelection = null;
}
break;
case "focusout":
activeElement$1 = null;
activeElementInst$1 = null;
lastSelection = null;
break;
case "mousedown":
mouseDown = true;
break;
case "contextmenu":
case "mouseup":
case "dragend":
mouseDown = false;
constructSelectEvent(dispatchQueue, nativeEvent, nativeEventTarget);
break;
case "selectionchange":
if (skipSelectionChangeEvent) {
break;
}
case "keydown":
case "keyup":
constructSelectEvent(dispatchQueue, nativeEvent, nativeEventTarget);
}
}
function makePrefixMap(styleProp, eventName) {
var prefixes2 = {};
prefixes2[styleProp.toLowerCase()] = eventName.toLowerCase();
prefixes2["Webkit" + styleProp] = "webkit" + eventName;
prefixes2["Moz" + styleProp] = "moz" + eventName;
return prefixes2;
}
var vendorPrefixes = {
animationend: makePrefixMap("Animation", "AnimationEnd"),
animationiteration: makePrefixMap("Animation", "AnimationIteration"),
animationstart: makePrefixMap("Animation", "AnimationStart"),
transitionend: makePrefixMap("Transition", "TransitionEnd")
};
var prefixedEventNames = {};
var style = {};
if (canUseDOM) {
style = document.createElement("div").style;
if (!("AnimationEvent" in window)) {
delete vendorPrefixes.animationend.animation;
delete vendorPrefixes.animationiteration.animation;
delete vendorPrefixes.animationstart.animation;
}
if (!("TransitionEvent" in window)) {
delete vendorPrefixes.transitionend.transition;
}
}
function getVendorPrefixedEventName(eventName) {
if (prefixedEventNames[eventName]) {
return prefixedEventNames[eventName];
} else if (!vendorPrefixes[eventName]) {
return eventName;
}
var prefixMap = vendorPrefixes[eventName];
for (var styleProp in prefixMap) {
if (prefixMap.hasOwnProperty(styleProp) && styleProp in style) {
return prefixedEventNames[eventName] = prefixMap[styleProp];
}
}
return eventName;
}
var ANIMATION_END = getVendorPrefixedEventName("animationend");
var ANIMATION_ITERATION = getVendorPrefixedEventName("animationiteration");
var ANIMATION_START = getVendorPrefixedEventName("animationstart");
var TRANSITION_END = getVendorPrefixedEventName("transitionend");
var topLevelEventsToReactNames = /* @__PURE__ */ new Map();
var simpleEventPluginEvents = ["abort", "auxClick", "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"];
function registerSimpleEvent(domEventName, reactName) {
topLevelEventsToReactNames.set(domEventName, reactName);
registerTwoPhaseEvent(reactName, [domEventName]);
}
function registerSimpleEvents() {
for (var i = 0; i < simpleEventPluginEvents.length; i++) {
var eventName = simpleEventPluginEvents[i];
var domEventName = eventName.toLowerCase();
var capitalizedEvent = eventName[0].toUpperCase() + eventName.slice(1);
registerSimpleEvent(domEventName, "on" + capitalizedEvent);
}
registerSimpleEvent(ANIMATION_END, "onAnimationEnd");
registerSimpleEvent(ANIMATION_ITERATION, "onAnimationIteration");
registerSimpleEvent(ANIMATION_START, "onAnimationStart");
registerSimpleEvent("dblclick", "onDoubleClick");
registerSimpleEvent("focusin", "onFocus");
registerSimpleEvent("focusout", "onBlur");
registerSimpleEvent(TRANSITION_END, "onTransitionEnd");
}
function extractEvents$4(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
var reactName = topLevelEventsToReactNames.get(domEventName);
if (reactName === void 0) {
return;
}
var SyntheticEventCtor = SyntheticEvent;
var reactEventType = domEventName;
switch (domEventName) {
case "keypress":
if (getEventCharCode(nativeEvent) === 0) {
return;
}
case "keydown":
case "keyup":
SyntheticEventCtor = SyntheticKeyboardEvent;
break;
case "focusin":
reactEventType = "focus";
SyntheticEventCtor = SyntheticFocusEvent;
break;
case "focusout":
reactEventType = "blur";
SyntheticEventCtor = SyntheticFocusEvent;
break;
case "beforeblur":
case "afterblur":
SyntheticEventCtor = SyntheticFocusEvent;
break;
case "click":
if (nativeEvent.button === 2) {
return;
}
case "auxclick":
case "dblclick":
case "mousedown":
case "mousemove":
case "mouseup":
case "mouseout":
case "mouseover":
case "contextmenu":
SyntheticEventCtor = SyntheticMouseEvent;
break;
case "drag":
case "dragend":
case "dragenter":
case "dragexit":
case "dragleave":
case "dragover":
case "dragstart":
case "drop":
SyntheticEventCtor = SyntheticDragEvent;
break;
case "touchcancel":
case "touchend":
case "touchmove":
case "touchstart":
SyntheticEventCtor = SyntheticTouchEvent;
break;
case ANIMATION_END:
case ANIMATION_ITERATION:
case ANIMATION_START:
SyntheticEventCtor = SyntheticAnimationEvent;
break;
case TRANSITION_END:
SyntheticEventCtor = SyntheticTransitionEvent;
break;
case "scroll":
SyntheticEventCtor = SyntheticUIEvent;
break;
case "wheel":
SyntheticEventCtor = SyntheticWheelEvent;
break;
case "copy":
case "cut":
case "paste":
SyntheticEventCtor = SyntheticClipboardEvent;
break;
case "gotpointercapture":
case "lostpointercapture":
case "pointercancel":
case "pointerdown":
case "pointermove":
case "pointerout":
case "pointerover":
case "pointerup":
SyntheticEventCtor = SyntheticPointerEvent;
break;
}
var inCapturePhase = (eventSystemFlags & IS_CAPTURE_PHASE) !== 0;
{
var accumulateTargetOnly = !inCapturePhase && // TODO: ideally, we'd eventually add all events from
// nonDelegatedEvents list in DOMPluginEventSystem.
// Then we can remove this special list.
// This is a breaking change that can wait until React 18.
domEventName === "scroll";
var _listeners = accumulateSinglePhaseListeners(targetInst, reactName, nativeEvent.type, inCapturePhase, accumulateTargetOnly);
if (_listeners.length > 0) {
var _event = new SyntheticEventCtor(reactName, reactEventType, null, nativeEvent, nativeEventTarget);
dispatchQueue.push({
event: _event,
listeners: _listeners
});
}
}
}
registerSimpleEvents();
registerEvents$2();
registerEvents$1();
registerEvents$3();
registerEvents();
function extractEvents$5(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags, targetContainer) {
extractEvents$4(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags);
var shouldProcessPolyfillPlugins = (eventSystemFlags & SHOULD_NOT_PROCESS_POLYFILL_EVENT_PLUGINS) === 0;
if (shouldProcessPolyfillPlugins) {
extractEvents$2(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
extractEvents$1(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
extractEvents$3(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
extractEvents(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget);
}
}
var mediaEventTypes = ["abort", "canplay", "canplaythrough", "durationchange", "emptied", "encrypted", "ended", "error", "loadeddata", "loadedmetadata", "loadstart", "pause", "play", "playing", "progress", "ratechange", "resize", "seeked", "seeking", "stalled", "suspend", "timeupdate", "volumechange", "waiting"];
var nonDelegatedEvents = new Set(["cancel", "close", "invalid", "load", "scroll", "toggle"].concat(mediaEventTypes));
function executeDispatch(event, listener, currentTarget) {
var type = event.type || "unknown-event";
event.currentTarget = currentTarget;
invokeGuardedCallbackAndCatchFirstError(type, listener, void 0, event);
event.currentTarget = null;
}
function processDispatchQueueItemsInOrder(event, dispatchListeners, inCapturePhase) {
var previousInstance;
if (inCapturePhase) {
for (var i = dispatchListeners.length - 1; i >= 0; i--) {
var _dispatchListeners$i = dispatchListeners[i], instance = _dispatchListeners$i.instance, currentTarget = _dispatchListeners$i.currentTarget, listener = _dispatchListeners$i.listener;
if (instance !== previousInstance && event.isPropagationStopped()) {
return;
}
executeDispatch(event, listener, currentTarget);
previousInstance = instance;
}
} else {
for (var _i = 0; _i < dispatchListeners.length; _i++) {
var _dispatchListeners$_i = dispatchListeners[_i], _instance = _dispatchListeners$_i.instance, _currentTarget = _dispatchListeners$_i.currentTarget, _listener = _dispatchListeners$_i.listener;
if (_instance !== previousInstance && event.isPropagationStopped()) {
return;
}
executeDispatch(event, _listener, _currentTarget);
previousInstance = _instance;
}
}
}
function processDispatchQueue(dispatchQueue, eventSystemFlags) {
var inCapturePhase = (eventSystemFlags & IS_CAPTURE_PHASE) !== 0;
for (var i = 0; i < dispatchQueue.length; i++) {
var _dispatchQueue$i = dispatchQueue[i], event = _dispatchQueue$i.event, listeners = _dispatchQueue$i.listeners;
processDispatchQueueItemsInOrder(event, listeners, inCapturePhase);
}
rethrowCaughtError();
}
function dispatchEventsForPlugins(domEventName, eventSystemFlags, nativeEvent, targetInst, targetContainer) {
var nativeEventTarget = getEventTarget(nativeEvent);
var dispatchQueue = [];
extractEvents$5(dispatchQueue, domEventName, targetInst, nativeEvent, nativeEventTarget, eventSystemFlags);
processDispatchQueue(dispatchQueue, eventSystemFlags);
}
function listenToNonDelegatedEvent(domEventName, targetElement) {
{
if (!nonDelegatedEvents.has(domEventName)) {
error('Did not expect a listenToNonDelegatedEvent() call for "%s". This is a bug in React. Please file an issue.', domEventName);
}
}
var isCapturePhaseListener = false;
var listenerSet = getEventListenerSet(targetElement);
var listenerSetKey = getListenerSetKey(domEventName, isCapturePhaseListener);
if (!listenerSet.has(listenerSetKey)) {
addTrappedEventListener(targetElement, domEventName, IS_NON_DELEGATED, isCapturePhaseListener);
listenerSet.add(listenerSetKey);
}
}
function listenToNativeEvent(domEventName, isCapturePhaseListener, target) {
{
if (nonDelegatedEvents.has(domEventName) && !isCapturePhaseListener) {
error('Did not expect a listenToNativeEvent() call for "%s" in the bubble phase. This is a bug in React. Please file an issue.', domEventName);
}
}
var eventSystemFlags = 0;
if (isCapturePhaseListener) {
eventSystemFlags |= IS_CAPTURE_PHASE;
}
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) {
if (domEventName !== "selectionchange") {
if (!nonDelegatedEvents.has(domEventName)) {
listenToNativeEvent(domEventName, false, rootContainerElement);
}
listenToNativeEvent(domEventName, true, rootContainerElement);
}
});
var ownerDocument = rootContainerElement.nodeType === DOCUMENT_NODE ? rootContainerElement : rootContainerElement.ownerDocument;
if (ownerDocument !== null) {
if (!ownerDocument[listeningMarker]) {
ownerDocument[listeningMarker] = true;
listenToNativeEvent("selectionchange", false, ownerDocument);
}
}
}
}
function addTrappedEventListener(targetContainer, domEventName, eventSystemFlags, isCapturePhaseListener, isDeferredListenerForLegacyFBSupport) {
var listener = createEventListenerWrapperWithPriority(targetContainer, domEventName, eventSystemFlags);
var isPassiveListener = void 0;
if (passiveBrowserEventsSupported) {
if (domEventName === "touchstart" || domEventName === "touchmove" || domEventName === "wheel") {
isPassiveListener = true;
}
}
targetContainer = targetContainer;
var unsubscribeListener;
if (isCapturePhaseListener) {
if (isPassiveListener !== void 0) {
unsubscribeListener = addEventCaptureListenerWithPassiveFlag(targetContainer, domEventName, listener, isPassiveListener);
} else {
unsubscribeListener = addEventCaptureListener(targetContainer, domEventName, listener);
}
} else {
if (isPassiveListener !== void 0) {
unsubscribeListener = addEventBubbleListenerWithPassiveFlag(targetContainer, domEventName, listener, isPassiveListener);
} else {
unsubscribeListener = addEventBubbleListener(targetContainer, domEventName, listener);
}
}
}
function isMatchingRootContainer(grandContainer, targetContainer) {
return grandContainer === targetContainer || grandContainer.nodeType === COMMENT_NODE && grandContainer.parentNode === targetContainer;
}
function dispatchEventForPluginEventSystem(domEventName, eventSystemFlags, nativeEvent, targetInst, targetContainer) {
var ancestorInst = targetInst;
if ((eventSystemFlags & IS_EVENT_HANDLE_NON_MANAGED_NODE) === 0 && (eventSystemFlags & IS_NON_DELEGATED) === 0) {
var targetContainerNode = targetContainer;
if (targetInst !== null) {
var node = targetInst;
mainLoop:
while (true) {
if (node === null) {
return;
}
var nodeTag = node.tag;
if (nodeTag === HostRoot || nodeTag === HostPortal) {
var container = node.stateNode.containerInfo;
if (isMatchingRootContainer(container, targetContainerNode)) {
break;
}
if (nodeTag === HostPortal) {
var grandNode = node.return;
while (grandNode !== null) {
var grandTag = grandNode.tag;
if (grandTag === HostRoot || grandTag === HostPortal) {
var grandContainer = grandNode.stateNode.containerInfo;
if (isMatchingRootContainer(grandContainer, targetContainerNode)) {
return;
}
}
grandNode = grandNode.return;
}
}
while (container !== null) {
var parentNode = getClosestInstanceFromNode(container);
if (parentNode === null) {
return;
}
var parentTag = parentNode.tag;
if (parentTag === HostComponent || parentTag === HostText) {
node = ancestorInst = parentNode;
continue mainLoop;
}
container = container.parentNode;
}
}
node = node.return;
}
}
}
batchedUpdates(function() {
return dispatchEventsForPlugins(domEventName, eventSystemFlags, nativeEvent, ancestorInst);
});
}
function createDispatchListener(instance, listener, currentTarget) {
return {
instance,
listener,
currentTarget
};
}
function accumulateSinglePhaseListeners(targetFiber, reactName, nativeEventType, inCapturePhase, accumulateTargetOnly, nativeEvent) {
var captureName = reactName !== null ? reactName + "Capture" : null;
var reactEventName = inCapturePhase ? captureName : reactName;
var listeners = [];
var instance = targetFiber;
var lastHostComponent = null;
while (instance !== null) {
var _instance2 = instance, stateNode = _instance2.stateNode, tag = _instance2.tag;
if (tag === HostComponent && stateNode !== null) {
lastHostComponent = stateNode;
if (reactEventName !== null) {
var listener = getListener(instance, reactEventName);
if (listener != null) {
listeners.push(createDispatchListener(instance, listener, lastHostComponent));
}
}
}
if (accumulateTargetOnly) {
break;
}
instance = instance.return;
}
return listeners;
}
function accumulateTwoPhaseListeners(targetFiber, reactName) {
var captureName = reactName + "Capture";
var listeners = [];
var instance = targetFiber;
while (instance !== null) {
var _instance3 = instance, stateNode = _instance3.stateNode, tag = _instance3.tag;
if (tag === HostComponent && stateNode !== null) {
var currentTarget = stateNode;
var captureListener = getListener(instance, captureName);
if (captureListener != null) {
listeners.unshift(createDispatchListener(instance, captureListener, currentTarget));
}
var bubbleListener = getListener(instance, reactName);
if (bubbleListener != null) {
listeners.push(createDispatchListener(instance, bubbleListener, currentTarget));
}
}
instance = instance.return;
}
return listeners;
}
function getParent(inst) {
if (inst === null) {
return null;
}
do {
inst = inst.return;
} while (inst && inst.tag !== HostComponent);
if (inst) {
return inst;
}
return null;
}
function getLowestCommonAncestor(instA, instB) {
var nodeA = instA;
var nodeB = instB;
var depthA = 0;
for (var tempA = nodeA; tempA; tempA = getParent(tempA)) {
depthA++;
}
var depthB = 0;
for (var tempB = nodeB; tempB; tempB = getParent(tempB)) {
depthB++;
}
while (depthA - depthB > 0) {
nodeA = getParent(nodeA);
depthA--;
}
while (depthB - depthA > 0) {
nodeB = getParent(nodeB);
depthB--;
}
var depth = depthA;
while (depth--) {
if (nodeA === nodeB || nodeB !== null && nodeA === nodeB.alternate) {
return nodeA;
}
nodeA = getParent(nodeA);
nodeB = getParent(nodeB);
}
return null;
}
function accumulateEnterLeaveListenersForEvent(dispatchQueue, event, target, common, inCapturePhase) {
var registrationName = event._reactName;
var listeners = [];
var instance = target;
while (instance !== null) {
if (instance === common) {
break;
}
var _instance4 = instance, alternate = _instance4.alternate, stateNode = _instance4.stateNode, tag = _instance4.tag;
if (alternate !== null && alternate === common) {
break;
}
if (tag === HostComponent && stateNode !== null) {
var currentTarget = stateNode;
if (inCapturePhase) {
var captureListener = getListener(instance, registrationName);
if (captureListener != null) {
listeners.unshift(createDispatchListener(instance, captureListener, currentTarget));
}
} else if (!inCapturePhase) {
var bubbleListener = getListener(instance, registrationName);
if (bubbleListener != null) {
listeners.push(createDispatchListener(instance, bubbleListener, currentTarget));
}
}
}
instance = instance.return;
}
if (listeners.length !== 0) {
dispatchQueue.push({
event,
listeners
});
}
}
function accumulateEnterLeaveTwoPhaseListeners(dispatchQueue, leaveEvent, enterEvent, from, to) {
var common = from && to ? getLowestCommonAncestor(from, to) : null;
if (from !== null) {
accumulateEnterLeaveListenersForEvent(dispatchQueue, leaveEvent, from, common, false);
}
if (to !== null && enterEvent !== null) {
accumulateEnterLeaveListenersForEvent(dispatchQueue, enterEvent, to, common, true);
}
}
function getListenerSetKey(domEventName, capture) {
return domEventName + "__" + (capture ? "capture" : "bubble");
}
var didWarnInvalidHydration = false;
var DANGEROUSLY_SET_INNER_HTML = "dangerouslySetInnerHTML";
var SUPPRESS_CONTENT_EDITABLE_WARNING = "suppressContentEditableWarning";
var SUPPRESS_HYDRATION_WARNING = "suppressHydrationWarning";
var AUTOFOCUS = "autoFocus";
var CHILDREN = "children";
var STYLE = "style";
var HTML$1 = "__html";
var warnedUnknownTags;
var validatePropertiesInDevelopment;
var warnForPropDifference;
var warnForExtraAttributes;
var warnForInvalidEventListener;
var canDiffStyleForHydrationWarning;
var normalizeHTML;
{
warnedUnknownTags = {
// There are working polyfills for <dialog>. Let people use it.
dialog: true,
// Electron ships a custom <webview> tag to display external web content in
// an isolated frame and process.
// This tag is not present in non Electron environments such as JSDom which
// is often used for testing purposes.
// @see https://electronjs.org/docs/api/webview-tag
webview: true
};
validatePropertiesInDevelopment = function(type, props) {
validateProperties(type, props);
validateProperties$1(type, props);
validateProperties$2(type, props, {
registrationNameDependencies,
possibleRegistrationNames
});
};
canDiffStyleForHydrationWarning = canUseDOM && !document.documentMode;
warnForPropDifference = function(propName, serverValue, clientValue) {
if (didWarnInvalidHydration) {
return;
}
var normalizedClientValue = normalizeMarkupForTextOrAttribute(clientValue);
var normalizedServerValue = normalizeMarkupForTextOrAttribute(serverValue);
if (normalizedServerValue === normalizedClientValue) {
return;
}
didWarnInvalidHydration = true;
error("Prop `%s` did not match. Server: %s Client: %s", propName, JSON.stringify(normalizedServerValue), JSON.stringify(normalizedClientValue));
};
warnForExtraAttributes = function(attributeNames) {
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
var names = [];
attributeNames.forEach(function(name) {
names.push(name);
});
error("Extra attributes from the server: %s", names);
};
warnForInvalidEventListener = function(registrationName, listener) {
if (listener === false) {
error("Expected `%s` listener to be a function, instead got `false`.\n\nIf you used to conditionally omit it with %s={condition && value}, pass %s={condition ? value : undefined} instead.", registrationName, registrationName, registrationName);
} else {
error("Expected `%s` listener to be a function, instead got a value of `%s` type.", registrationName, typeof listener);
}
};
normalizeHTML = function(parent, html) {
var testElement = parent.namespaceURI === HTML_NAMESPACE ? parent.ownerDocument.createElement(parent.tagName) : parent.ownerDocument.createElementNS(parent.namespaceURI, parent.tagName);
testElement.innerHTML = html;
return testElement.innerHTML;
};
}
var NORMALIZE_NEWLINES_REGEX = /\r\n?/g;
var NORMALIZE_NULL_AND_REPLACEMENT_REGEX = /\u0000|\uFFFD/g;
function normalizeMarkupForTextOrAttribute(markup) {
{
checkHtmlStringCoercion(markup);
}
var markupString = typeof markup === "string" ? markup : "" + markup;
return markupString.replace(NORMALIZE_NEWLINES_REGEX, "\n").replace(NORMALIZE_NULL_AND_REPLACEMENT_REGEX, "");
}
function checkForUnmatchedText(serverText, clientText, isConcurrentMode, shouldWarnDev) {
var normalizedClientText = normalizeMarkupForTextOrAttribute(clientText);
var normalizedServerText = normalizeMarkupForTextOrAttribute(serverText);
if (normalizedServerText === normalizedClientText) {
return;
}
if (shouldWarnDev) {
{
if (!didWarnInvalidHydration) {
didWarnInvalidHydration = true;
error('Text content did not match. Server: "%s" Client: "%s"', normalizedServerText, normalizedClientText);
}
}
}
if (isConcurrentMode && enableClientRenderFallbackOnTextMismatch) {
throw new Error("Text content does not match server-rendered HTML.");
}
}
function getOwnerDocumentFromRootContainer(rootContainerElement) {
return rootContainerElement.nodeType === DOCUMENT_NODE ? rootContainerElement : rootContainerElement.ownerDocument;
}
function noop() {
}
function trapClickOnNonInteractiveElement(node) {
node.onclick = noop;
}
function setInitialDOMProperties(tag, domElement, rootContainerElement, nextProps, isCustomComponentTag) {
for (var propKey in nextProps) {
if (!nextProps.hasOwnProperty(propKey)) {
continue;
}
var nextProp = nextProps[propKey];
if (propKey === STYLE) {
{
if (nextProp) {
Object.freeze(nextProp);
}
}
setValueForStyles(domElement, nextProp);
} else if (propKey === DANGEROUSLY_SET_INNER_HTML) {
var nextHtml = nextProp ? nextProp[HTML$1] : void 0;
if (nextHtml != null) {
setInnerHTML(domElement, nextHtml);
}
} else if (propKey === CHILDREN) {
if (typeof nextProp === "string") {
var canSetTextContent = tag !== "textarea" || nextProp !== "";
if (canSetTextContent) {
setTextContent(domElement, nextProp);
}
} else if (typeof nextProp === "number") {
setTextContent(domElement, "" + nextProp);
}
} else if (propKey === SUPPRESS_CONTENT_EDITABLE_WARNING || propKey === SUPPRESS_HYDRATION_WARNING)
;
else if (propKey === AUTOFOCUS)
;
else if (registrationNameDependencies.hasOwnProperty(propKey)) {
if (nextProp != null) {
if (typeof nextProp !== "function") {
warnForInvalidEventListener(propKey, nextProp);
}
if (propKey === "onScroll") {
listenToNonDelegatedEvent("scroll", domElement);
}
}
} else if (nextProp != null) {
setValueForProperty(domElement, propKey, nextProp, isCustomComponentTag);
}
}
}
function updateDOMProperties(domElement, updatePayload, wasCustomComponentTag, isCustomComponentTag) {
for (var i = 0; i < updatePayload.length; i += 2) {
var propKey = updatePayload[i];
var propValue = updatePayload[i + 1];
if (propKey === STYLE) {
setValueForStyles(domElement, propValue);
} else if (propKey === DANGEROUSLY_SET_INNER_HTML) {
setInnerHTML(domElement, propValue);
} else if (propKey === CHILDREN) {
setTextContent(domElement, propValue);
} else {
setValueForProperty(domElement, propKey, propValue, isCustomComponentTag);
}
}
}
function createElement13(type, props, rootContainerElement, parentNamespace) {
var isCustomComponentTag;
var ownerDocument = getOwnerDocumentFromRootContainer(rootContainerElement);
var domElement;
var namespaceURI = parentNamespace;
if (namespaceURI === HTML_NAMESPACE) {
namespaceURI = getIntrinsicNamespace(type);
}
if (namespaceURI === HTML_NAMESPACE) {
{
isCustomComponentTag = isCustomComponent(type, props);
if (!isCustomComponentTag && type !== type.toLowerCase()) {
error("<%s /> is using incorrect casing. Use PascalCase for React components, or lowercase for HTML elements.", type);
}
}
if (type === "script") {
var div = ownerDocument.createElement("div");
div.innerHTML = "<script><\/script>";
var firstChild = div.firstChild;
domElement = div.removeChild(firstChild);
} else if (typeof props.is === "string") {
domElement = ownerDocument.createElement(type, {
is: props.is
});
} else {
domElement = ownerDocument.createElement(type);
if (type === "select") {
var node = domElement;
if (props.multiple) {
node.multiple = true;
} else if (props.size) {
node.size = props.size;
}
}
}
} else {
domElement = ownerDocument.createElementNS(namespaceURI, type);
}
{
if (namespaceURI === HTML_NAMESPACE) {
if (!isCustomComponentTag && Object.prototype.toString.call(domElement) === "[object HTMLUnknownElement]" && !hasOwnProperty.call(warnedUnknownTags, type)) {
warnedUnknownTags[type] = true;
error("The tag <%s> is unrecognized in this browser. If you meant to render a React component, start its name with an uppercase letter.", type);
}
}
}
return domElement;
}
function createTextNode(text, rootContainerElement) {
return getOwnerDocumentFromRootContainer(rootContainerElement).createTextNode(text);
}
function setInitialProperties(domElement, tag, rawProps, rootContainerElement) {
var isCustomComponentTag = isCustomComponent(tag, rawProps);
{
validatePropertiesInDevelopment(tag, rawProps);
}
var props;
switch (tag) {
case "dialog":
listenToNonDelegatedEvent("cancel", domElement);
listenToNonDelegatedEvent("close", domElement);
props = rawProps;
break;
case "iframe":
case "object":
case "embed":
listenToNonDelegatedEvent("load", domElement);
props = rawProps;
break;
case "video":
case "audio":
for (var i = 0; i < mediaEventTypes.length; i++) {
listenToNonDelegatedEvent(mediaEventTypes[i], domElement);
}
props = rawProps;
break;
case "source":
listenToNonDelegatedEvent("error", domElement);
props = rawProps;
break;
case "img":
case "image":
case "link":
listenToNonDelegatedEvent("error", domElement);
listenToNonDelegatedEvent("load", domElement);
props = rawProps;
break;
case "details":
listenToNonDelegatedEvent("toggle", domElement);
props = rawProps;
break;
case "input":
initWrapperState(domElement, rawProps);
props = getHostProps(domElement, rawProps);
listenToNonDelegatedEvent("invalid", domElement);
break;
case "option":
validateProps(domElement, rawProps);
props = rawProps;
break;
case "select":
initWrapperState$1(domElement, rawProps);
props = getHostProps$1(domElement, rawProps);
listenToNonDelegatedEvent("invalid", domElement);
break;
case "textarea":
initWrapperState$2(domElement, rawProps);
props = getHostProps$2(domElement, rawProps);
listenToNonDelegatedEvent("invalid", domElement);
break;
default:
props = rawProps;
}
assertValidProps(tag, props);
setInitialDOMProperties(tag, domElement, rootContainerElement, props, isCustomComponentTag);
switch (tag) {
case "input":
track(domElement);
postMountWrapper(domElement, rawProps, false);
break;
case "textarea":
track(domElement);
postMountWrapper$3(domElement);
break;
case "option":
postMountWrapper$1(domElement, rawProps);
break;
case "select":
postMountWrapper$2(domElement, rawProps);
break;
default:
if (typeof props.onClick === "function") {
trapClickOnNonInteractiveElement(domElement);
}
break;
}
}
function diffProperties(domElement, tag, lastRawProps, nextRawProps, rootContainerElement) {
{
validatePropertiesInDevelopment(tag, nextRawProps);
}
var updatePayload = null;
var lastProps;
var nextProps;
switch (tag) {
case "input":
lastProps = getHostProps(domElement, lastRawProps);
nextProps = getHostProps(domElement, nextRawProps);
updatePayload = [];
break;
case "select":
lastProps = getHostProps$1(domElement, lastRawProps);
nextProps = getHostProps$1(domElement, nextRawProps);
updatePayload = [];
break;
case "textarea":
lastProps = getHostProps$2(domElement, lastRawProps);
nextProps = getHostProps$2(domElement, nextRawProps);
updatePayload = [];
break;
default:
lastProps = lastRawProps;
nextProps = nextRawProps;
if (typeof lastProps.onClick !== "function" && typeof nextProps.onClick === "function") {
trapClickOnNonInteractiveElement(domElement);
}
break;
}
assertValidProps(tag, nextProps);
var propKey;
var styleName;
var styleUpdates = null;
for (propKey in lastProps) {
if (nextProps.hasOwnProperty(propKey) || !lastProps.hasOwnProperty(propKey) || lastProps[propKey] == null) {
continue;
}
if (propKey === STYLE) {
var lastStyle = lastProps[propKey];
for (styleName in lastStyle) {
if (lastStyle.hasOwnProperty(styleName)) {
if (!styleUpdates) {
styleUpdates = {};
}
styleUpdates[styleName] = "";
}
}
} else if (propKey === DANGEROUSLY_SET_INNER_HTML || propKey === CHILDREN)
;
else if (propKey === SUPPRESS_CONTENT_EDITABLE_WARNING || propKey === SUPPRESS_HYDRATION_WARNING)
;
else if (propKey === AUTOFOCUS)
;
else if (registrationNameDependencies.hasOwnProperty(propKey)) {
if (!updatePayload) {
updatePayload = [];
}
} else {
(updatePayload = updatePayload || []).push(propKey, null);
}
}
for (propKey in nextProps) {
var nextProp = nextProps[propKey];
var lastProp = lastProps != null ? lastProps[propKey] : void 0;
if (!nextProps.hasOwnProperty(propKey) || nextProp === lastProp || nextProp == null && lastProp == null) {
continue;
}
if (propKey === STYLE) {
{
if (nextProp) {
Object.freeze(nextProp);
}
}
if (lastProp) {
for (styleName in lastProp) {
if (lastProp.hasOwnProperty(styleName) && (!nextProp || !nextProp.hasOwnProperty(styleName))) {
if (!styleUpdates) {
styleUpdates = {};
}
styleUpdates[styleName] = "";
}
}
for (styleName in nextProp) {
if (nextProp.hasOwnProperty(styleName) && lastProp[styleName] !== nextProp[styleName]) {
if (!styleUpdates) {
styleUpdates = {};
}
styleUpdates[styleName] = nextProp[styleName];
}
}
} else {
if (!styleUpdates) {
if (!updatePayload) {
updatePayload = [];
}
updatePayload.push(propKey, styleUpdates);
}
styleUpdates = nextProp;
}
} else if (propKey === DANGEROUSLY_SET_INNER_HTML) {
var nextHtml = nextProp ? nextProp[HTML$1] : void 0;
var lastHtml = lastProp ? lastProp[HTML$1] : void 0;
if (nextHtml != null) {
if (lastHtml !== nextHtml) {
(updatePayload = updatePayload || []).push(propKey, nextHtml);
}
}
} else if (propKey === CHILDREN) {
if (typeof nextProp === "string" || typeof nextProp === "number") {
(updatePayload = updatePayload || []).push(propKey, "" + nextProp);
}
} else if (propKey === SUPPRESS_CONTENT_EDITABLE_WARNING || propKey === SUPPRESS_HYDRATION_WARNING)
;
else if (registrationNameDependencies.hasOwnProperty(propKey)) {
if (nextProp != null) {
if (typeof nextProp !== "function") {
warnForInvalidEventListener(propKey, nextProp);
}
if (propKey === "onScroll") {
listenToNonDelegatedEvent("scroll", domElement);
}
}
if (!updatePayload && lastProp !== nextProp) {
updatePayload = [];
}
} else {
(updatePayload = updatePayload || []).push(propKey, nextProp);
}
}
if (styleUpdates) {
{
validateShorthandPropertyCollisionInDev(styleUpdates, nextProps[STYLE]);
}
(updatePayload = updatePayload || []).push(STYLE, styleUpdates);
}
return updatePayload;
}
function updateProperties(domElement, updatePayload, tag, lastRawProps, nextRawProps) {
if (tag === "input" && nextRawProps.type === "radio" && nextRawProps.name != null) {
updateChecked(domElement, nextRawProps);
}
var wasCustomComponentTag = isCustomComponent(tag, lastRawProps);
var isCustomComponentTag = isCustomComponent(tag, nextRawProps);
updateDOMProperties(domElement, updatePayload, wasCustomComponentTag, isCustomComponentTag);
switch (tag) {
case "input":
updateWrapper(domElement, nextRawProps);
break;
case "textarea":
updateWrapper$1(domElement, nextRawProps);
break;
case "select":
postUpdateWrapper(domElement, nextRawProps);
break;
}
}
function getPossibleStandardName(propName) {
{
var lowerCasedName = propName.toLowerCase();
if (!possibleStandardNames.hasOwnProperty(lowerCasedName)) {
return null;
}
return possibleStandardNames[lowerCasedName] || null;
}
}
function diffHydratedProperties(domElement, tag, rawProps, parentNamespace, rootContainerElement, isConcurrentMode, shouldWarnDev) {
var isCustomComponentTag;
var extraAttributeNames;
{
isCustomComponentTag = isCustomComponent(tag, rawProps);
validatePropertiesInDevelopment(tag, rawProps);
}
switch (tag) {
case "dialog":
listenToNonDelegatedEvent("cancel", domElement);
listenToNonDelegatedEvent("close", domElement);
break;
case "iframe":
case "object":
case "embed":
listenToNonDelegatedEvent("load", domElement);
break;
case "video":
case "audio":
for (var i = 0; i < mediaEventTypes.length; i++) {
listenToNonDelegatedEvent(mediaEventTypes[i], domElement);
}
break;
case "source":
listenToNonDelegatedEvent("error", domElement);
break;
case "img":
case "image":
case "link":
listenToNonDelegatedEvent("error", domElement);
listenToNonDelegatedEvent("load", domElement);
break;
case "details":
listenToNonDelegatedEvent("toggle", domElement);
break;
case "input":
initWrapperState(domElement, rawProps);
listenToNonDelegatedEvent("invalid", domElement);
break;
case "option":
validateProps(domElement, rawProps);
break;
case "select":
initWrapperState$1(domElement, rawProps);
listenToNonDelegatedEvent("invalid", domElement);
break;
case "textarea":
initWrapperState$2(domElement, rawProps);
listenToNonDelegatedEvent("invalid", domElement);
break;
}
assertValidProps(tag, rawProps);
{
extraAttributeNames = /* @__PURE__ */ new Set();
var attributes = domElement.attributes;
for (var _i = 0; _i < attributes.length; _i++) {
var name = attributes[_i].name.toLowerCase();
switch (name) {
case "value":
break;
case "checked":
break;
case "selected":
break;
default:
extraAttributeNames.add(attributes[_i].name);
}
}
}
var updatePayload = null;
for (var propKey in rawProps) {
if (!rawProps.hasOwnProperty(propKey)) {
continue;
}
var nextProp = rawProps[propKey];
if (propKey === CHILDREN) {
if (typeof nextProp === "string") {
if (domElement.textContent !== nextProp) {
if (rawProps[SUPPRESS_HYDRATION_WARNING] !== true) {
checkForUnmatchedText(domElement.textContent, nextProp, isConcurrentMode, shouldWarnDev);
}
updatePayload = [CHILDREN, nextProp];
}
} else if (typeof nextProp === "number") {
if (domElement.textContent !== "" + nextProp) {
if (rawProps[SUPPRESS_HYDRATION_WARNING] !== true) {
checkForUnmatchedText(domElement.textContent, nextProp, isConcurrentMode, shouldWarnDev);
}
updatePayload = [CHILDREN, "" + nextProp];
}
}
} else if (registrationNameDependencies.hasOwnProperty(propKey)) {
if (nextProp != null) {
if (typeof nextProp !== "function") {
warnForInvalidEventListener(propKey, nextProp);
}
if (propKey === "onScroll") {
listenToNonDelegatedEvent("scroll", domElement);
}
}
} else if (shouldWarnDev && true && // Convince Flow we've calculated it (it's DEV-only in this method.)
typeof isCustomComponentTag === "boolean") {
var serverValue = void 0;
var propertyInfo = isCustomComponentTag && enableCustomElementPropertySupport ? null : getPropertyInfo(propKey);
if (rawProps[SUPPRESS_HYDRATION_WARNING] === true)
;
else if (propKey === SUPPRESS_CONTENT_EDITABLE_WARNING || propKey === SUPPRESS_HYDRATION_WARNING || // Controlled attributes are not validated
// TODO: Only ignore them on controlled tags.
propKey === "value" || propKey === "checked" || propKey === "selected")
;
else if (propKey === DANGEROUSLY_SET_INNER_HTML) {
var serverHTML = domElement.innerHTML;
var nextHtml = nextProp ? nextProp[HTML$1] : void 0;
if (nextHtml != null) {
var expectedHTML = normalizeHTML(domElement, nextHtml);
if (expectedHTML !== serverHTML) {
warnForPropDifference(propKey, serverHTML, expectedHTML);
}
}
} else if (propKey === STYLE) {
extraAttributeNames.delete(propKey);
if (canDiffStyleForHydrationWarning) {
var expectedStyle = createDangerousStringForStyles(nextProp);
serverValue = domElement.getAttribute("style");
if (expectedStyle !== serverValue) {
warnForPropDifference(propKey, serverValue, expectedStyle);
}
}
} else if (isCustomComponentTag && !enableCustomElementPropertySupport) {
extraAttributeNames.delete(propKey.toLowerCase());
serverValue = getValueForAttribute(domElement, propKey, nextProp);
if (nextProp !== serverValue) {
warnForPropDifference(propKey, serverValue, nextProp);
}
} else if (!shouldIgnoreAttribute(propKey, propertyInfo, isCustomComponentTag) && !shouldRemoveAttribute(propKey, nextProp, propertyInfo, isCustomComponentTag)) {
var isMismatchDueToBadCasing = false;
if (propertyInfo !== null) {
extraAttributeNames.delete(propertyInfo.attributeName);
serverValue = getValueForProperty(domElement, propKey, nextProp, propertyInfo);
} else {
var ownNamespace = parentNamespace;
if (ownNamespace === HTML_NAMESPACE) {
ownNamespace = getIntrinsicNamespace(tag);
}
if (ownNamespace === HTML_NAMESPACE) {
extraAttributeNames.delete(propKey.toLowerCase());
} else {
var standardName = getPossibleStandardName(propKey);
if (standardName !== null && standardName !== propKey) {
isMismatchDueToBadCasing = true;
extraAttributeNames.delete(standardName);
}
extraAttributeNames.delete(propKey);
}
serverValue = getValueForAttribute(domElement, propKey, nextProp);
}
var dontWarnCustomElement = enableCustomElementPropertySupport;
if (!dontWarnCustomElement && nextProp !== serverValue && !isMismatchDueToBadCasing) {
warnForPropDifference(propKey, serverValue, nextProp);
}
}
}
}
{
if (shouldWarnDev) {
if (
// $FlowFixMe - Should be inferred as not undefined.
extraAttributeNames.size > 0 && rawProps[SUPPRESS_HYDRATION_WARNING] !== true
) {
warnForExtraAttributes(extraAttributeNames);
}
}
}
switch (tag) {
case "input":
track(domElement);
postMountWrapper(domElement, rawProps, true);
break;
case "textarea":
track(domElement);
postMountWrapper$3(domElement);
break;
case "select":
case "option":
break;
default:
if (typeof rawProps.onClick === "function") {
trapClickOnNonInteractiveElement(domElement);
}
break;
}
return updatePayload;
}
function diffHydratedText(textNode, text, isConcurrentMode) {
var isDifferent = textNode.nodeValue !== text;
return isDifferent;
}
function warnForDeletedHydratableElement(parentNode, child) {
{
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
error("Did not expect server HTML to contain a <%s> in <%s>.", child.nodeName.toLowerCase(), parentNode.nodeName.toLowerCase());
}
}
function warnForDeletedHydratableText(parentNode, child) {
{
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
error('Did not expect server HTML to contain the text node "%s" in <%s>.', child.nodeValue, parentNode.nodeName.toLowerCase());
}
}
function warnForInsertedHydratedElement(parentNode, tag, props) {
{
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
error("Expected server HTML to contain a matching <%s> in <%s>.", tag, parentNode.nodeName.toLowerCase());
}
}
function warnForInsertedHydratedText(parentNode, text) {
{
if (text === "") {
return;
}
if (didWarnInvalidHydration) {
return;
}
didWarnInvalidHydration = true;
error('Expected server HTML to contain a matching text node for "%s" in <%s>.', text, parentNode.nodeName.toLowerCase());
}
}
function restoreControlledState$3(domElement, tag, props) {
switch (tag) {
case "input":
restoreControlledState(domElement, props);
return;
case "textarea":
restoreControlledState$2(domElement, props);
return;
case "select":
restoreControlledState$1(domElement, props);
return;
}
}
var validateDOMNesting = function() {
};
var updatedAncestorInfo = function() {
};
{
var specialTags = ["address", "applet", "area", "article", "aside", "base", "basefont", "bgsound", "blockquote", "body", "br", "button", "caption", "center", "col", "colgroup", "dd", "details", "dir", "div", "dl", "dt", "embed", "fieldset", "figcaption", "figure", "footer", "form", "frame", "frameset", "h1", "h2", "h3", "h4", "h5", "h6", "head", "header", "hgroup", "hr", "html", "iframe", "img", "input", "isindex", "li", "link", "listing", "main", "marquee", "menu", "menuitem", "meta", "nav", "noembed", "noframes", "noscript", "object", "ol", "p", "param", "plaintext", "pre", "script", "section", "select", "source", "style", "summary", "table", "tbody", "td", "template", "textarea", "tfoot", "th", "thead", "title", "tr", "track", "ul", "wbr", "xmp"];
var inScopeTags = [
"applet",
"caption",
"html",
"table",
"td",
"th",
"marquee",
"object",
"template",
// https://html.spec.whatwg.org/multipage/syntax.html#html-integration-point
// TODO: Distinguish by namespace here -- for <title>, including it here
// errs on the side of fewer warnings
"foreignObject",
"desc",
"title"
];
var buttonScopeTags = inScopeTags.concat(["button"]);
var impliedEndTags = ["dd", "dt", "li", "option", "optgroup", "p", "rp", "rt"];
var emptyAncestorInfo = {
current: null,
formTag: null,
aTagInScope: null,
buttonTagInScope: null,
nobrTagInScope: null,
pTagInButtonScope: null,
listItemTagAutoclosing: null,
dlItemTagAutoclosing: null
};
updatedAncestorInfo = function(oldInfo, tag) {
var ancestorInfo = assign({}, oldInfo || emptyAncestorInfo);
var info = {
tag
};
if (inScopeTags.indexOf(tag) !== -1) {
ancestorInfo.aTagInScope = null;
ancestorInfo.buttonTagInScope = null;
ancestorInfo.nobrTagInScope = null;
}
if (buttonScopeTags.indexOf(tag) !== -1) {
ancestorInfo.pTagInButtonScope = null;
}
if (specialTags.indexOf(tag) !== -1 && tag !== "address" && tag !== "div" && tag !== "p") {
ancestorInfo.listItemTagAutoclosing = null;
ancestorInfo.dlItemTagAutoclosing = null;
}
ancestorInfo.current = info;
if (tag === "form") {
ancestorInfo.formTag = info;
}
if (tag === "a") {
ancestorInfo.aTagInScope = info;
}
if (tag === "button") {
ancestorInfo.buttonTagInScope = info;
}
if (tag === "nobr") {
ancestorInfo.nobrTagInScope = info;
}
if (tag === "p") {
ancestorInfo.pTagInButtonScope = info;
}
if (tag === "li") {
ancestorInfo.listItemTagAutoclosing = info;
}
if (tag === "dd" || tag === "dt") {
ancestorInfo.dlItemTagAutoclosing = info;
}
return ancestorInfo;
};
var isTagValidWithParent = function(tag, parentTag) {
switch (parentTag) {
case "select":
return tag === "option" || tag === "optgroup" || tag === "#text";
case "optgroup":
return tag === "option" || tag === "#text";
case "option":
return tag === "#text";
case "tr":
return tag === "th" || tag === "td" || tag === "style" || tag === "script" || tag === "template";
case "tbody":
case "thead":
case "tfoot":
return tag === "tr" || tag === "style" || tag === "script" || tag === "template";
case "colgroup":
return tag === "col" || tag === "template";
case "table":
return tag === "caption" || tag === "colgroup" || tag === "tbody" || tag === "tfoot" || tag === "thead" || tag === "style" || tag === "script" || tag === "template";
case "head":
return tag === "base" || tag === "basefont" || tag === "bgsound" || tag === "link" || tag === "meta" || tag === "title" || tag === "noscript" || tag === "noframes" || tag === "style" || tag === "script" || tag === "template";
case "html":
return tag === "head" || tag === "body" || tag === "frameset";
case "frameset":
return tag === "frame";
case "#document":
return tag === "html";
}
switch (tag) {
case "h1":
case "h2":
case "h3":
case "h4":
case "h5":
case "h6":
return parentTag !== "h1" && parentTag !== "h2" && parentTag !== "h3" && parentTag !== "h4" && parentTag !== "h5" && parentTag !== "h6";
case "rp":
case "rt":
return impliedEndTags.indexOf(parentTag) === -1;
case "body":
case "caption":
case "col":
case "colgroup":
case "frameset":
case "frame":
case "head":
case "html":
case "tbody":
case "td":
case "tfoot":
case "th":
case "thead":
case "tr":
return parentTag == null;
}
return true;
};
var findInvalidAncestorForTag = function(tag, ancestorInfo) {
switch (tag) {
case "address":
case "article":
case "aside":
case "blockquote":
case "center":
case "details":
case "dialog":
case "dir":
case "div":
case "dl":
case "fieldset":
case "figcaption":
case "figure":
case "footer":
case "header":
case "hgroup":
case "main":
case "menu":
case "nav":
case "ol":
case "p":
case "section":
case "summary":
case "ul":
case "pre":
case "listing":
case "table":
case "hr":
case "xmp":
case "h1":
case "h2":
case "h3":
case "h4":
case "h5":
case "h6":
return ancestorInfo.pTagInButtonScope;
case "form":
return ancestorInfo.formTag || ancestorInfo.pTagInButtonScope;
case "li":
return ancestorInfo.listItemTagAutoclosing;
case "dd":
case "dt":
return ancestorInfo.dlItemTagAutoclosing;
case "button":
return ancestorInfo.buttonTagInScope;
case "a":
return ancestorInfo.aTagInScope;
case "nobr":
return ancestorInfo.nobrTagInScope;
}
return null;
};
var didWarn$1 = {};
validateDOMNesting = function(childTag, childText, ancestorInfo) {
ancestorInfo = ancestorInfo || emptyAncestorInfo;
var parentInfo = ancestorInfo.current;
var parentTag = parentInfo && parentInfo.tag;
if (childText != null) {
if (childTag != null) {
error("validateDOMNesting: when childText is passed, childTag should be null");
}
childTag = "#text";
}
var invalidParent = isTagValidWithParent(childTag, parentTag) ? null : parentInfo;
var invalidAncestor = invalidParent ? null : findInvalidAncestorForTag(childTag, ancestorInfo);
var invalidParentOrAncestor = invalidParent || invalidAncestor;
if (!invalidParentOrAncestor) {
return;
}
var ancestorTag = invalidParentOrAncestor.tag;
var warnKey = !!invalidParent + "|" + childTag + "|" + ancestorTag;
if (didWarn$1[warnKey]) {
return;
}
didWarn$1[warnKey] = true;
var tagDisplayName = childTag;
var whitespaceInfo = "";
if (childTag === "#text") {
if (/\S/.test(childText)) {
tagDisplayName = "Text nodes";
} else {
tagDisplayName = "Whitespace text nodes";
whitespaceInfo = " Make sure you don't have any extra whitespace between tags on each line of your source code.";
}
} else {
tagDisplayName = "<" + childTag + ">";
}
if (invalidParent) {
var info = "";
if (ancestorTag === "table" && childTag === "tr") {
info += " Add a <tbody>, <thead> or <tfoot> to your code to match the DOM tree generated by the browser.";
}
error("validateDOMNesting(...): %s cannot appear as a child of <%s>.%s%s", tagDisplayName, ancestorTag, whitespaceInfo, info);
} else {
error("validateDOMNesting(...): %s cannot appear as a descendant of <%s>.", tagDisplayName, ancestorTag);
}
};
}
var SUPPRESS_HYDRATION_WARNING$1 = "suppressHydrationWarning";
var SUSPENSE_START_DATA = "$";
var SUSPENSE_END_DATA = "/$";
var SUSPENSE_PENDING_START_DATA = "$?";
var SUSPENSE_FALLBACK_START_DATA = "$!";
var STYLE$1 = "style";
var eventsEnabled = null;
var selectionInformation = null;
function getRootHostContext(rootContainerInstance) {
var type;
var namespace;
var nodeType = rootContainerInstance.nodeType;
switch (nodeType) {
case DOCUMENT_NODE:
case DOCUMENT_FRAGMENT_NODE: {
type = nodeType === DOCUMENT_NODE ? "#document" : "#fragment";
var root2 = rootContainerInstance.documentElement;
namespace = root2 ? root2.namespaceURI : getChildNamespace(null, "");
break;
}
default: {
var container = nodeType === COMMENT_NODE ? rootContainerInstance.parentNode : rootContainerInstance;
var ownNamespace = container.namespaceURI || null;
type = container.tagName;
namespace = getChildNamespace(ownNamespace, type);
break;
}
}
{
var validatedTag = type.toLowerCase();
var ancestorInfo = updatedAncestorInfo(null, validatedTag);
return {
namespace,
ancestorInfo
};
}
}
function getChildHostContext(parentHostContext, type, rootContainerInstance) {
{
var parentHostContextDev = parentHostContext;
var namespace = getChildNamespace(parentHostContextDev.namespace, type);
var ancestorInfo = updatedAncestorInfo(parentHostContextDev.ancestorInfo, type);
return {
namespace,
ancestorInfo
};
}
}
function getPublicInstance(instance) {
return instance;
}
function prepareForCommit(containerInfo) {
eventsEnabled = isEnabled();
selectionInformation = getSelectionInformation();
var activeInstance = null;
setEnabled(false);
return activeInstance;
}
function resetAfterCommit(containerInfo) {
restoreSelection(selectionInformation);
setEnabled(eventsEnabled);
eventsEnabled = null;
selectionInformation = null;
}
function createInstance(type, props, rootContainerInstance, hostContext, internalInstanceHandle) {
var parentNamespace;
{
var hostContextDev = hostContext;
validateDOMNesting(type, null, hostContextDev.ancestorInfo);
if (typeof props.children === "string" || typeof props.children === "number") {
var string = "" + props.children;
var ownAncestorInfo = updatedAncestorInfo(hostContextDev.ancestorInfo, type);
validateDOMNesting(null, string, ownAncestorInfo);
}
parentNamespace = hostContextDev.namespace;
}
var domElement = createElement13(type, props, rootContainerInstance, parentNamespace);
precacheFiberNode(internalInstanceHandle, domElement);
updateFiberProps(domElement, props);
return domElement;
}
function appendInitialChild(parentInstance, child) {
parentInstance.appendChild(child);
}
function finalizeInitialChildren(domElement, type, props, rootContainerInstance, hostContext) {
setInitialProperties(domElement, type, props, rootContainerInstance);
switch (type) {
case "button":
case "input":
case "select":
case "textarea":
return !!props.autoFocus;
case "img":
return true;
default:
return false;
}
}
function prepareUpdate(domElement, type, oldProps, newProps, rootContainerInstance, hostContext) {
{
var hostContextDev = hostContext;
if (typeof newProps.children !== typeof oldProps.children && (typeof newProps.children === "string" || typeof newProps.children === "number")) {
var string = "" + newProps.children;
var ownAncestorInfo = updatedAncestorInfo(hostContextDev.ancestorInfo, type);
validateDOMNesting(null, string, ownAncestorInfo);
}
}
return diffProperties(domElement, type, oldProps, newProps);
}
function shouldSetTextContent(type, props) {
return type === "textarea" || type === "noscript" || typeof props.children === "string" || typeof props.children === "number" || typeof props.dangerouslySetInnerHTML === "object" && props.dangerouslySetInnerHTML !== null && props.dangerouslySetInnerHTML.__html != null;
}
function createTextInstance(text, rootContainerInstance, hostContext, internalInstanceHandle) {
{
var hostContextDev = hostContext;
validateDOMNesting(null, text, hostContextDev.ancestorInfo);
}
var textNode = createTextNode(text, rootContainerInstance);
precacheFiberNode(internalInstanceHandle, textNode);
return textNode;
}
function getCurrentEventPriority() {
var currentEvent = window.event;
if (currentEvent === void 0) {
return DefaultEventPriority;
}
return getEventPriority(currentEvent.type);
}
var scheduleTimeout = typeof setTimeout === "function" ? setTimeout : void 0;
var cancelTimeout = typeof clearTimeout === "function" ? clearTimeout : void 0;
var noTimeout = -1;
var localPromise = typeof Promise === "function" ? Promise : void 0;
var scheduleMicrotask = typeof queueMicrotask === "function" ? queueMicrotask : typeof localPromise !== "undefined" ? function(callback) {
return localPromise.resolve(null).then(callback).catch(handleErrorInNextTick);
} : scheduleTimeout;
function handleErrorInNextTick(error2) {
setTimeout(function() {
throw error2;
});
}
function commitMount(domElement, type, newProps, internalInstanceHandle) {
switch (type) {
case "button":
case "input":
case "select":
case "textarea":
if (newProps.autoFocus) {
domElement.focus();
}
return;
case "img": {
if (newProps.src) {
domElement.src = newProps.src;
}
return;
}
}
}
function commitUpdate(domElement, updatePayload, type, oldProps, newProps, internalInstanceHandle) {
updateProperties(domElement, updatePayload, type, oldProps, newProps);
updateFiberProps(domElement, newProps);
}
function resetTextContent(domElement) {
setTextContent(domElement, "");
}
function commitTextUpdate(textInstance, oldText, newText) {
textInstance.nodeValue = newText;
}
function appendChild(parentInstance, child) {
parentInstance.appendChild(child);
}
function appendChildToContainer(container, child) {
var parentNode;
if (container.nodeType === COMMENT_NODE) {
parentNode = container.parentNode;
parentNode.insertBefore(child, container);
} else {
parentNode = container;
parentNode.appendChild(child);
}
var reactRootContainer = container._reactRootContainer;
if ((reactRootContainer === null || reactRootContainer === void 0) && parentNode.onclick === null) {
trapClickOnNonInteractiveElement(parentNode);
}
}
function insertBefore(parentInstance, child, beforeChild) {
parentInstance.insertBefore(child, beforeChild);
}
function insertInContainerBefore(container, child, beforeChild) {
if (container.nodeType === COMMENT_NODE) {
container.parentNode.insertBefore(child, beforeChild);
} else {
container.insertBefore(child, beforeChild);
}
}
function removeChild(parentInstance, child) {
parentInstance.removeChild(child);
}
function removeChildFromContainer(container, child) {
if (container.nodeType === COMMENT_NODE) {
container.parentNode.removeChild(child);
} else {
container.removeChild(child);
}
}
function clearSuspenseBoundary(parentInstance, suspenseInstance) {
var node = suspenseInstance;
var depth = 0;
do {
var nextNode = node.nextSibling;
parentInstance.removeChild(node);
if (nextNode && nextNode.nodeType === COMMENT_NODE) {
var data = nextNode.data;
if (data === SUSPENSE_END_DATA) {
if (depth === 0) {
parentInstance.removeChild(nextNode);
retryIfBlockedOn(suspenseInstance);
return;
} else {
depth--;
}
} else if (data === SUSPENSE_START_DATA || data === SUSPENSE_PENDING_START_DATA || data === SUSPENSE_FALLBACK_START_DATA) {
depth++;
}
}
node = nextNode;
} while (node);
retryIfBlockedOn(suspenseInstance);
}
function clearSuspenseBoundaryFromContainer(container, suspenseInstance) {
if (container.nodeType === COMMENT_NODE) {
clearSuspenseBoundary(container.parentNode, suspenseInstance);
} else if (container.nodeType === ELEMENT_NODE) {
clearSuspenseBoundary(container, suspenseInstance);
}
retryIfBlockedOn(container);
}
function hideInstance(instance) {
instance = instance;
var style2 = instance.style;
if (typeof style2.setProperty === "function") {
style2.setProperty("display", "none", "important");
} else {
style2.display = "none";
}
}
function hideTextInstance(textInstance) {
textInstance.nodeValue = "";
}
function unhideInstance(instance, props) {
instance = instance;
var styleProp = props[STYLE$1];
var display = styleProp !== void 0 && styleProp !== null && styleProp.hasOwnProperty("display") ? styleProp.display : null;
instance.style.display = dangerousStyleValue("display", display);
}
function unhideTextInstance(textInstance, text) {
textInstance.nodeValue = text;
}
function clearContainer(container) {
if (container.nodeType === ELEMENT_NODE) {
container.textContent = "";
} else if (container.nodeType === DOCUMENT_NODE) {
if (container.documentElement) {
container.removeChild(container.documentElement);
}
}
}
function canHydrateInstance(instance, type, props) {
if (instance.nodeType !== ELEMENT_NODE || type.toLowerCase() !== instance.nodeName.toLowerCase()) {
return null;
}
return instance;
}
function canHydrateTextInstance(instance, text) {
if (text === "" || instance.nodeType !== TEXT_NODE) {
return null;
}
return instance;
}
function canHydrateSuspenseInstance(instance) {
if (instance.nodeType !== COMMENT_NODE) {
return null;
}
return instance;
}
function isSuspenseInstancePending(instance) {
return instance.data === SUSPENSE_PENDING_START_DATA;
}
function isSuspenseInstanceFallback(instance) {
return instance.data === SUSPENSE_FALLBACK_START_DATA;
}
function getSuspenseInstanceFallbackErrorDetails(instance) {
var dataset = instance.nextSibling && instance.nextSibling.dataset;
var digest, message, stack;
if (dataset) {
digest = dataset.dgst;
{
message = dataset.msg;
stack = dataset.stck;
}
}
{
return {
message,
digest,
stack
};
}
}
function registerSuspenseInstanceRetry(instance, callback) {
instance._reactRetry = callback;
}
function getNextHydratable(node) {
for (; node != null; node = node.nextSibling) {
var nodeType = node.nodeType;
if (nodeType === ELEMENT_NODE || nodeType === TEXT_NODE) {
break;
}
if (nodeType === COMMENT_NODE) {
var nodeData = node.data;
if (nodeData === SUSPENSE_START_DATA || nodeData === SUSPENSE_FALLBACK_START_DATA || nodeData === SUSPENSE_PENDING_START_DATA) {
break;
}
if (nodeData === SUSPENSE_END_DATA) {
return null;
}
}
}
return node;
}
function getNextHydratableSibling(instance) {
return getNextHydratable(instance.nextSibling);
}
function getFirstHydratableChild(parentInstance) {
return getNextHydratable(parentInstance.firstChild);
}
function getFirstHydratableChildWithinContainer(parentContainer) {
return getNextHydratable(parentContainer.firstChild);
}
function getFirstHydratableChildWithinSuspenseInstance(parentInstance) {
return getNextHydratable(parentInstance.nextSibling);
}
function hydrateInstance(instance, type, props, rootContainerInstance, hostContext, internalInstanceHandle, shouldWarnDev) {
precacheFiberNode(internalInstanceHandle, instance);
updateFiberProps(instance, props);
var parentNamespace;
{
var hostContextDev = hostContext;
parentNamespace = hostContextDev.namespace;
}
var isConcurrentMode = (internalInstanceHandle.mode & ConcurrentMode) !== NoMode;
return diffHydratedProperties(instance, type, props, parentNamespace, rootContainerInstance, isConcurrentMode, shouldWarnDev);
}
function hydrateTextInstance(textInstance, text, internalInstanceHandle, shouldWarnDev) {
precacheFiberNode(internalInstanceHandle, textInstance);
var isConcurrentMode = (internalInstanceHandle.mode & ConcurrentMode) !== NoMode;
return diffHydratedText(textInstance, text);
}
function hydrateSuspenseInstance(suspenseInstance, internalInstanceHandle) {
precacheFiberNode(internalInstanceHandle, suspenseInstance);
}
function getNextHydratableInstanceAfterSuspenseInstance(suspenseInstance) {
var node = suspenseInstance.nextSibling;
var depth = 0;
while (node) {
if (node.nodeType === COMMENT_NODE) {
var data = node.data;
if (data === SUSPENSE_END_DATA) {
if (depth === 0) {
return getNextHydratableSibling(node);
} else {
depth--;
}
} else if (data === SUSPENSE_START_DATA || data === SUSPENSE_FALLBACK_START_DATA || data === SUSPENSE_PENDING_START_DATA) {
depth++;
}
}
node = node.nextSibling;
}
return null;
}
function getParentSuspenseInstance(targetInstance) {
var node = targetInstance.previousSibling;
var depth = 0;
while (node) {
if (node.nodeType === COMMENT_NODE) {
var data = node.data;
if (data === SUSPENSE_START_DATA || data === SUSPENSE_FALLBACK_START_DATA || data === SUSPENSE_PENDING_START_DATA) {
if (depth === 0) {
return node;
} else {
depth--;
}
} else if (data === SUSPENSE_END_DATA) {
depth++;
}
}
node = node.previousSibling;
}
return null;
}
function commitHydratedContainer(container) {
retryIfBlockedOn(container);
}
function commitHydratedSuspenseInstance(suspenseInstance) {
retryIfBlockedOn(suspenseInstance);
}
function shouldDeleteUnhydratedTailInstances(parentType) {
return parentType !== "head" && parentType !== "body";
}
function didNotMatchHydratedContainerTextInstance(parentContainer, textInstance, text, isConcurrentMode) {
var shouldWarnDev = true;
checkForUnmatchedText(textInstance.nodeValue, text, isConcurrentMode, shouldWarnDev);
}
function didNotMatchHydratedTextInstance(parentType, parentProps, parentInstance, textInstance, text, isConcurrentMode) {
if (parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) {
var shouldWarnDev = true;
checkForUnmatchedText(textInstance.nodeValue, text, isConcurrentMode, shouldWarnDev);
}
}
function didNotHydrateInstanceWithinContainer(parentContainer, instance) {
{
if (instance.nodeType === ELEMENT_NODE) {
warnForDeletedHydratableElement(parentContainer, instance);
} else if (instance.nodeType === COMMENT_NODE)
;
else {
warnForDeletedHydratableText(parentContainer, instance);
}
}
}
function didNotHydrateInstanceWithinSuspenseInstance(parentInstance, instance) {
{
var parentNode = parentInstance.parentNode;
if (parentNode !== null) {
if (instance.nodeType === ELEMENT_NODE) {
warnForDeletedHydratableElement(parentNode, instance);
} else if (instance.nodeType === COMMENT_NODE)
;
else {
warnForDeletedHydratableText(parentNode, instance);
}
}
}
}
function didNotHydrateInstance(parentType, parentProps, parentInstance, instance, isConcurrentMode) {
{
if (isConcurrentMode || parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) {
if (instance.nodeType === ELEMENT_NODE) {
warnForDeletedHydratableElement(parentInstance, instance);
} else if (instance.nodeType === COMMENT_NODE)
;
else {
warnForDeletedHydratableText(parentInstance, instance);
}
}
}
}
function didNotFindHydratableInstanceWithinContainer(parentContainer, type, props) {
{
warnForInsertedHydratedElement(parentContainer, type);
}
}
function didNotFindHydratableTextInstanceWithinContainer(parentContainer, text) {
{
warnForInsertedHydratedText(parentContainer, text);
}
}
function didNotFindHydratableInstanceWithinSuspenseInstance(parentInstance, type, props) {
{
var parentNode = parentInstance.parentNode;
if (parentNode !== null)
warnForInsertedHydratedElement(parentNode, type);
}
}
function didNotFindHydratableTextInstanceWithinSuspenseInstance(parentInstance, text) {
{
var parentNode = parentInstance.parentNode;
if (parentNode !== null)
warnForInsertedHydratedText(parentNode, text);
}
}
function didNotFindHydratableInstance(parentType, parentProps, parentInstance, type, props, isConcurrentMode) {
{
if (isConcurrentMode || parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) {
warnForInsertedHydratedElement(parentInstance, type);
}
}
}
function didNotFindHydratableTextInstance(parentType, parentProps, parentInstance, text, isConcurrentMode) {
{
if (isConcurrentMode || parentProps[SUPPRESS_HYDRATION_WARNING$1] !== true) {
warnForInsertedHydratedText(parentInstance, text);
}
}
}
function errorHydratingContainer(parentContainer) {
{
error("An error occurred during hydration. The server HTML was replaced with client content in <%s>.", parentContainer.nodeName.toLowerCase());
}
}
function preparePortalMount(portalInstance) {
listenToAllSupportedEvents(portalInstance);
}
var randomKey = Math.random().toString(36).slice(2);
var internalInstanceKey = "__reactFiber$" + randomKey;
var internalPropsKey = "__reactProps$" + randomKey;
var internalContainerInstanceKey = "__reactContainer$" + randomKey;
var internalEventHandlersKey = "__reactEvents$" + randomKey;
var internalEventHandlerListenersKey = "__reactListeners$" + randomKey;
var internalEventHandlesSetKey = "__reactHandles$" + randomKey;
function detachDeletedInstance(node) {
delete node[internalInstanceKey];
delete node[internalPropsKey];
delete node[internalEventHandlersKey];
delete node[internalEventHandlerListenersKey];
delete node[internalEventHandlesSetKey];
}
function precacheFiberNode(hostInst, node) {
node[internalInstanceKey] = hostInst;
}
function markContainerAsRoot(hostRoot, node) {
node[internalContainerInstanceKey] = hostRoot;
}
function unmarkContainerAsRoot(node) {
node[internalContainerInstanceKey] = null;
}
function isContainerMarkedAsRoot(node) {
return !!node[internalContainerInstanceKey];
}
function getClosestInstanceFromNode(targetNode) {
var targetInst = targetNode[internalInstanceKey];
if (targetInst) {
return targetInst;
}
var parentNode = targetNode.parentNode;
while (parentNode) {
targetInst = parentNode[internalContainerInstanceKey] || parentNode[internalInstanceKey];
if (targetInst) {
var alternate = targetInst.alternate;
if (targetInst.child !== null || alternate !== null && alternate.child !== null) {
var suspenseInstance = getParentSuspenseInstance(targetNode);
while (suspenseInstance !== null) {
var targetSuspenseInst = suspenseInstance[internalInstanceKey];
if (targetSuspenseInst) {
return targetSuspenseInst;
}
suspenseInstance = getParentSuspenseInstance(suspenseInstance);
}
}
return targetInst;
}
targetNode = parentNode;
parentNode = targetNode.parentNode;
}
return null;
}
function getInstanceFromNode(node) {
var inst = node[internalInstanceKey] || node[internalContainerInstanceKey];
if (inst) {
if (inst.tag === HostComponent || inst.tag === HostText || inst.tag === SuspenseComponent || inst.tag === HostRoot) {
return inst;
} else {
return null;
}
}
return null;
}
function getNodeFromInstance(inst) {
if (inst.tag === HostComponent || inst.tag === HostText) {
return inst.stateNode;
}
throw new Error("getNodeFromInstance: Invalid argument.");
}
function getFiberCurrentPropsFromNode(node) {
return node[internalPropsKey] || null;
}
function updateFiberProps(node, props) {
node[internalPropsKey] = props;
}
function getEventListenerSet(node) {
var elementListenerSet = node[internalEventHandlersKey];
if (elementListenerSet === void 0) {
elementListenerSet = node[internalEventHandlersKey] = /* @__PURE__ */ new Set();
}
return elementListenerSet;
}
var loggedTypeFailures = {};
var ReactDebugCurrentFrame$1 = ReactSharedInternals.ReactDebugCurrentFrame;
function setCurrentlyValidatingElement(element) {
{
if (element) {
var owner = element._owner;
var stack = describeUnknownElementTypeFrameInDEV(element.type, element._source, owner ? owner.type : null);
ReactDebugCurrentFrame$1.setExtraStackFrame(stack);
} else {
ReactDebugCurrentFrame$1.setExtraStackFrame(null);
}
}
}
function checkPropTypes(typeSpecs, values, location, componentName, element) {
{
var has2 = Function.call.bind(hasOwnProperty);
for (var typeSpecName in typeSpecs) {
if (has2(typeSpecs, typeSpecName)) {
var error$1 = void 0;
try {
if (typeof typeSpecs[typeSpecName] !== "function") {
var err = Error((componentName || "React class") + ": " + location + " type `" + typeSpecName + "` is invalid; it must be a function, usually from the `prop-types` package, but received `" + typeof typeSpecs[typeSpecName] + "`.This often happens because of typos such as `PropTypes.function` instead of `PropTypes.func`.");
err.name = "Invariant Violation";
throw err;
}
error$1 = typeSpecs[typeSpecName](values, typeSpecName, componentName, location, null, "SECRET_DO_NOT_PASS_THIS_OR_YOU_WILL_BE_FIRED");
} catch (ex) {
error$1 = ex;
}
if (error$1 && !(error$1 instanceof Error)) {
setCurrentlyValidatingElement(element);
error("%s: type specification of %s `%s` is invalid; the type checker function must return `null` or an `Error` but returned a %s. You may have forgotten to pass an argument to the type checker creator (arrayOf, instanceOf, objectOf, oneOf, oneOfType, and shape all require an argument).", componentName || "React class", location, typeSpecName, typeof error$1);
setCurrentlyValidatingElement(null);
}
if (error$1 instanceof Error && !(error$1.message in loggedTypeFailures)) {
loggedTypeFailures[error$1.message] = true;
setCurrentlyValidatingElement(element);
error("Failed %s type: %s", location, error$1.message);
setCurrentlyValidatingElement(null);
}
}
}
}
}
var valueStack = [];
var fiberStack;
{
fiberStack = [];
}
var index = -1;
function createCursor(defaultValue) {
return {
current: defaultValue
};
}
function pop(cursor, fiber) {
if (index < 0) {
{
error("Unexpected pop.");
}
return;
}
{
if (fiber !== fiberStack[index]) {
error("Unexpected Fiber popped.");
}
}
cursor.current = valueStack[index];
valueStack[index] = null;
{
fiberStack[index] = null;
}
index--;
}
function push2(cursor, value, fiber) {
index++;
valueStack[index] = cursor.current;
{
fiberStack[index] = fiber;
}
cursor.current = value;
}
var warnedAboutMissingGetChildContext;
{
warnedAboutMissingGetChildContext = {};
}
var emptyContextObject = {};
{
Object.freeze(emptyContextObject);
}
var contextStackCursor = createCursor(emptyContextObject);
var didPerformWorkStackCursor = createCursor(false);
var previousContext = emptyContextObject;
function getUnmaskedContext(workInProgress2, Component, didPushOwnContextIfProvider) {
{
if (didPushOwnContextIfProvider && isContextProvider(Component)) {
return previousContext;
}
return contextStackCursor.current;
}
}
function cacheContext(workInProgress2, unmaskedContext, maskedContext) {
{
var instance = workInProgress2.stateNode;
instance.__reactInternalMemoizedUnmaskedChildContext = unmaskedContext;
instance.__reactInternalMemoizedMaskedChildContext = maskedContext;
}
}
function getMaskedContext(workInProgress2, unmaskedContext) {
{
var type = workInProgress2.type;
var contextTypes = type.contextTypes;
if (!contextTypes) {
return emptyContextObject;
}
var instance = workInProgress2.stateNode;
if (instance && instance.__reactInternalMemoizedUnmaskedChildContext === unmaskedContext) {
return instance.__reactInternalMemoizedMaskedChildContext;
}
var context = {};
for (var key in contextTypes) {
context[key] = unmaskedContext[key];
}
{
var name = getComponentNameFromFiber(workInProgress2) || "Unknown";
checkPropTypes(contextTypes, context, "context", name);
}
if (instance) {
cacheContext(workInProgress2, unmaskedContext, context);
}
return context;
}
}
function hasContextChanged() {
{
return didPerformWorkStackCursor.current;
}
}
function isContextProvider(type) {
{
var childContextTypes = type.childContextTypes;
return childContextTypes !== null && childContextTypes !== void 0;
}
}
function popContext(fiber) {
{
pop(didPerformWorkStackCursor, fiber);
pop(contextStackCursor, fiber);
}
}
function popTopLevelContextObject(fiber) {
{
pop(didPerformWorkStackCursor, fiber);
pop(contextStackCursor, fiber);
}
}
function pushTopLevelContextObject(fiber, context, didChange) {
{
if (contextStackCursor.current !== emptyContextObject) {
throw new Error("Unexpected context found on stack. This error is likely caused by a bug in React. Please file an issue.");
}
push2(contextStackCursor, context, fiber);
push2(didPerformWorkStackCursor, didChange, fiber);
}
}
function processChildContext(fiber, type, parentContext) {
{
var instance = fiber.stateNode;
var childContextTypes = type.childContextTypes;
if (typeof instance.getChildContext !== "function") {
{
var componentName = getComponentNameFromFiber(fiber) || "Unknown";
if (!warnedAboutMissingGetChildContext[componentName]) {
warnedAboutMissingGetChildContext[componentName] = true;
error("%s.childContextTypes is specified but there is no getChildContext() method on the instance. You can either define getChildContext() on %s or remove childContextTypes from it.", componentName, componentName);
}
}
return parentContext;
}
var childContext = instance.getChildContext();
for (var contextKey in childContext) {
if (!(contextKey in childContextTypes)) {
throw new Error((getComponentNameFromFiber(fiber) || "Unknown") + '.getChildContext(): key "' + contextKey + '" is not defined in childContextTypes.');
}
}
{
var name = getComponentNameFromFiber(fiber) || "Unknown";
checkPropTypes(childContextTypes, childContext, "child context", name);
}
return assign({}, parentContext, childContext);
}
}
function pushContextProvider(workInProgress2) {
{
var instance = workInProgress2.stateNode;
var memoizedMergedChildContext = instance && instance.__reactInternalMemoizedMergedChildContext || emptyContextObject;
previousContext = contextStackCursor.current;
push2(contextStackCursor, memoizedMergedChildContext, workInProgress2);
push2(didPerformWorkStackCursor, didPerformWorkStackCursor.current, workInProgress2);
return true;
}
}
function invalidateContextProvider(workInProgress2, type, didChange) {
{
var instance = workInProgress2.stateNode;
if (!instance) {
throw new Error("Expected to have an instance by this point. This error is likely caused by a bug in React. Please file an issue.");
}
if (didChange) {
var mergedContext = processChildContext(workInProgress2, type, previousContext);
instance.__reactInternalMemoizedMergedChildContext = mergedContext;
pop(didPerformWorkStackCursor, workInProgress2);
pop(contextStackCursor, workInProgress2);
push2(contextStackCursor, mergedContext, workInProgress2);
push2(didPerformWorkStackCursor, didChange, workInProgress2);
} else {
pop(didPerformWorkStackCursor, workInProgress2);
push2(didPerformWorkStackCursor, didChange, workInProgress2);
}
}
}
function findCurrentUnmaskedContext(fiber) {
{
if (!isFiberMounted(fiber) || fiber.tag !== ClassComponent) {
throw new Error("Expected subtree parent to be a mounted class component. This error is likely caused by a bug in React. Please file an issue.");
}
var node = fiber;
do {
switch (node.tag) {
case HostRoot:
return node.stateNode.context;
case ClassComponent: {
var Component = node.type;
if (isContextProvider(Component)) {
return node.stateNode.__reactInternalMemoizedMergedChildContext;
}
break;
}
}
node = node.return;
} while (node !== null);
throw new Error("Found unexpected detached subtree parent. This error is likely caused by a bug in React. Please file an issue.");
}
}
var LegacyRoot = 0;
var ConcurrentRoot = 1;
var syncQueue = null;
var includesLegacySyncCallbacks = false;
var isFlushingSyncQueue = false;
function scheduleSyncCallback(callback) {
if (syncQueue === null) {
syncQueue = [callback];
} else {
syncQueue.push(callback);
}
}
function scheduleLegacySyncCallback(callback) {
includesLegacySyncCallbacks = true;
scheduleSyncCallback(callback);
}
function flushSyncCallbacksOnlyInLegacyMode() {
if (includesLegacySyncCallbacks) {
flushSyncCallbacks();
}
}
function flushSyncCallbacks() {
if (!isFlushingSyncQueue && syncQueue !== null) {
isFlushingSyncQueue = true;
var i = 0;
var previousUpdatePriority = getCurrentUpdatePriority();
try {
var isSync = true;
var queue = syncQueue;
setCurrentUpdatePriority(DiscreteEventPriority);
for (; i < queue.length; i++) {
var callback = queue[i];
do {
callback = callback(isSync);
} while (callback !== null);
}
syncQueue = null;
includesLegacySyncCallbacks = false;
} catch (error2) {
if (syncQueue !== null) {
syncQueue = syncQueue.slice(i + 1);
}
scheduleCallback(ImmediatePriority, flushSyncCallbacks);
throw error2;
} finally {
setCurrentUpdatePriority(previousUpdatePriority);
isFlushingSyncQueue = false;
}
}
return null;
}
var forkStack = [];
var forkStackIndex = 0;
var treeForkProvider = null;
var treeForkCount = 0;
var idStack = [];
var idStackIndex = 0;
var treeContextProvider = null;
var treeContextId = 1;
var treeContextOverflow = "";
function isForkedChild(workInProgress2) {
warnIfNotHydrating();
return (workInProgress2.flags & Forked) !== NoFlags;
}
function getForksAtLevel(workInProgress2) {
warnIfNotHydrating();
return treeForkCount;
}
function getTreeId() {
var overflow = treeContextOverflow;
var idWithLeadingBit = treeContextId;
var id = idWithLeadingBit & ~getLeadingBit(idWithLeadingBit);
return id.toString(32) + overflow;
}
function pushTreeFork(workInProgress2, totalChildren) {
warnIfNotHydrating();
forkStack[forkStackIndex++] = treeForkCount;
forkStack[forkStackIndex++] = treeForkProvider;
treeForkProvider = workInProgress2;
treeForkCount = totalChildren;
}
function pushTreeId(workInProgress2, totalChildren, index2) {
warnIfNotHydrating();
idStack[idStackIndex++] = treeContextId;
idStack[idStackIndex++] = treeContextOverflow;
idStack[idStackIndex++] = treeContextProvider;
treeContextProvider = workInProgress2;
var baseIdWithLeadingBit = treeContextId;
var baseOverflow = treeContextOverflow;
var baseLength = getBitLength(baseIdWithLeadingBit) - 1;
var baseId = baseIdWithLeadingBit & ~(1 << baseLength);
var slot = index2 + 1;
var length = getBitLength(totalChildren) + baseLength;
if (length > 30) {
var numberOfOverflowBits = baseLength - baseLength % 5;
var newOverflowBits = (1 << numberOfOverflowBits) - 1;
var newOverflow = (baseId & newOverflowBits).toString(32);
var restOfBaseId = baseId >> numberOfOverflowBits;
var restOfBaseLength = baseLength - numberOfOverflowBits;
var restOfLength = getBitLength(totalChildren) + restOfBaseLength;
var restOfNewBits = slot << restOfBaseLength;
var id = restOfNewBits | restOfBaseId;
var overflow = newOverflow + baseOverflow;
treeContextId = 1 << restOfLength | id;
treeContextOverflow = overflow;
} else {
var newBits = slot << baseLength;
var _id = newBits | baseId;
var _overflow = baseOverflow;
treeContextId = 1 << length | _id;
treeContextOverflow = _overflow;
}
}
function pushMaterializedTreeId(workInProgress2) {
warnIfNotHydrating();
var returnFiber = workInProgress2.return;
if (returnFiber !== null) {
var numberOfForks = 1;
var slotIndex = 0;
pushTreeFork(workInProgress2, numberOfForks);
pushTreeId(workInProgress2, numberOfForks, slotIndex);
}
}
function getBitLength(number) {
return 32 - clz32(number);
}
function getLeadingBit(id) {
return 1 << getBitLength(id) - 1;
}
function popTreeContext(workInProgress2) {
while (workInProgress2 === treeForkProvider) {
treeForkProvider = forkStack[--forkStackIndex];
forkStack[forkStackIndex] = null;
treeForkCount = forkStack[--forkStackIndex];
forkStack[forkStackIndex] = null;
}
while (workInProgress2 === treeContextProvider) {
treeContextProvider = idStack[--idStackIndex];
idStack[idStackIndex] = null;
treeContextOverflow = idStack[--idStackIndex];
idStack[idStackIndex] = null;
treeContextId = idStack[--idStackIndex];
idStack[idStackIndex] = null;
}
}
function getSuspendedTreeContext() {
warnIfNotHydrating();
if (treeContextProvider !== null) {
return {
id: treeContextId,
overflow: treeContextOverflow
};
} else {
return null;
}
}
function restoreSuspendedTreeContext(workInProgress2, suspendedContext) {
warnIfNotHydrating();
idStack[idStackIndex++] = treeContextId;
idStack[idStackIndex++] = treeContextOverflow;
idStack[idStackIndex++] = treeContextProvider;
treeContextId = suspendedContext.id;
treeContextOverflow = suspendedContext.overflow;
treeContextProvider = workInProgress2;
}
function warnIfNotHydrating() {
{
if (!getIsHydrating()) {
error("Expected to be hydrating. This is a bug in React. Please file an issue.");
}
}
}
var hydrationParentFiber = null;
var nextHydratableInstance = null;
var isHydrating = false;
var didSuspendOrErrorDEV = false;
var hydrationErrors = null;
function warnIfHydrating() {
{
if (isHydrating) {
error("We should not be hydrating here. This is a bug in React. Please file a bug.");
}
}
}
function markDidThrowWhileHydratingDEV() {
{
didSuspendOrErrorDEV = true;
}
}
function didSuspendOrErrorWhileHydratingDEV() {
{
return didSuspendOrErrorDEV;
}
}
function enterHydrationState(fiber) {
var parentInstance = fiber.stateNode.containerInfo;
nextHydratableInstance = getFirstHydratableChildWithinContainer(parentInstance);
hydrationParentFiber = fiber;
isHydrating = true;
hydrationErrors = null;
didSuspendOrErrorDEV = false;
return true;
}
function reenterHydrationStateFromDehydratedSuspenseInstance(fiber, suspenseInstance, treeContext) {
nextHydratableInstance = getFirstHydratableChildWithinSuspenseInstance(suspenseInstance);
hydrationParentFiber = fiber;
isHydrating = true;
hydrationErrors = null;
didSuspendOrErrorDEV = false;
if (treeContext !== null) {
restoreSuspendedTreeContext(fiber, treeContext);
}
return true;
}
function warnUnhydratedInstance(returnFiber, instance) {
{
switch (returnFiber.tag) {
case HostRoot: {
didNotHydrateInstanceWithinContainer(returnFiber.stateNode.containerInfo, instance);
break;
}
case HostComponent: {
var isConcurrentMode = (returnFiber.mode & ConcurrentMode) !== NoMode;
didNotHydrateInstance(
returnFiber.type,
returnFiber.memoizedProps,
returnFiber.stateNode,
instance,
// TODO: Delete this argument when we remove the legacy root API.
isConcurrentMode
);
break;
}
case SuspenseComponent: {
var suspenseState = returnFiber.memoizedState;
if (suspenseState.dehydrated !== null)
didNotHydrateInstanceWithinSuspenseInstance(suspenseState.dehydrated, instance);
break;
}
}
}
}
function deleteHydratableInstance(returnFiber, instance) {
warnUnhydratedInstance(returnFiber, instance);
var childToDelete = createFiberFromHostInstanceForDeletion();
childToDelete.stateNode = instance;
childToDelete.return = returnFiber;
var deletions = returnFiber.deletions;
if (deletions === null) {
returnFiber.deletions = [childToDelete];
returnFiber.flags |= ChildDeletion;
} else {
deletions.push(childToDelete);
}
}
function warnNonhydratedInstance(returnFiber, fiber) {
{
if (didSuspendOrErrorDEV) {
return;
}
switch (returnFiber.tag) {
case HostRoot: {
var parentContainer = returnFiber.stateNode.containerInfo;
switch (fiber.tag) {
case HostComponent:
var type = fiber.type;
var props = fiber.pendingProps;
didNotFindHydratableInstanceWithinContainer(parentContainer, type);
break;
case HostText:
var text = fiber.pendingProps;
didNotFindHydratableTextInstanceWithinContainer(parentContainer, text);
break;
}
break;
}
case HostComponent: {
var parentType = returnFiber.type;
var parentProps = returnFiber.memoizedProps;
var parentInstance = returnFiber.stateNode;
switch (fiber.tag) {
case HostComponent: {
var _type = fiber.type;
var _props = fiber.pendingProps;
var isConcurrentMode = (returnFiber.mode & ConcurrentMode) !== NoMode;
didNotFindHydratableInstance(
parentType,
parentProps,
parentInstance,
_type,
_props,
// TODO: Delete this argument when we remove the legacy root API.
isConcurrentMode
);
break;
}
case HostText: {
var _text = fiber.pendingProps;
var _isConcurrentMode = (returnFiber.mode & ConcurrentMode) !== NoMode;
didNotFindHydratableTextInstance(
parentType,
parentProps,
parentInstance,
_text,
// TODO: Delete this argument when we remove the legacy root API.
_isConcurrentMode
);
break;
}
}
break;
}
case SuspenseComponent: {
var suspenseState = returnFiber.memoizedState;
var _parentInstance = suspenseState.dehydrated;
if (_parentInstance !== null)
switch (fiber.tag) {
case HostComponent:
var _type2 = fiber.type;
var _props2 = fiber.pendingProps;
didNotFindHydratableInstanceWithinSuspenseInstance(_parentInstance, _type2);
break;
case HostText:
var _text2 = fiber.pendingProps;
didNotFindHydratableTextInstanceWithinSuspenseInstance(_parentInstance, _text2);
break;
}
break;
}
default:
return;
}
}
}
function insertNonHydratedInstance(returnFiber, fiber) {
fiber.flags = fiber.flags & ~Hydrating | Placement;
warnNonhydratedInstance(returnFiber, fiber);
}
function tryHydrate(fiber, nextInstance) {
switch (fiber.tag) {
case HostComponent: {
var type = fiber.type;
var props = fiber.pendingProps;
var instance = canHydrateInstance(nextInstance, type);
if (instance !== null) {
fiber.stateNode = instance;
hydrationParentFiber = fiber;
nextHydratableInstance = getFirstHydratableChild(instance);
return true;
}
return false;
}
case HostText: {
var text = fiber.pendingProps;
var textInstance = canHydrateTextInstance(nextInstance, text);
if (textInstance !== null) {
fiber.stateNode = textInstance;
hydrationParentFiber = fiber;
nextHydratableInstance = null;
return true;
}
return false;
}
case SuspenseComponent: {
var suspenseInstance = canHydrateSuspenseInstance(nextInstance);
if (suspenseInstance !== null) {
var suspenseState = {
dehydrated: suspenseInstance,
treeContext: getSuspendedTreeContext(),
retryLane: OffscreenLane
};
fiber.memoizedState = suspenseState;
var dehydratedFragment = createFiberFromDehydratedFragment(suspenseInstance);
dehydratedFragment.return = fiber;
fiber.child = dehydratedFragment;
hydrationParentFiber = fiber;
nextHydratableInstance = null;
return true;
}
return false;
}
default:
return false;
}
}
function shouldClientRenderOnMismatch(fiber) {
return (fiber.mode & ConcurrentMode) !== NoMode && (fiber.flags & DidCapture) === NoFlags;
}
function throwOnHydrationMismatch(fiber) {
throw new Error("Hydration failed because the initial UI does not match what was rendered on the server.");
}
function tryToClaimNextHydratableInstance(fiber) {
if (!isHydrating) {
return;
}
var nextInstance = nextHydratableInstance;
if (!nextInstance) {
if (shouldClientRenderOnMismatch(fiber)) {
warnNonhydratedInstance(hydrationParentFiber, fiber);
throwOnHydrationMismatch();
}
insertNonHydratedInstance(hydrationParentFiber, fiber);
isHydrating = false;
hydrationParentFiber = fiber;
return;
}
var firstAttemptedInstance = nextInstance;
if (!tryHydrate(fiber, nextInstance)) {
if (shouldClientRenderOnMismatch(fiber)) {
warnNonhydratedInstance(hydrationParentFiber, fiber);
throwOnHydrationMismatch();
}
nextInstance = getNextHydratableSibling(firstAttemptedInstance);
var prevHydrationParentFiber = hydrationParentFiber;
if (!nextInstance || !tryHydrate(fiber, nextInstance)) {
insertNonHydratedInstance(hydrationParentFiber, fiber);
isHydrating = false;
hydrationParentFiber = fiber;
return;
}
deleteHydratableInstance(prevHydrationParentFiber, firstAttemptedInstance);
}
}
function prepareToHydrateHostInstance(fiber, rootContainerInstance, hostContext) {
var instance = fiber.stateNode;
var shouldWarnIfMismatchDev = !didSuspendOrErrorDEV;
var updatePayload = hydrateInstance(instance, fiber.type, fiber.memoizedProps, rootContainerInstance, hostContext, fiber, shouldWarnIfMismatchDev);
fiber.updateQueue = updatePayload;
if (updatePayload !== null) {
return true;
}
return false;
}
function prepareToHydrateHostTextInstance(fiber) {
var textInstance = fiber.stateNode;
var textContent = fiber.memoizedProps;
var shouldUpdate = hydrateTextInstance(textInstance, textContent, fiber);
if (shouldUpdate) {
var returnFiber = hydrationParentFiber;
if (returnFiber !== null) {
switch (returnFiber.tag) {
case HostRoot: {
var parentContainer = returnFiber.stateNode.containerInfo;
var isConcurrentMode = (returnFiber.mode & ConcurrentMode) !== NoMode;
didNotMatchHydratedContainerTextInstance(
parentContainer,
textInstance,
textContent,
// TODO: Delete this argument when we remove the legacy root API.
isConcurrentMode
);
break;
}
case HostComponent: {
var parentType = returnFiber.type;
var parentProps = returnFiber.memoizedProps;
var parentInstance = returnFiber.stateNode;
var _isConcurrentMode2 = (returnFiber.mode & ConcurrentMode) !== NoMode;
didNotMatchHydratedTextInstance(
parentType,
parentProps,
parentInstance,
textInstance,
textContent,
// TODO: Delete this argument when we remove the legacy root API.
_isConcurrentMode2
);
break;
}
}
}
}
return shouldUpdate;
}
function prepareToHydrateHostSuspenseInstance(fiber) {
var suspenseState = fiber.memoizedState;
var suspenseInstance = suspenseState !== null ? suspenseState.dehydrated : null;
if (!suspenseInstance) {
throw new Error("Expected to have a hydrated suspense instance. This error is likely caused by a bug in React. Please file an issue.");
}
hydrateSuspenseInstance(suspenseInstance, fiber);
}
function skipPastDehydratedSuspenseInstance(fiber) {
var suspenseState = fiber.memoizedState;
var suspenseInstance = suspenseState !== null ? suspenseState.dehydrated : null;
if (!suspenseInstance) {
throw new Error("Expected to have a hydrated suspense instance. This error is likely caused by a bug in React. Please file an issue.");
}
return getNextHydratableInstanceAfterSuspenseInstance(suspenseInstance);
}
function popToNextHostParent(fiber) {
var parent = fiber.return;
while (parent !== null && parent.tag !== HostComponent && parent.tag !== HostRoot && parent.tag !== SuspenseComponent) {
parent = parent.return;
}
hydrationParentFiber = parent;
}
function popHydrationState(fiber) {
if (fiber !== hydrationParentFiber) {
return false;
}
if (!isHydrating) {
popToNextHostParent(fiber);
isHydrating = true;
return false;
}
if (fiber.tag !== HostRoot && (fiber.tag !== HostComponent || shouldDeleteUnhydratedTailInstances(fiber.type) && !shouldSetTextContent(fiber.type, fiber.memoizedProps))) {
var nextInstance = nextHydratableInstance;
if (nextInstance) {
if (shouldClientRenderOnMismatch(fiber)) {
warnIfUnhydratedTailNodes(fiber);
throwOnHydrationMismatch();
} else {
while (nextInstance) {
deleteHydratableInstance(fiber, nextInstance);
nextInstance = getNextHydratableSibling(nextInstance);
}
}
}
}
popToNextHostParent(fiber);
if (fiber.tag === SuspenseComponent) {
nextHydratableInstance = skipPastDehydratedSuspenseInstance(fiber);
} else {
nextHydratableInstance = hydrationParentFiber ? getNextHydratableSibling(fiber.stateNode) : null;
}
return true;
}
function hasUnhydratedTailNodes() {
return isHydrating && nextHydratableInstance !== null;
}
function warnIfUnhydratedTailNodes(fiber) {
var nextInstance = nextHydratableInstance;
while (nextInstance) {
warnUnhydratedInstance(fiber, nextInstance);
nextInstance = getNextHydratableSibling(nextInstance);
}
}
function resetHydrationState() {
hydrationParentFiber = null;
nextHydratableInstance = null;
isHydrating = false;
didSuspendOrErrorDEV = false;
}
function upgradeHydrationErrorsToRecoverable() {
if (hydrationErrors !== null) {
queueRecoverableErrors(hydrationErrors);
hydrationErrors = null;
}
}
function getIsHydrating() {
return isHydrating;
}
function queueHydrationError(error2) {
if (hydrationErrors === null) {
hydrationErrors = [error2];
} else {
hydrationErrors.push(error2);
}
}
var ReactCurrentBatchConfig$1 = ReactSharedInternals.ReactCurrentBatchConfig;
var NoTransition = null;
function requestCurrentTransition() {
return ReactCurrentBatchConfig$1.transition;
}
var ReactStrictModeWarnings = {
recordUnsafeLifecycleWarnings: function(fiber, instance) {
},
flushPendingUnsafeLifecycleWarnings: function() {
},
recordLegacyContextWarning: function(fiber, instance) {
},
flushLegacyContextWarning: function() {
},
discardPendingWarnings: function() {
}
};
{
var findStrictRoot = function(fiber) {
var maybeStrictRoot = null;
var node = fiber;
while (node !== null) {
if (node.mode & StrictLegacyMode) {
maybeStrictRoot = node;
}
node = node.return;
}
return maybeStrictRoot;
};
var setToSortedString = function(set2) {
var array = [];
set2.forEach(function(value) {
array.push(value);
});
return array.sort().join(", ");
};
var pendingComponentWillMountWarnings = [];
var pendingUNSAFE_ComponentWillMountWarnings = [];
var pendingComponentWillReceivePropsWarnings = [];
var pendingUNSAFE_ComponentWillReceivePropsWarnings = [];
var pendingComponentWillUpdateWarnings = [];
var pendingUNSAFE_ComponentWillUpdateWarnings = [];
var didWarnAboutUnsafeLifecycles = /* @__PURE__ */ new Set();
ReactStrictModeWarnings.recordUnsafeLifecycleWarnings = function(fiber, instance) {
if (didWarnAboutUnsafeLifecycles.has(fiber.type)) {
return;
}
if (typeof instance.componentWillMount === "function" && // Don't warn about react-lifecycles-compat polyfilled components.
instance.componentWillMount.__suppressDeprecationWarning !== true) {
pendingComponentWillMountWarnings.push(fiber);
}
if (fiber.mode & StrictLegacyMode && typeof instance.UNSAFE_componentWillMount === "function") {
pendingUNSAFE_ComponentWillMountWarnings.push(fiber);
}
if (typeof instance.componentWillReceiveProps === "function" && instance.componentWillReceiveProps.__suppressDeprecationWarning !== true) {
pendingComponentWillReceivePropsWarnings.push(fiber);
}
if (fiber.mode & StrictLegacyMode && typeof instance.UNSAFE_componentWillReceiveProps === "function") {
pendingUNSAFE_ComponentWillReceivePropsWarnings.push(fiber);
}
if (typeof instance.componentWillUpdate === "function" && instance.componentWillUpdate.__suppressDeprecationWarning !== true) {
pendingComponentWillUpdateWarnings.push(fiber);
}
if (fiber.mode & StrictLegacyMode && typeof instance.UNSAFE_componentWillUpdate === "function") {
pendingUNSAFE_ComponentWillUpdateWarnings.push(fiber);
}
};
ReactStrictModeWarnings.flushPendingUnsafeLifecycleWarnings = function() {
var componentWillMountUniqueNames = /* @__PURE__ */ new Set();
if (pendingComponentWillMountWarnings.length > 0) {
pendingComponentWillMountWarnings.forEach(function(fiber) {
componentWillMountUniqueNames.add(getComponentNameFromFiber(fiber) || "Component");
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingComponentWillMountWarnings = [];
}
var UNSAFE_componentWillMountUniqueNames = /* @__PURE__ */ new Set();
if (pendingUNSAFE_ComponentWillMountWarnings.length > 0) {
pendingUNSAFE_ComponentWillMountWarnings.forEach(function(fiber) {
UNSAFE_componentWillMountUniqueNames.add(getComponentNameFromFiber(fiber) || "Component");
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingUNSAFE_ComponentWillMountWarnings = [];
}
var componentWillReceivePropsUniqueNames = /* @__PURE__ */ new Set();
if (pendingComponentWillReceivePropsWarnings.length > 0) {
pendingComponentWillReceivePropsWarnings.forEach(function(fiber) {
componentWillReceivePropsUniqueNames.add(getComponentNameFromFiber(fiber) || "Component");
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingComponentWillReceivePropsWarnings = [];
}
var UNSAFE_componentWillReceivePropsUniqueNames = /* @__PURE__ */ new Set();
if (pendingUNSAFE_ComponentWillReceivePropsWarnings.length > 0) {
pendingUNSAFE_ComponentWillReceivePropsWarnings.forEach(function(fiber) {
UNSAFE_componentWillReceivePropsUniqueNames.add(getComponentNameFromFiber(fiber) || "Component");
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingUNSAFE_ComponentWillReceivePropsWarnings = [];
}
var componentWillUpdateUniqueNames = /* @__PURE__ */ new Set();
if (pendingComponentWillUpdateWarnings.length > 0) {
pendingComponentWillUpdateWarnings.forEach(function(fiber) {
componentWillUpdateUniqueNames.add(getComponentNameFromFiber(fiber) || "Component");
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingComponentWillUpdateWarnings = [];
}
var UNSAFE_componentWillUpdateUniqueNames = /* @__PURE__ */ new Set();
if (pendingUNSAFE_ComponentWillUpdateWarnings.length > 0) {
pendingUNSAFE_ComponentWillUpdateWarnings.forEach(function(fiber) {
UNSAFE_componentWillUpdateUniqueNames.add(getComponentNameFromFiber(fiber) || "Component");
didWarnAboutUnsafeLifecycles.add(fiber.type);
});
pendingUNSAFE_ComponentWillUpdateWarnings = [];
}
if (UNSAFE_componentWillMountUniqueNames.size > 0) {
var sortedNames = setToSortedString(UNSAFE_componentWillMountUniqueNames);
error("Using UNSAFE_componentWillMount in strict mode is not recommended and may indicate bugs in your code. See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n* Move code with side effects to componentDidMount, and set initial state in the constructor.\n\nPlease update the following components: %s", sortedNames);
}
if (UNSAFE_componentWillReceivePropsUniqueNames.size > 0) {
var _sortedNames = setToSortedString(UNSAFE_componentWillReceivePropsUniqueNames);
error("Using UNSAFE_componentWillReceiveProps in strict mode is not recommended and may indicate bugs in your code. See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n* Move data fetching code or side effects to componentDidUpdate.\n* If you're updating state whenever props change, refactor your code to use memoization techniques or move it to static getDerivedStateFromProps. Learn more at: https://reactjs.org/link/derived-state\n\nPlease update the following components: %s", _sortedNames);
}
if (UNSAFE_componentWillUpdateUniqueNames.size > 0) {
var _sortedNames2 = setToSortedString(UNSAFE_componentWillUpdateUniqueNames);
error("Using UNSAFE_componentWillUpdate in strict mode is not recommended and may indicate bugs in your code. See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n* Move data fetching code or side effects to componentDidUpdate.\n\nPlease update the following components: %s", _sortedNames2);
}
if (componentWillMountUniqueNames.size > 0) {
var _sortedNames3 = setToSortedString(componentWillMountUniqueNames);
warn("componentWillMount has been renamed, and is not recommended for use. See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n* Move code with side effects to componentDidMount, and set initial state in the constructor.\n* Rename componentWillMount to UNSAFE_componentWillMount to suppress this warning in non-strict mode. In React 18.x, only the UNSAFE_ name will work. To rename all deprecated lifecycles to their new names, you can run `npx react-codemod rename-unsafe-lifecycles` in your project source folder.\n\nPlease update the following components: %s", _sortedNames3);
}
if (componentWillReceivePropsUniqueNames.size > 0) {
var _sortedNames4 = setToSortedString(componentWillReceivePropsUniqueNames);
warn("componentWillReceiveProps has been renamed, and is not recommended for use. See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n* Move data fetching code or side effects to componentDidUpdate.\n* If you're updating state whenever props change, refactor your code to use memoization techniques or move it to static getDerivedStateFromProps. Learn more at: https://reactjs.org/link/derived-state\n* Rename componentWillReceiveProps to UNSAFE_componentWillReceiveProps to suppress this warning in non-strict mode. In React 18.x, only the UNSAFE_ name will work. To rename all deprecated lifecycles to their new names, you can run `npx react-codemod rename-unsafe-lifecycles` in your project source folder.\n\nPlease update the following components: %s", _sortedNames4);
}
if (componentWillUpdateUniqueNames.size > 0) {
var _sortedNames5 = setToSortedString(componentWillUpdateUniqueNames);
warn("componentWillUpdate has been renamed, and is not recommended for use. See https://reactjs.org/link/unsafe-component-lifecycles for details.\n\n* Move data fetching code or side effects to componentDidUpdate.\n* Rename componentWillUpdate to UNSAFE_componentWillUpdate to suppress this warning in non-strict mode. In React 18.x, only the UNSAFE_ name will work. To rename all deprecated lifecycles to their new names, you can run `npx react-codemod rename-unsafe-lifecycles` in your project source folder.\n\nPlease update the following components: %s", _sortedNames5);
}
};
var pendingLegacyContextWarning = /* @__PURE__ */ new Map();
var didWarnAboutLegacyContext = /* @__PURE__ */ new Set();
ReactStrictModeWarnings.recordLegacyContextWarning = function(fiber, instance) {
var strictRoot = findStrictRoot(fiber);
if (strictRoot === null) {
error("Expected to find a StrictMode component in a strict mode tree. This error is likely caused by a bug in React. Please file an issue.");
return;
}
if (didWarnAboutLegacyContext.has(fiber.type)) {
return;
}
var warningsForRoot = pendingLegacyContextWarning.get(strictRoot);
if (fiber.type.contextTypes != null || fiber.type.childContextTypes != null || instance !== null && typeof instance.getChildContext === "function") {
if (warningsForRoot === void 0) {
warningsForRoot = [];
pendingLegacyContextWarning.set(strictRoot, warningsForRoot);
}
warningsForRoot.push(fiber);
}
};
ReactStrictModeWarnings.flushLegacyContextWarning = function() {
pendingLegacyContextWarning.forEach(function(fiberArray, strictRoot) {
if (fiberArray.length === 0) {
return;
}
var firstFiber = fiberArray[0];
var uniqueNames = /* @__PURE__ */ new Set();
fiberArray.forEach(function(fiber) {
uniqueNames.add(getComponentNameFromFiber(fiber) || "Component");
didWarnAboutLegacyContext.add(fiber.type);
});
var sortedNames = setToSortedString(uniqueNames);
try {
setCurrentFiber(firstFiber);
error("Legacy context API has been detected within a strict-mode tree.\n\nThe old API will be supported in all 16.x releases, but applications using it should migrate to the new version.\n\nPlease update the following components: %s\n\nLearn more about this warning here: https://reactjs.org/link/legacy-context", sortedNames);
} finally {
resetCurrentFiber();
}
});
};
ReactStrictModeWarnings.discardPendingWarnings = function() {
pendingComponentWillMountWarnings = [];
pendingUNSAFE_ComponentWillMountWarnings = [];
pendingComponentWillReceivePropsWarnings = [];
pendingUNSAFE_ComponentWillReceivePropsWarnings = [];
pendingComponentWillUpdateWarnings = [];
pendingUNSAFE_ComponentWillUpdateWarnings = [];
pendingLegacyContextWarning = /* @__PURE__ */ new Map();
};
}
function resolveDefaultProps(Component, baseProps) {
if (Component && Component.defaultProps) {
var props = assign({}, baseProps);
var defaultProps = Component.defaultProps;
for (var propName in defaultProps) {
if (props[propName] === void 0) {
props[propName] = defaultProps[propName];
}
}
return props;
}
return baseProps;
}
var valueCursor = createCursor(null);
var rendererSigil;
{
rendererSigil = {};
}
var currentlyRenderingFiber = null;
var lastContextDependency = null;
var lastFullyObservedContext = null;
var isDisallowedContextReadInDEV = false;
function resetContextDependencies() {
currentlyRenderingFiber = null;
lastContextDependency = null;
lastFullyObservedContext = null;
{
isDisallowedContextReadInDEV = false;
}
}
function enterDisallowedContextReadInDEV() {
{
isDisallowedContextReadInDEV = true;
}
}
function exitDisallowedContextReadInDEV() {
{
isDisallowedContextReadInDEV = false;
}
}
function pushProvider(providerFiber, context, nextValue) {
{
push2(valueCursor, context._currentValue, providerFiber);
context._currentValue = nextValue;
{
if (context._currentRenderer !== void 0 && context._currentRenderer !== null && context._currentRenderer !== rendererSigil) {
error("Detected multiple renderers concurrently rendering the same context provider. This is currently unsupported.");
}
context._currentRenderer = rendererSigil;
}
}
}
function popProvider(context, providerFiber) {
var currentValue = valueCursor.current;
pop(valueCursor, providerFiber);
{
{
context._currentValue = currentValue;
}
}
}
function scheduleContextWorkOnParentPath(parent, renderLanes2, propagationRoot) {
var node = parent;
while (node !== null) {
var alternate = node.alternate;
if (!isSubsetOfLanes(node.childLanes, renderLanes2)) {
node.childLanes = mergeLanes(node.childLanes, renderLanes2);
if (alternate !== null) {
alternate.childLanes = mergeLanes(alternate.childLanes, renderLanes2);
}
} else if (alternate !== null && !isSubsetOfLanes(alternate.childLanes, renderLanes2)) {
alternate.childLanes = mergeLanes(alternate.childLanes, renderLanes2);
}
if (node === propagationRoot) {
break;
}
node = node.return;
}
{
if (node !== propagationRoot) {
error("Expected to find the propagation root when scheduling context work. This error is likely caused by a bug in React. Please file an issue.");
}
}
}
function propagateContextChange(workInProgress2, context, renderLanes2) {
{
propagateContextChange_eager(workInProgress2, context, renderLanes2);
}
}
function propagateContextChange_eager(workInProgress2, context, renderLanes2) {
var fiber = workInProgress2.child;
if (fiber !== null) {
fiber.return = workInProgress2;
}
while (fiber !== null) {
var nextFiber = void 0;
var list = fiber.dependencies;
if (list !== null) {
nextFiber = fiber.child;
var dependency = list.firstContext;
while (dependency !== null) {
if (dependency.context === context) {
if (fiber.tag === ClassComponent) {
var lane = pickArbitraryLane(renderLanes2);
var update = createUpdate(NoTimestamp, lane);
update.tag = ForceUpdate;
var updateQueue = fiber.updateQueue;
if (updateQueue === null)
;
else {
var sharedQueue = updateQueue.shared;
var pending = sharedQueue.pending;
if (pending === null) {
update.next = update;
} else {
update.next = pending.next;
pending.next = update;
}
sharedQueue.pending = update;
}
}
fiber.lanes = mergeLanes(fiber.lanes, renderLanes2);
var alternate = fiber.alternate;
if (alternate !== null) {
alternate.lanes = mergeLanes(alternate.lanes, renderLanes2);
}
scheduleContextWorkOnParentPath(fiber.return, renderLanes2, workInProgress2);
list.lanes = mergeLanes(list.lanes, renderLanes2);
break;
}
dependency = dependency.next;
}
} else if (fiber.tag === ContextProvider) {
nextFiber = fiber.type === workInProgress2.type ? null : fiber.child;
} else if (fiber.tag === DehydratedFragment) {
var parentSuspense = fiber.return;
if (parentSuspense === null) {
throw new Error("We just came from a parent so we must have had a parent. This is a bug in React.");
}
parentSuspense.lanes = mergeLanes(parentSuspense.lanes, renderLanes2);
var _alternate = parentSuspense.alternate;
if (_alternate !== null) {
_alternate.lanes = mergeLanes(_alternate.lanes, renderLanes2);
}
scheduleContextWorkOnParentPath(parentSuspense, renderLanes2, workInProgress2);
nextFiber = fiber.sibling;
} else {
nextFiber = fiber.child;
}
if (nextFiber !== null) {
nextFiber.return = fiber;
} else {
nextFiber = fiber;
while (nextFiber !== null) {
if (nextFiber === workInProgress2) {
nextFiber = null;
break;
}
var sibling = nextFiber.sibling;
if (sibling !== null) {
sibling.return = nextFiber.return;
nextFiber = sibling;
break;
}
nextFiber = nextFiber.return;
}
}
fiber = nextFiber;
}
}
function prepareToReadContext(workInProgress2, renderLanes2) {
currentlyRenderingFiber = workInProgress2;
lastContextDependency = null;
lastFullyObservedContext = null;
var dependencies = workInProgress2.dependencies;
if (dependencies !== null) {
{
var firstContext = dependencies.firstContext;
if (firstContext !== null) {
if (includesSomeLane(dependencies.lanes, renderLanes2)) {
markWorkInProgressReceivedUpdate();
}
dependencies.firstContext = null;
}
}
}
}
function readContext(context) {
{
if (isDisallowedContextReadInDEV) {
error("Context can only be read while React is rendering. In classes, you can read it in the render method or getDerivedStateFromProps. In function components, you can read it directly in the function body, but not inside Hooks like useReducer() or useMemo().");
}
}
var value = context._currentValue;
if (lastFullyObservedContext === context)
;
else {
var contextItem = {
context,
memoizedValue: value,
next: null
};
if (lastContextDependency === null) {
if (currentlyRenderingFiber === null) {
throw new Error("Context can only be read while React is rendering. In classes, you can read it in the render method or getDerivedStateFromProps. In function components, you can read it directly in the function body, but not inside Hooks like useReducer() or useMemo().");
}
lastContextDependency = contextItem;
currentlyRenderingFiber.dependencies = {
lanes: NoLanes,
firstContext: contextItem
};
} else {
lastContextDependency = lastContextDependency.next = contextItem;
}
}
return value;
}
var concurrentQueues = null;
function pushConcurrentUpdateQueue(queue) {
if (concurrentQueues === null) {
concurrentQueues = [queue];
} else {
concurrentQueues.push(queue);
}
}
function finishQueueingConcurrentUpdates() {
if (concurrentQueues !== null) {
for (var i = 0; i < concurrentQueues.length; i++) {
var queue = concurrentQueues[i];
var lastInterleavedUpdate = queue.interleaved;
if (lastInterleavedUpdate !== null) {
queue.interleaved = null;
var firstInterleavedUpdate = lastInterleavedUpdate.next;
var lastPendingUpdate = queue.pending;
if (lastPendingUpdate !== null) {
var firstPendingUpdate = lastPendingUpdate.next;
lastPendingUpdate.next = firstInterleavedUpdate;
lastInterleavedUpdate.next = firstPendingUpdate;
}
queue.pending = lastInterleavedUpdate;
}
}
concurrentQueues = null;
}
}
function enqueueConcurrentHookUpdate(fiber, queue, update, lane) {
var interleaved = queue.interleaved;
if (interleaved === null) {
update.next = update;
pushConcurrentUpdateQueue(queue);
} else {
update.next = interleaved.next;
interleaved.next = update;
}
queue.interleaved = update;
return markUpdateLaneFromFiberToRoot(fiber, lane);
}
function enqueueConcurrentHookUpdateAndEagerlyBailout(fiber, queue, update, lane) {
var interleaved = queue.interleaved;
if (interleaved === null) {
update.next = update;
pushConcurrentUpdateQueue(queue);
} else {
update.next = interleaved.next;
interleaved.next = update;
}
queue.interleaved = update;
}
function enqueueConcurrentClassUpdate(fiber, queue, update, lane) {
var interleaved = queue.interleaved;
if (interleaved === null) {
update.next = update;
pushConcurrentUpdateQueue(queue);
} else {
update.next = interleaved.next;
interleaved.next = update;
}
queue.interleaved = update;
return markUpdateLaneFromFiberToRoot(fiber, lane);
}
function enqueueConcurrentRenderForLane(fiber, lane) {
return markUpdateLaneFromFiberToRoot(fiber, lane);
}
var unsafe_markUpdateLaneFromFiberToRoot = markUpdateLaneFromFiberToRoot;
function markUpdateLaneFromFiberToRoot(sourceFiber, lane) {
sourceFiber.lanes = mergeLanes(sourceFiber.lanes, lane);
var alternate = sourceFiber.alternate;
if (alternate !== null) {
alternate.lanes = mergeLanes(alternate.lanes, lane);
}
{
if (alternate === null && (sourceFiber.flags & (Placement | Hydrating)) !== NoFlags) {
warnAboutUpdateOnNotYetMountedFiberInDEV(sourceFiber);
}
}
var node = sourceFiber;
var parent = sourceFiber.return;
while (parent !== null) {
parent.childLanes = mergeLanes(parent.childLanes, lane);
alternate = parent.alternate;
if (alternate !== null) {
alternate.childLanes = mergeLanes(alternate.childLanes, lane);
} else {
{
if ((parent.flags & (Placement | Hydrating)) !== NoFlags) {
warnAboutUpdateOnNotYetMountedFiberInDEV(sourceFiber);
}
}
}
node = parent;
parent = parent.return;
}
if (node.tag === HostRoot) {
var root2 = node.stateNode;
return root2;
} else {
return null;
}
}
var UpdateState = 0;
var ReplaceState = 1;
var ForceUpdate = 2;
var CaptureUpdate = 3;
var hasForceUpdate = false;
var didWarnUpdateInsideUpdate;
var currentlyProcessingQueue;
{
didWarnUpdateInsideUpdate = false;
currentlyProcessingQueue = null;
}
function initializeUpdateQueue(fiber) {
var queue = {
baseState: fiber.memoizedState,
firstBaseUpdate: null,
lastBaseUpdate: null,
shared: {
pending: null,
interleaved: null,
lanes: NoLanes
},
effects: null
};
fiber.updateQueue = queue;
}
function cloneUpdateQueue(current2, workInProgress2) {
var queue = workInProgress2.updateQueue;
var currentQueue = current2.updateQueue;
if (queue === currentQueue) {
var clone = {
baseState: currentQueue.baseState,
firstBaseUpdate: currentQueue.firstBaseUpdate,
lastBaseUpdate: currentQueue.lastBaseUpdate,
shared: currentQueue.shared,
effects: currentQueue.effects
};
workInProgress2.updateQueue = clone;
}
}
function createUpdate(eventTime, lane) {
var update = {
eventTime,
lane,
tag: UpdateState,
payload: null,
callback: null,
next: null
};
return update;
}
function enqueueUpdate(fiber, update, lane) {
var updateQueue = fiber.updateQueue;
if (updateQueue === null) {
return null;
}
var sharedQueue = updateQueue.shared;
{
if (currentlyProcessingQueue === sharedQueue && !didWarnUpdateInsideUpdate) {
error("An update (setState, replaceState, or forceUpdate) was scheduled from inside an update function. Update functions should be pure, with zero side-effects. Consider using componentDidUpdate or a callback.");
didWarnUpdateInsideUpdate = true;
}
}
if (isUnsafeClassRenderPhaseUpdate()) {
var pending = sharedQueue.pending;
if (pending === null) {
update.next = update;
} else {
update.next = pending.next;
pending.next = update;
}
sharedQueue.pending = update;
return unsafe_markUpdateLaneFromFiberToRoot(fiber, lane);
} else {
return enqueueConcurrentClassUpdate(fiber, sharedQueue, update, lane);
}
}
function entangleTransitions(root2, fiber, lane) {
var updateQueue = fiber.updateQueue;
if (updateQueue === null) {
return;
}
var sharedQueue = updateQueue.shared;
if (isTransitionLane(lane)) {
var queueLanes = sharedQueue.lanes;
queueLanes = intersectLanes(queueLanes, root2.pendingLanes);
var newQueueLanes = mergeLanes(queueLanes, lane);
sharedQueue.lanes = newQueueLanes;
markRootEntangled(root2, newQueueLanes);
}
}
function enqueueCapturedUpdate(workInProgress2, capturedUpdate) {
var queue = workInProgress2.updateQueue;
var current2 = workInProgress2.alternate;
if (current2 !== null) {
var currentQueue = current2.updateQueue;
if (queue === currentQueue) {
var newFirst = null;
var newLast = null;
var firstBaseUpdate = queue.firstBaseUpdate;
if (firstBaseUpdate !== null) {
var update = firstBaseUpdate;
do {
var clone = {
eventTime: update.eventTime,
lane: update.lane,
tag: update.tag,
payload: update.payload,
callback: update.callback,
next: null
};
if (newLast === null) {
newFirst = newLast = clone;
} else {
newLast.next = clone;
newLast = clone;
}
update = update.next;
} while (update !== null);
if (newLast === null) {
newFirst = newLast = capturedUpdate;
} else {
newLast.next = capturedUpdate;
newLast = capturedUpdate;
}
} else {
newFirst = newLast = capturedUpdate;
}
queue = {
baseState: currentQueue.baseState,
firstBaseUpdate: newFirst,
lastBaseUpdate: newLast,
shared: currentQueue.shared,
effects: currentQueue.effects
};
workInProgress2.updateQueue = queue;
return;
}
}
var lastBaseUpdate = queue.lastBaseUpdate;
if (lastBaseUpdate === null) {
queue.firstBaseUpdate = capturedUpdate;
} else {
lastBaseUpdate.next = capturedUpdate;
}
queue.lastBaseUpdate = capturedUpdate;
}
function getStateFromUpdate(workInProgress2, queue, update, prevState, nextProps, instance) {
switch (update.tag) {
case ReplaceState: {
var payload = update.payload;
if (typeof payload === "function") {
{
enterDisallowedContextReadInDEV();
}
var nextState = payload.call(instance, prevState, nextProps);
{
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
payload.call(instance, prevState, nextProps);
} finally {
setIsStrictModeForDevtools(false);
}
}
exitDisallowedContextReadInDEV();
}
return nextState;
}
return payload;
}
case CaptureUpdate: {
workInProgress2.flags = workInProgress2.flags & ~ShouldCapture | DidCapture;
}
case UpdateState: {
var _payload = update.payload;
var partialState;
if (typeof _payload === "function") {
{
enterDisallowedContextReadInDEV();
}
partialState = _payload.call(instance, prevState, nextProps);
{
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
_payload.call(instance, prevState, nextProps);
} finally {
setIsStrictModeForDevtools(false);
}
}
exitDisallowedContextReadInDEV();
}
} else {
partialState = _payload;
}
if (partialState === null || partialState === void 0) {
return prevState;
}
return assign({}, prevState, partialState);
}
case ForceUpdate: {
hasForceUpdate = true;
return prevState;
}
}
return prevState;
}
function processUpdateQueue(workInProgress2, props, instance, renderLanes2) {
var queue = workInProgress2.updateQueue;
hasForceUpdate = false;
{
currentlyProcessingQueue = queue.shared;
}
var firstBaseUpdate = queue.firstBaseUpdate;
var lastBaseUpdate = queue.lastBaseUpdate;
var pendingQueue = queue.shared.pending;
if (pendingQueue !== null) {
queue.shared.pending = null;
var lastPendingUpdate = pendingQueue;
var firstPendingUpdate = lastPendingUpdate.next;
lastPendingUpdate.next = null;
if (lastBaseUpdate === null) {
firstBaseUpdate = firstPendingUpdate;
} else {
lastBaseUpdate.next = firstPendingUpdate;
}
lastBaseUpdate = lastPendingUpdate;
var current2 = workInProgress2.alternate;
if (current2 !== null) {
var currentQueue = current2.updateQueue;
var currentLastBaseUpdate = currentQueue.lastBaseUpdate;
if (currentLastBaseUpdate !== lastBaseUpdate) {
if (currentLastBaseUpdate === null) {
currentQueue.firstBaseUpdate = firstPendingUpdate;
} else {
currentLastBaseUpdate.next = firstPendingUpdate;
}
currentQueue.lastBaseUpdate = lastPendingUpdate;
}
}
}
if (firstBaseUpdate !== null) {
var newState = queue.baseState;
var newLanes = NoLanes;
var newBaseState = null;
var newFirstBaseUpdate = null;
var newLastBaseUpdate = null;
var update = firstBaseUpdate;
do {
var updateLane = update.lane;
var updateEventTime = update.eventTime;
if (!isSubsetOfLanes(renderLanes2, updateLane)) {
var clone = {
eventTime: updateEventTime,
lane: updateLane,
tag: update.tag,
payload: update.payload,
callback: update.callback,
next: null
};
if (newLastBaseUpdate === null) {
newFirstBaseUpdate = newLastBaseUpdate = clone;
newBaseState = newState;
} else {
newLastBaseUpdate = newLastBaseUpdate.next = clone;
}
newLanes = mergeLanes(newLanes, updateLane);
} else {
if (newLastBaseUpdate !== null) {
var _clone = {
eventTime: updateEventTime,
// This update is going to be committed so we never want uncommit
// it. Using NoLane works because 0 is a subset of all bitmasks, so
// this will never be skipped by the check above.
lane: NoLane,
tag: update.tag,
payload: update.payload,
callback: update.callback,
next: null
};
newLastBaseUpdate = newLastBaseUpdate.next = _clone;
}
newState = getStateFromUpdate(workInProgress2, queue, update, newState, props, instance);
var callback = update.callback;
if (callback !== null && // If the update was already committed, we should not queue its
// callback again.
update.lane !== NoLane) {
workInProgress2.flags |= Callback;
var effects = queue.effects;
if (effects === null) {
queue.effects = [update];
} else {
effects.push(update);
}
}
}
update = update.next;
if (update === null) {
pendingQueue = queue.shared.pending;
if (pendingQueue === null) {
break;
} else {
var _lastPendingUpdate = pendingQueue;
var _firstPendingUpdate = _lastPendingUpdate.next;
_lastPendingUpdate.next = null;
update = _firstPendingUpdate;
queue.lastBaseUpdate = _lastPendingUpdate;
queue.shared.pending = null;
}
}
} while (true);
if (newLastBaseUpdate === null) {
newBaseState = newState;
}
queue.baseState = newBaseState;
queue.firstBaseUpdate = newFirstBaseUpdate;
queue.lastBaseUpdate = newLastBaseUpdate;
var lastInterleaved = queue.shared.interleaved;
if (lastInterleaved !== null) {
var interleaved = lastInterleaved;
do {
newLanes = mergeLanes(newLanes, interleaved.lane);
interleaved = interleaved.next;
} while (interleaved !== lastInterleaved);
} else if (firstBaseUpdate === null) {
queue.shared.lanes = NoLanes;
}
markSkippedUpdateLanes(newLanes);
workInProgress2.lanes = newLanes;
workInProgress2.memoizedState = newState;
}
{
currentlyProcessingQueue = null;
}
}
function callCallback(callback, context) {
if (typeof callback !== "function") {
throw new Error("Invalid argument passed as callback. Expected a function. Instead " + ("received: " + callback));
}
callback.call(context);
}
function resetHasForceUpdateBeforeProcessing() {
hasForceUpdate = false;
}
function checkHasForceUpdateAfterProcessing() {
return hasForceUpdate;
}
function commitUpdateQueue(finishedWork, finishedQueue, instance) {
var effects = finishedQueue.effects;
finishedQueue.effects = null;
if (effects !== null) {
for (var i = 0; i < effects.length; i++) {
var effect = effects[i];
var callback = effect.callback;
if (callback !== null) {
effect.callback = null;
callCallback(callback, instance);
}
}
}
}
var fakeInternalInstance = {};
var emptyRefsObject = new React17.Component().refs;
var didWarnAboutStateAssignmentForComponent;
var didWarnAboutUninitializedState;
var didWarnAboutGetSnapshotBeforeUpdateWithoutDidUpdate;
var didWarnAboutLegacyLifecyclesAndDerivedState;
var didWarnAboutUndefinedDerivedState;
var warnOnUndefinedDerivedState;
var warnOnInvalidCallback;
var didWarnAboutDirectlyAssigningPropsToState;
var didWarnAboutContextTypeAndContextTypes;
var didWarnAboutInvalidateContextType;
{
didWarnAboutStateAssignmentForComponent = /* @__PURE__ */ new Set();
didWarnAboutUninitializedState = /* @__PURE__ */ new Set();
didWarnAboutGetSnapshotBeforeUpdateWithoutDidUpdate = /* @__PURE__ */ new Set();
didWarnAboutLegacyLifecyclesAndDerivedState = /* @__PURE__ */ new Set();
didWarnAboutDirectlyAssigningPropsToState = /* @__PURE__ */ new Set();
didWarnAboutUndefinedDerivedState = /* @__PURE__ */ new Set();
didWarnAboutContextTypeAndContextTypes = /* @__PURE__ */ new Set();
didWarnAboutInvalidateContextType = /* @__PURE__ */ new Set();
var didWarnOnInvalidCallback = /* @__PURE__ */ new Set();
warnOnInvalidCallback = function(callback, callerName) {
if (callback === null || typeof callback === "function") {
return;
}
var key = callerName + "_" + callback;
if (!didWarnOnInvalidCallback.has(key)) {
didWarnOnInvalidCallback.add(key);
error("%s(...): Expected the last optional `callback` argument to be a function. Instead received: %s.", callerName, callback);
}
};
warnOnUndefinedDerivedState = function(type, partialState) {
if (partialState === void 0) {
var componentName = getComponentNameFromType(type) || "Component";
if (!didWarnAboutUndefinedDerivedState.has(componentName)) {
didWarnAboutUndefinedDerivedState.add(componentName);
error("%s.getDerivedStateFromProps(): A valid state object (or null) must be returned. You have returned undefined.", componentName);
}
}
};
Object.defineProperty(fakeInternalInstance, "_processChildContext", {
enumerable: false,
value: function() {
throw new Error("_processChildContext is not available in React 16+. This likely means you have multiple copies of React and are attempting to nest a React 15 tree inside a React 16 tree using unstable_renderSubtreeIntoContainer, which isn't supported. Try to make sure you have only one copy of React (and ideally, switch to ReactDOM.createPortal).");
}
});
Object.freeze(fakeInternalInstance);
}
function applyDerivedStateFromProps(workInProgress2, ctor, getDerivedStateFromProps, nextProps) {
var prevState = workInProgress2.memoizedState;
var partialState = getDerivedStateFromProps(nextProps, prevState);
{
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
partialState = getDerivedStateFromProps(nextProps, prevState);
} finally {
setIsStrictModeForDevtools(false);
}
}
warnOnUndefinedDerivedState(ctor, partialState);
}
var memoizedState = partialState === null || partialState === void 0 ? prevState : assign({}, prevState, partialState);
workInProgress2.memoizedState = memoizedState;
if (workInProgress2.lanes === NoLanes) {
var updateQueue = workInProgress2.updateQueue;
updateQueue.baseState = memoizedState;
}
}
var classComponentUpdater = {
isMounted,
enqueueSetState: function(inst, payload, callback) {
var fiber = get(inst);
var eventTime = requestEventTime();
var lane = requestUpdateLane(fiber);
var update = createUpdate(eventTime, lane);
update.payload = payload;
if (callback !== void 0 && callback !== null) {
{
warnOnInvalidCallback(callback, "setState");
}
update.callback = callback;
}
var root2 = enqueueUpdate(fiber, update, lane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, lane, eventTime);
entangleTransitions(root2, fiber, lane);
}
{
markStateUpdateScheduled(fiber, lane);
}
},
enqueueReplaceState: function(inst, payload, callback) {
var fiber = get(inst);
var eventTime = requestEventTime();
var lane = requestUpdateLane(fiber);
var update = createUpdate(eventTime, lane);
update.tag = ReplaceState;
update.payload = payload;
if (callback !== void 0 && callback !== null) {
{
warnOnInvalidCallback(callback, "replaceState");
}
update.callback = callback;
}
var root2 = enqueueUpdate(fiber, update, lane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, lane, eventTime);
entangleTransitions(root2, fiber, lane);
}
{
markStateUpdateScheduled(fiber, lane);
}
},
enqueueForceUpdate: function(inst, callback) {
var fiber = get(inst);
var eventTime = requestEventTime();
var lane = requestUpdateLane(fiber);
var update = createUpdate(eventTime, lane);
update.tag = ForceUpdate;
if (callback !== void 0 && callback !== null) {
{
warnOnInvalidCallback(callback, "forceUpdate");
}
update.callback = callback;
}
var root2 = enqueueUpdate(fiber, update, lane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, lane, eventTime);
entangleTransitions(root2, fiber, lane);
}
{
markForceUpdateScheduled(fiber, lane);
}
}
};
function checkShouldComponentUpdate(workInProgress2, ctor, oldProps, newProps, oldState, newState, nextContext) {
var instance = workInProgress2.stateNode;
if (typeof instance.shouldComponentUpdate === "function") {
var shouldUpdate = instance.shouldComponentUpdate(newProps, newState, nextContext);
{
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
shouldUpdate = instance.shouldComponentUpdate(newProps, newState, nextContext);
} finally {
setIsStrictModeForDevtools(false);
}
}
if (shouldUpdate === void 0) {
error("%s.shouldComponentUpdate(): Returned undefined instead of a boolean value. Make sure to return true or false.", getComponentNameFromType(ctor) || "Component");
}
}
return shouldUpdate;
}
if (ctor.prototype && ctor.prototype.isPureReactComponent) {
return !shallowEqual(oldProps, newProps) || !shallowEqual(oldState, newState);
}
return true;
}
function checkClassInstance(workInProgress2, ctor, newProps) {
var instance = workInProgress2.stateNode;
{
var name = getComponentNameFromType(ctor) || "Component";
var renderPresent = instance.render;
if (!renderPresent) {
if (ctor.prototype && typeof ctor.prototype.render === "function") {
error("%s(...): No `render` method found on the returned component instance: did you accidentally return an object from the constructor?", name);
} else {
error("%s(...): No `render` method found on the returned component instance: you may have forgotten to define `render`.", name);
}
}
if (instance.getInitialState && !instance.getInitialState.isReactClassApproved && !instance.state) {
error("getInitialState was defined on %s, a plain JavaScript class. This is only supported for classes created using React.createClass. Did you mean to define a state property instead?", name);
}
if (instance.getDefaultProps && !instance.getDefaultProps.isReactClassApproved) {
error("getDefaultProps was defined on %s, a plain JavaScript class. This is only supported for classes created using React.createClass. Use a static property to define defaultProps instead.", name);
}
if (instance.propTypes) {
error("propTypes was defined as an instance property on %s. Use a static property to define propTypes instead.", name);
}
if (instance.contextType) {
error("contextType was defined as an instance property on %s. Use a static property to define contextType instead.", name);
}
{
if (instance.contextTypes) {
error("contextTypes was defined as an instance property on %s. Use a static property to define contextTypes instead.", name);
}
if (ctor.contextType && ctor.contextTypes && !didWarnAboutContextTypeAndContextTypes.has(ctor)) {
didWarnAboutContextTypeAndContextTypes.add(ctor);
error("%s declares both contextTypes and contextType static properties. The legacy contextTypes property will be ignored.", name);
}
}
if (typeof instance.componentShouldUpdate === "function") {
error("%s has a method called componentShouldUpdate(). Did you mean shouldComponentUpdate()? The name is phrased as a question because the function is expected to return a value.", name);
}
if (ctor.prototype && ctor.prototype.isPureReactComponent && typeof instance.shouldComponentUpdate !== "undefined") {
error("%s has a method called shouldComponentUpdate(). shouldComponentUpdate should not be used when extending React.PureComponent. Please extend React.Component if shouldComponentUpdate is used.", getComponentNameFromType(ctor) || "A pure component");
}
if (typeof instance.componentDidUnmount === "function") {
error("%s has a method called componentDidUnmount(). But there is no such lifecycle method. Did you mean componentWillUnmount()?", name);
}
if (typeof instance.componentDidReceiveProps === "function") {
error("%s has a method called componentDidReceiveProps(). But there is no such lifecycle method. If you meant to update the state in response to changing props, use componentWillReceiveProps(). If you meant to fetch data or run side-effects or mutations after React has updated the UI, use componentDidUpdate().", name);
}
if (typeof instance.componentWillRecieveProps === "function") {
error("%s has a method called componentWillRecieveProps(). Did you mean componentWillReceiveProps()?", name);
}
if (typeof instance.UNSAFE_componentWillRecieveProps === "function") {
error("%s has a method called UNSAFE_componentWillRecieveProps(). Did you mean UNSAFE_componentWillReceiveProps()?", name);
}
var hasMutatedProps = instance.props !== newProps;
if (instance.props !== void 0 && hasMutatedProps) {
error("%s(...): When calling super() in `%s`, make sure to pass up the same props that your component's constructor was passed.", name, name);
}
if (instance.defaultProps) {
error("Setting defaultProps as an instance property on %s is not supported and will be ignored. Instead, define defaultProps as a static property on %s.", name, name);
}
if (typeof instance.getSnapshotBeforeUpdate === "function" && typeof instance.componentDidUpdate !== "function" && !didWarnAboutGetSnapshotBeforeUpdateWithoutDidUpdate.has(ctor)) {
didWarnAboutGetSnapshotBeforeUpdateWithoutDidUpdate.add(ctor);
error("%s: getSnapshotBeforeUpdate() should be used with componentDidUpdate(). This component defines getSnapshotBeforeUpdate() only.", getComponentNameFromType(ctor));
}
if (typeof instance.getDerivedStateFromProps === "function") {
error("%s: getDerivedStateFromProps() is defined as an instance method and will be ignored. Instead, declare it as a static method.", name);
}
if (typeof instance.getDerivedStateFromError === "function") {
error("%s: getDerivedStateFromError() is defined as an instance method and will be ignored. Instead, declare it as a static method.", name);
}
if (typeof ctor.getSnapshotBeforeUpdate === "function") {
error("%s: getSnapshotBeforeUpdate() is defined as a static method and will be ignored. Instead, declare it as an instance method.", name);
}
var _state = instance.state;
if (_state && (typeof _state !== "object" || isArray2(_state))) {
error("%s.state: must be set to an object or null", name);
}
if (typeof instance.getChildContext === "function" && typeof ctor.childContextTypes !== "object") {
error("%s.getChildContext(): childContextTypes must be defined in order to use getChildContext().", name);
}
}
}
function adoptClassInstance(workInProgress2, instance) {
instance.updater = classComponentUpdater;
workInProgress2.stateNode = instance;
set(instance, workInProgress2);
{
instance._reactInternalInstance = fakeInternalInstance;
}
}
function constructClassInstance(workInProgress2, ctor, props) {
var isLegacyContextConsumer = false;
var unmaskedContext = emptyContextObject;
var context = emptyContextObject;
var contextType = ctor.contextType;
{
if ("contextType" in ctor) {
var isValid2 = (
// Allow null for conditional declaration
contextType === null || contextType !== void 0 && contextType.$$typeof === REACT_CONTEXT_TYPE && contextType._context === void 0
);
if (!isValid2 && !didWarnAboutInvalidateContextType.has(ctor)) {
didWarnAboutInvalidateContextType.add(ctor);
var addendum = "";
if (contextType === void 0) {
addendum = " However, it is set to undefined. This can be caused by a typo or by mixing up named and default imports. This can also happen due to a circular dependency, so try moving the createContext() call to a separate file.";
} else if (typeof contextType !== "object") {
addendum = " However, it is set to a " + typeof contextType + ".";
} else if (contextType.$$typeof === REACT_PROVIDER_TYPE) {
addendum = " Did you accidentally pass the Context.Provider instead?";
} else if (contextType._context !== void 0) {
addendum = " Did you accidentally pass the Context.Consumer instead?";
} else {
addendum = " However, it is set to an object with keys {" + Object.keys(contextType).join(", ") + "}.";
}
error("%s defines an invalid contextType. contextType should point to the Context object returned by React.createContext().%s", getComponentNameFromType(ctor) || "Component", addendum);
}
}
}
if (typeof contextType === "object" && contextType !== null) {
context = readContext(contextType);
} else {
unmaskedContext = getUnmaskedContext(workInProgress2, ctor, true);
var contextTypes = ctor.contextTypes;
isLegacyContextConsumer = contextTypes !== null && contextTypes !== void 0;
context = isLegacyContextConsumer ? getMaskedContext(workInProgress2, unmaskedContext) : emptyContextObject;
}
var instance = new ctor(props, context);
{
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
instance = new ctor(props, context);
} finally {
setIsStrictModeForDevtools(false);
}
}
}
var state = workInProgress2.memoizedState = instance.state !== null && instance.state !== void 0 ? instance.state : null;
adoptClassInstance(workInProgress2, instance);
{
if (typeof ctor.getDerivedStateFromProps === "function" && state === null) {
var componentName = getComponentNameFromType(ctor) || "Component";
if (!didWarnAboutUninitializedState.has(componentName)) {
didWarnAboutUninitializedState.add(componentName);
error("`%s` uses `getDerivedStateFromProps` but its initial state is %s. This is not recommended. Instead, define the initial state by assigning an object to `this.state` in the constructor of `%s`. This ensures that `getDerivedStateFromProps` arguments have a consistent shape.", componentName, instance.state === null ? "null" : "undefined", componentName);
}
}
if (typeof ctor.getDerivedStateFromProps === "function" || typeof instance.getSnapshotBeforeUpdate === "function") {
var foundWillMountName = null;
var foundWillReceivePropsName = null;
var foundWillUpdateName = null;
if (typeof instance.componentWillMount === "function" && instance.componentWillMount.__suppressDeprecationWarning !== true) {
foundWillMountName = "componentWillMount";
} else if (typeof instance.UNSAFE_componentWillMount === "function") {
foundWillMountName = "UNSAFE_componentWillMount";
}
if (typeof instance.componentWillReceiveProps === "function" && instance.componentWillReceiveProps.__suppressDeprecationWarning !== true) {
foundWillReceivePropsName = "componentWillReceiveProps";
} else if (typeof instance.UNSAFE_componentWillReceiveProps === "function") {
foundWillReceivePropsName = "UNSAFE_componentWillReceiveProps";
}
if (typeof instance.componentWillUpdate === "function" && instance.componentWillUpdate.__suppressDeprecationWarning !== true) {
foundWillUpdateName = "componentWillUpdate";
} else if (typeof instance.UNSAFE_componentWillUpdate === "function") {
foundWillUpdateName = "UNSAFE_componentWillUpdate";
}
if (foundWillMountName !== null || foundWillReceivePropsName !== null || foundWillUpdateName !== null) {
var _componentName = getComponentNameFromType(ctor) || "Component";
var newApiName = typeof ctor.getDerivedStateFromProps === "function" ? "getDerivedStateFromProps()" : "getSnapshotBeforeUpdate()";
if (!didWarnAboutLegacyLifecyclesAndDerivedState.has(_componentName)) {
didWarnAboutLegacyLifecyclesAndDerivedState.add(_componentName);
error("Unsafe legacy lifecycles will not be called for components using new component APIs.\n\n%s uses %s but also contains the following legacy lifecycles:%s%s%s\n\nThe above lifecycles should be removed. Learn more about this warning here:\nhttps://reactjs.org/link/unsafe-component-lifecycles", _componentName, newApiName, foundWillMountName !== null ? "\n " + foundWillMountName : "", foundWillReceivePropsName !== null ? "\n " + foundWillReceivePropsName : "", foundWillUpdateName !== null ? "\n " + foundWillUpdateName : "");
}
}
}
}
if (isLegacyContextConsumer) {
cacheContext(workInProgress2, unmaskedContext, context);
}
return instance;
}
function callComponentWillMount(workInProgress2, instance) {
var oldState = instance.state;
if (typeof instance.componentWillMount === "function") {
instance.componentWillMount();
}
if (typeof instance.UNSAFE_componentWillMount === "function") {
instance.UNSAFE_componentWillMount();
}
if (oldState !== instance.state) {
{
error("%s.componentWillMount(): Assigning directly to this.state is deprecated (except inside a component's constructor). Use setState instead.", getComponentNameFromFiber(workInProgress2) || "Component");
}
classComponentUpdater.enqueueReplaceState(instance, instance.state, null);
}
}
function callComponentWillReceiveProps(workInProgress2, instance, newProps, nextContext) {
var oldState = instance.state;
if (typeof instance.componentWillReceiveProps === "function") {
instance.componentWillReceiveProps(newProps, nextContext);
}
if (typeof instance.UNSAFE_componentWillReceiveProps === "function") {
instance.UNSAFE_componentWillReceiveProps(newProps, nextContext);
}
if (instance.state !== oldState) {
{
var componentName = getComponentNameFromFiber(workInProgress2) || "Component";
if (!didWarnAboutStateAssignmentForComponent.has(componentName)) {
didWarnAboutStateAssignmentForComponent.add(componentName);
error("%s.componentWillReceiveProps(): Assigning directly to this.state is deprecated (except inside a component's constructor). Use setState instead.", componentName);
}
}
classComponentUpdater.enqueueReplaceState(instance, instance.state, null);
}
}
function mountClassInstance(workInProgress2, ctor, newProps, renderLanes2) {
{
checkClassInstance(workInProgress2, ctor, newProps);
}
var instance = workInProgress2.stateNode;
instance.props = newProps;
instance.state = workInProgress2.memoizedState;
instance.refs = emptyRefsObject;
initializeUpdateQueue(workInProgress2);
var contextType = ctor.contextType;
if (typeof contextType === "object" && contextType !== null) {
instance.context = readContext(contextType);
} else {
var unmaskedContext = getUnmaskedContext(workInProgress2, ctor, true);
instance.context = getMaskedContext(workInProgress2, unmaskedContext);
}
{
if (instance.state === newProps) {
var componentName = getComponentNameFromType(ctor) || "Component";
if (!didWarnAboutDirectlyAssigningPropsToState.has(componentName)) {
didWarnAboutDirectlyAssigningPropsToState.add(componentName);
error("%s: It is not recommended to assign props directly to state because updates to props won't be reflected in state. In most cases, it is better to use props directly.", componentName);
}
}
if (workInProgress2.mode & StrictLegacyMode) {
ReactStrictModeWarnings.recordLegacyContextWarning(workInProgress2, instance);
}
{
ReactStrictModeWarnings.recordUnsafeLifecycleWarnings(workInProgress2, instance);
}
}
instance.state = workInProgress2.memoizedState;
var getDerivedStateFromProps = ctor.getDerivedStateFromProps;
if (typeof getDerivedStateFromProps === "function") {
applyDerivedStateFromProps(workInProgress2, ctor, getDerivedStateFromProps, newProps);
instance.state = workInProgress2.memoizedState;
}
if (typeof ctor.getDerivedStateFromProps !== "function" && typeof instance.getSnapshotBeforeUpdate !== "function" && (typeof instance.UNSAFE_componentWillMount === "function" || typeof instance.componentWillMount === "function")) {
callComponentWillMount(workInProgress2, instance);
processUpdateQueue(workInProgress2, newProps, instance, renderLanes2);
instance.state = workInProgress2.memoizedState;
}
if (typeof instance.componentDidMount === "function") {
var fiberFlags = Update;
{
fiberFlags |= LayoutStatic;
}
if ((workInProgress2.mode & StrictEffectsMode) !== NoMode) {
fiberFlags |= MountLayoutDev;
}
workInProgress2.flags |= fiberFlags;
}
}
function resumeMountClassInstance(workInProgress2, ctor, newProps, renderLanes2) {
var instance = workInProgress2.stateNode;
var oldProps = workInProgress2.memoizedProps;
instance.props = oldProps;
var oldContext = instance.context;
var contextType = ctor.contextType;
var nextContext = emptyContextObject;
if (typeof contextType === "object" && contextType !== null) {
nextContext = readContext(contextType);
} else {
var nextLegacyUnmaskedContext = getUnmaskedContext(workInProgress2, ctor, true);
nextContext = getMaskedContext(workInProgress2, nextLegacyUnmaskedContext);
}
var getDerivedStateFromProps = ctor.getDerivedStateFromProps;
var hasNewLifecycles = typeof getDerivedStateFromProps === "function" || typeof instance.getSnapshotBeforeUpdate === "function";
if (!hasNewLifecycles && (typeof instance.UNSAFE_componentWillReceiveProps === "function" || typeof instance.componentWillReceiveProps === "function")) {
if (oldProps !== newProps || oldContext !== nextContext) {
callComponentWillReceiveProps(workInProgress2, instance, newProps, nextContext);
}
}
resetHasForceUpdateBeforeProcessing();
var oldState = workInProgress2.memoizedState;
var newState = instance.state = oldState;
processUpdateQueue(workInProgress2, newProps, instance, renderLanes2);
newState = workInProgress2.memoizedState;
if (oldProps === newProps && oldState === newState && !hasContextChanged() && !checkHasForceUpdateAfterProcessing()) {
if (typeof instance.componentDidMount === "function") {
var fiberFlags = Update;
{
fiberFlags |= LayoutStatic;
}
if ((workInProgress2.mode & StrictEffectsMode) !== NoMode) {
fiberFlags |= MountLayoutDev;
}
workInProgress2.flags |= fiberFlags;
}
return false;
}
if (typeof getDerivedStateFromProps === "function") {
applyDerivedStateFromProps(workInProgress2, ctor, getDerivedStateFromProps, newProps);
newState = workInProgress2.memoizedState;
}
var shouldUpdate = checkHasForceUpdateAfterProcessing() || checkShouldComponentUpdate(workInProgress2, ctor, oldProps, newProps, oldState, newState, nextContext);
if (shouldUpdate) {
if (!hasNewLifecycles && (typeof instance.UNSAFE_componentWillMount === "function" || typeof instance.componentWillMount === "function")) {
if (typeof instance.componentWillMount === "function") {
instance.componentWillMount();
}
if (typeof instance.UNSAFE_componentWillMount === "function") {
instance.UNSAFE_componentWillMount();
}
}
if (typeof instance.componentDidMount === "function") {
var _fiberFlags = Update;
{
_fiberFlags |= LayoutStatic;
}
if ((workInProgress2.mode & StrictEffectsMode) !== NoMode) {
_fiberFlags |= MountLayoutDev;
}
workInProgress2.flags |= _fiberFlags;
}
} else {
if (typeof instance.componentDidMount === "function") {
var _fiberFlags2 = Update;
{
_fiberFlags2 |= LayoutStatic;
}
if ((workInProgress2.mode & StrictEffectsMode) !== NoMode) {
_fiberFlags2 |= MountLayoutDev;
}
workInProgress2.flags |= _fiberFlags2;
}
workInProgress2.memoizedProps = newProps;
workInProgress2.memoizedState = newState;
}
instance.props = newProps;
instance.state = newState;
instance.context = nextContext;
return shouldUpdate;
}
function updateClassInstance(current2, workInProgress2, ctor, newProps, renderLanes2) {
var instance = workInProgress2.stateNode;
cloneUpdateQueue(current2, workInProgress2);
var unresolvedOldProps = workInProgress2.memoizedProps;
var oldProps = workInProgress2.type === workInProgress2.elementType ? unresolvedOldProps : resolveDefaultProps(workInProgress2.type, unresolvedOldProps);
instance.props = oldProps;
var unresolvedNewProps = workInProgress2.pendingProps;
var oldContext = instance.context;
var contextType = ctor.contextType;
var nextContext = emptyContextObject;
if (typeof contextType === "object" && contextType !== null) {
nextContext = readContext(contextType);
} else {
var nextUnmaskedContext = getUnmaskedContext(workInProgress2, ctor, true);
nextContext = getMaskedContext(workInProgress2, nextUnmaskedContext);
}
var getDerivedStateFromProps = ctor.getDerivedStateFromProps;
var hasNewLifecycles = typeof getDerivedStateFromProps === "function" || typeof instance.getSnapshotBeforeUpdate === "function";
if (!hasNewLifecycles && (typeof instance.UNSAFE_componentWillReceiveProps === "function" || typeof instance.componentWillReceiveProps === "function")) {
if (unresolvedOldProps !== unresolvedNewProps || oldContext !== nextContext) {
callComponentWillReceiveProps(workInProgress2, instance, newProps, nextContext);
}
}
resetHasForceUpdateBeforeProcessing();
var oldState = workInProgress2.memoizedState;
var newState = instance.state = oldState;
processUpdateQueue(workInProgress2, newProps, instance, renderLanes2);
newState = workInProgress2.memoizedState;
if (unresolvedOldProps === unresolvedNewProps && oldState === newState && !hasContextChanged() && !checkHasForceUpdateAfterProcessing() && !enableLazyContextPropagation) {
if (typeof instance.componentDidUpdate === "function") {
if (unresolvedOldProps !== current2.memoizedProps || oldState !== current2.memoizedState) {
workInProgress2.flags |= Update;
}
}
if (typeof instance.getSnapshotBeforeUpdate === "function") {
if (unresolvedOldProps !== current2.memoizedProps || oldState !== current2.memoizedState) {
workInProgress2.flags |= Snapshot;
}
}
return false;
}
if (typeof getDerivedStateFromProps === "function") {
applyDerivedStateFromProps(workInProgress2, ctor, getDerivedStateFromProps, newProps);
newState = workInProgress2.memoizedState;
}
var shouldUpdate = checkHasForceUpdateAfterProcessing() || checkShouldComponentUpdate(workInProgress2, ctor, oldProps, newProps, oldState, newState, nextContext) || // TODO: In some cases, we'll end up checking if context has changed twice,
// both before and after `shouldComponentUpdate` has been called. Not ideal,
// but I'm loath to refactor this function. This only happens for memoized
// components so it's not that common.
enableLazyContextPropagation;
if (shouldUpdate) {
if (!hasNewLifecycles && (typeof instance.UNSAFE_componentWillUpdate === "function" || typeof instance.componentWillUpdate === "function")) {
if (typeof instance.componentWillUpdate === "function") {
instance.componentWillUpdate(newProps, newState, nextContext);
}
if (typeof instance.UNSAFE_componentWillUpdate === "function") {
instance.UNSAFE_componentWillUpdate(newProps, newState, nextContext);
}
}
if (typeof instance.componentDidUpdate === "function") {
workInProgress2.flags |= Update;
}
if (typeof instance.getSnapshotBeforeUpdate === "function") {
workInProgress2.flags |= Snapshot;
}
} else {
if (typeof instance.componentDidUpdate === "function") {
if (unresolvedOldProps !== current2.memoizedProps || oldState !== current2.memoizedState) {
workInProgress2.flags |= Update;
}
}
if (typeof instance.getSnapshotBeforeUpdate === "function") {
if (unresolvedOldProps !== current2.memoizedProps || oldState !== current2.memoizedState) {
workInProgress2.flags |= Snapshot;
}
}
workInProgress2.memoizedProps = newProps;
workInProgress2.memoizedState = newState;
}
instance.props = newProps;
instance.state = newState;
instance.context = nextContext;
return shouldUpdate;
}
var didWarnAboutMaps;
var didWarnAboutGenerators;
var didWarnAboutStringRefs;
var ownerHasKeyUseWarning;
var ownerHasFunctionTypeWarning;
var warnForMissingKey = function(child, returnFiber) {
};
{
didWarnAboutMaps = false;
didWarnAboutGenerators = false;
didWarnAboutStringRefs = {};
ownerHasKeyUseWarning = {};
ownerHasFunctionTypeWarning = {};
warnForMissingKey = function(child, returnFiber) {
if (child === null || typeof child !== "object") {
return;
}
if (!child._store || child._store.validated || child.key != null) {
return;
}
if (typeof child._store !== "object") {
throw new Error("React Component in warnForMissingKey should have a _store. This error is likely caused by a bug in React. Please file an issue.");
}
child._store.validated = true;
var componentName = getComponentNameFromFiber(returnFiber) || "Component";
if (ownerHasKeyUseWarning[componentName]) {
return;
}
ownerHasKeyUseWarning[componentName] = true;
error('Each child in a list should have a unique "key" prop. See https://reactjs.org/link/warning-keys for more information.');
};
}
function coerceRef(returnFiber, current2, element) {
var mixedRef = element.ref;
if (mixedRef !== null && typeof mixedRef !== "function" && typeof mixedRef !== "object") {
{
if ((returnFiber.mode & StrictLegacyMode || warnAboutStringRefs) && // We warn in ReactElement.js if owner and self are equal for string refs
// because these cannot be automatically converted to an arrow function
// using a codemod. Therefore, we don't have to warn about string refs again.
!(element._owner && element._self && element._owner.stateNode !== element._self)) {
var componentName = getComponentNameFromFiber(returnFiber) || "Component";
if (!didWarnAboutStringRefs[componentName]) {
{
error('A string ref, "%s", has been found within a strict mode tree. String refs are a source of potential bugs and should be avoided. We recommend using useRef() or createRef() instead. Learn more about using refs safely here: https://reactjs.org/link/strict-mode-string-ref', mixedRef);
}
didWarnAboutStringRefs[componentName] = true;
}
}
}
if (element._owner) {
var owner = element._owner;
var inst;
if (owner) {
var ownerFiber = owner;
if (ownerFiber.tag !== ClassComponent) {
throw new Error("Function components cannot have string refs. We recommend using useRef() instead. Learn more about using refs safely here: https://reactjs.org/link/strict-mode-string-ref");
}
inst = ownerFiber.stateNode;
}
if (!inst) {
throw new Error("Missing owner for string ref " + mixedRef + ". This error is likely caused by a bug in React. Please file an issue.");
}
var resolvedInst = inst;
{
checkPropStringCoercion(mixedRef, "ref");
}
var stringRef = "" + mixedRef;
if (current2 !== null && current2.ref !== null && typeof current2.ref === "function" && current2.ref._stringRef === stringRef) {
return current2.ref;
}
var ref = function(value) {
var refs = resolvedInst.refs;
if (refs === emptyRefsObject) {
refs = resolvedInst.refs = {};
}
if (value === null) {
delete refs[stringRef];
} else {
refs[stringRef] = value;
}
};
ref._stringRef = stringRef;
return ref;
} else {
if (typeof mixedRef !== "string") {
throw new Error("Expected ref to be a function, a string, an object returned by React.createRef(), or null.");
}
if (!element._owner) {
throw new Error("Element ref was specified as a string (" + mixedRef + ") but no owner was set. This could happen for one of the following reasons:\n1. You may be adding a ref to a function component\n2. You may be adding a ref to a component that was not created inside a component's render method\n3. You have multiple copies of React loaded\nSee https://reactjs.org/link/refs-must-have-owner for more information.");
}
}
}
return mixedRef;
}
function throwOnInvalidObjectType(returnFiber, newChild) {
var childString = Object.prototype.toString.call(newChild);
throw new Error("Objects are not valid as a React child (found: " + (childString === "[object Object]" ? "object with keys {" + Object.keys(newChild).join(", ") + "}" : childString) + "). If you meant to render a collection of children, use an array instead.");
}
function warnOnFunctionType(returnFiber) {
{
var componentName = getComponentNameFromFiber(returnFiber) || "Component";
if (ownerHasFunctionTypeWarning[componentName]) {
return;
}
ownerHasFunctionTypeWarning[componentName] = true;
error("Functions are not valid as a React child. This may happen if you return a Component instead of <Component /> from render. Or maybe you meant to call this function rather than return it.");
}
}
function resolveLazy(lazyType2) {
var payload = lazyType2._payload;
var init = lazyType2._init;
return init(payload);
}
function ChildReconciler(shouldTrackSideEffects) {
function deleteChild(returnFiber, childToDelete) {
if (!shouldTrackSideEffects) {
return;
}
var deletions = returnFiber.deletions;
if (deletions === null) {
returnFiber.deletions = [childToDelete];
returnFiber.flags |= ChildDeletion;
} else {
deletions.push(childToDelete);
}
}
function deleteRemainingChildren(returnFiber, currentFirstChild) {
if (!shouldTrackSideEffects) {
return null;
}
var childToDelete = currentFirstChild;
while (childToDelete !== null) {
deleteChild(returnFiber, childToDelete);
childToDelete = childToDelete.sibling;
}
return null;
}
function mapRemainingChildren(returnFiber, currentFirstChild) {
var existingChildren = /* @__PURE__ */ new Map();
var existingChild = currentFirstChild;
while (existingChild !== null) {
if (existingChild.key !== null) {
existingChildren.set(existingChild.key, existingChild);
} else {
existingChildren.set(existingChild.index, existingChild);
}
existingChild = existingChild.sibling;
}
return existingChildren;
}
function useFiber(fiber, pendingProps) {
var clone = createWorkInProgress(fiber, pendingProps);
clone.index = 0;
clone.sibling = null;
return clone;
}
function placeChild(newFiber, lastPlacedIndex, newIndex) {
newFiber.index = newIndex;
if (!shouldTrackSideEffects) {
newFiber.flags |= Forked;
return lastPlacedIndex;
}
var current2 = newFiber.alternate;
if (current2 !== null) {
var oldIndex = current2.index;
if (oldIndex < lastPlacedIndex) {
newFiber.flags |= Placement;
return lastPlacedIndex;
} else {
return oldIndex;
}
} else {
newFiber.flags |= Placement;
return lastPlacedIndex;
}
}
function placeSingleChild(newFiber) {
if (shouldTrackSideEffects && newFiber.alternate === null) {
newFiber.flags |= Placement;
}
return newFiber;
}
function updateTextNode(returnFiber, current2, textContent, lanes) {
if (current2 === null || current2.tag !== HostText) {
var created = createFiberFromText(textContent, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
} else {
var existing = useFiber(current2, textContent);
existing.return = returnFiber;
return existing;
}
}
function updateElement(returnFiber, current2, element, lanes) {
var elementType = element.type;
if (elementType === REACT_FRAGMENT_TYPE) {
return updateFragment2(returnFiber, current2, element.props.children, lanes, element.key);
}
if (current2 !== null) {
if (current2.elementType === elementType || // Keep this check inline so it only runs on the false path:
isCompatibleFamilyForHotReloading(current2, element) || // Lazy types should reconcile their resolved type.
// We need to do this after the Hot Reloading check above,
// because hot reloading has different semantics than prod because
// it doesn't resuspend. So we can't let the call below suspend.
typeof elementType === "object" && elementType !== null && elementType.$$typeof === REACT_LAZY_TYPE && resolveLazy(elementType) === current2.type) {
var existing = useFiber(current2, element.props);
existing.ref = coerceRef(returnFiber, current2, element);
existing.return = returnFiber;
{
existing._debugSource = element._source;
existing._debugOwner = element._owner;
}
return existing;
}
}
var created = createFiberFromElement(element, returnFiber.mode, lanes);
created.ref = coerceRef(returnFiber, current2, element);
created.return = returnFiber;
return created;
}
function updatePortal(returnFiber, current2, portal, lanes) {
if (current2 === null || current2.tag !== HostPortal || current2.stateNode.containerInfo !== portal.containerInfo || current2.stateNode.implementation !== portal.implementation) {
var created = createFiberFromPortal(portal, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
} else {
var existing = useFiber(current2, portal.children || []);
existing.return = returnFiber;
return existing;
}
}
function updateFragment2(returnFiber, current2, fragment, lanes, key) {
if (current2 === null || current2.tag !== Fragment12) {
var created = createFiberFromFragment(fragment, returnFiber.mode, lanes, key);
created.return = returnFiber;
return created;
} else {
var existing = useFiber(current2, fragment);
existing.return = returnFiber;
return existing;
}
}
function createChild(returnFiber, newChild, lanes) {
if (typeof newChild === "string" && newChild !== "" || typeof newChild === "number") {
var created = createFiberFromText("" + newChild, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
}
if (typeof newChild === "object" && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE: {
var _created = createFiberFromElement(newChild, returnFiber.mode, lanes);
_created.ref = coerceRef(returnFiber, null, newChild);
_created.return = returnFiber;
return _created;
}
case REACT_PORTAL_TYPE: {
var _created2 = createFiberFromPortal(newChild, returnFiber.mode, lanes);
_created2.return = returnFiber;
return _created2;
}
case REACT_LAZY_TYPE: {
var payload = newChild._payload;
var init = newChild._init;
return createChild(returnFiber, init(payload), lanes);
}
}
if (isArray2(newChild) || getIteratorFn(newChild)) {
var _created3 = createFiberFromFragment(newChild, returnFiber.mode, lanes, null);
_created3.return = returnFiber;
return _created3;
}
throwOnInvalidObjectType(returnFiber, newChild);
}
{
if (typeof newChild === "function") {
warnOnFunctionType(returnFiber);
}
}
return null;
}
function updateSlot(returnFiber, oldFiber, newChild, lanes) {
var key = oldFiber !== null ? oldFiber.key : null;
if (typeof newChild === "string" && newChild !== "" || typeof newChild === "number") {
if (key !== null) {
return null;
}
return updateTextNode(returnFiber, oldFiber, "" + newChild, lanes);
}
if (typeof newChild === "object" && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE: {
if (newChild.key === key) {
return updateElement(returnFiber, oldFiber, newChild, lanes);
} else {
return null;
}
}
case REACT_PORTAL_TYPE: {
if (newChild.key === key) {
return updatePortal(returnFiber, oldFiber, newChild, lanes);
} else {
return null;
}
}
case REACT_LAZY_TYPE: {
var payload = newChild._payload;
var init = newChild._init;
return updateSlot(returnFiber, oldFiber, init(payload), lanes);
}
}
if (isArray2(newChild) || getIteratorFn(newChild)) {
if (key !== null) {
return null;
}
return updateFragment2(returnFiber, oldFiber, newChild, lanes, null);
}
throwOnInvalidObjectType(returnFiber, newChild);
}
{
if (typeof newChild === "function") {
warnOnFunctionType(returnFiber);
}
}
return null;
}
function updateFromMap(existingChildren, returnFiber, newIdx, newChild, lanes) {
if (typeof newChild === "string" && newChild !== "" || typeof newChild === "number") {
var matchedFiber = existingChildren.get(newIdx) || null;
return updateTextNode(returnFiber, matchedFiber, "" + newChild, lanes);
}
if (typeof newChild === "object" && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE: {
var _matchedFiber = existingChildren.get(newChild.key === null ? newIdx : newChild.key) || null;
return updateElement(returnFiber, _matchedFiber, newChild, lanes);
}
case REACT_PORTAL_TYPE: {
var _matchedFiber2 = existingChildren.get(newChild.key === null ? newIdx : newChild.key) || null;
return updatePortal(returnFiber, _matchedFiber2, newChild, lanes);
}
case REACT_LAZY_TYPE:
var payload = newChild._payload;
var init = newChild._init;
return updateFromMap(existingChildren, returnFiber, newIdx, init(payload), lanes);
}
if (isArray2(newChild) || getIteratorFn(newChild)) {
var _matchedFiber3 = existingChildren.get(newIdx) || null;
return updateFragment2(returnFiber, _matchedFiber3, newChild, lanes, null);
}
throwOnInvalidObjectType(returnFiber, newChild);
}
{
if (typeof newChild === "function") {
warnOnFunctionType(returnFiber);
}
}
return null;
}
function warnOnInvalidKey(child, knownKeys, returnFiber) {
{
if (typeof child !== "object" || child === null) {
return knownKeys;
}
switch (child.$$typeof) {
case REACT_ELEMENT_TYPE:
case REACT_PORTAL_TYPE:
warnForMissingKey(child, returnFiber);
var key = child.key;
if (typeof key !== "string") {
break;
}
if (knownKeys === null) {
knownKeys = /* @__PURE__ */ new Set();
knownKeys.add(key);
break;
}
if (!knownKeys.has(key)) {
knownKeys.add(key);
break;
}
error("Encountered two children with the same key, `%s`. Keys should be unique so that components maintain their identity across updates. Non-unique keys may cause children to be duplicated and/or omitted \u2014 the behavior is unsupported and could change in a future version.", key);
break;
case REACT_LAZY_TYPE:
var payload = child._payload;
var init = child._init;
warnOnInvalidKey(init(payload), knownKeys, returnFiber);
break;
}
}
return knownKeys;
}
function reconcileChildrenArray(returnFiber, currentFirstChild, newChildren, lanes) {
{
var knownKeys = null;
for (var i = 0; i < newChildren.length; i++) {
var child = newChildren[i];
knownKeys = warnOnInvalidKey(child, knownKeys, returnFiber);
}
}
var resultingFirstChild = null;
var previousNewFiber = null;
var oldFiber = currentFirstChild;
var lastPlacedIndex = 0;
var newIdx = 0;
var nextOldFiber = null;
for (; oldFiber !== null && newIdx < newChildren.length; newIdx++) {
if (oldFiber.index > newIdx) {
nextOldFiber = oldFiber;
oldFiber = null;
} else {
nextOldFiber = oldFiber.sibling;
}
var newFiber = updateSlot(returnFiber, oldFiber, newChildren[newIdx], lanes);
if (newFiber === null) {
if (oldFiber === null) {
oldFiber = nextOldFiber;
}
break;
}
if (shouldTrackSideEffects) {
if (oldFiber && newFiber.alternate === null) {
deleteChild(returnFiber, oldFiber);
}
}
lastPlacedIndex = placeChild(newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = newFiber;
} else {
previousNewFiber.sibling = newFiber;
}
previousNewFiber = newFiber;
oldFiber = nextOldFiber;
}
if (newIdx === newChildren.length) {
deleteRemainingChildren(returnFiber, oldFiber);
if (getIsHydrating()) {
var numberOfForks = newIdx;
pushTreeFork(returnFiber, numberOfForks);
}
return resultingFirstChild;
}
if (oldFiber === null) {
for (; newIdx < newChildren.length; newIdx++) {
var _newFiber = createChild(returnFiber, newChildren[newIdx], lanes);
if (_newFiber === null) {
continue;
}
lastPlacedIndex = placeChild(_newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = _newFiber;
} else {
previousNewFiber.sibling = _newFiber;
}
previousNewFiber = _newFiber;
}
if (getIsHydrating()) {
var _numberOfForks = newIdx;
pushTreeFork(returnFiber, _numberOfForks);
}
return resultingFirstChild;
}
var existingChildren = mapRemainingChildren(returnFiber, oldFiber);
for (; newIdx < newChildren.length; newIdx++) {
var _newFiber2 = updateFromMap(existingChildren, returnFiber, newIdx, newChildren[newIdx], lanes);
if (_newFiber2 !== null) {
if (shouldTrackSideEffects) {
if (_newFiber2.alternate !== null) {
existingChildren.delete(_newFiber2.key === null ? newIdx : _newFiber2.key);
}
}
lastPlacedIndex = placeChild(_newFiber2, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = _newFiber2;
} else {
previousNewFiber.sibling = _newFiber2;
}
previousNewFiber = _newFiber2;
}
}
if (shouldTrackSideEffects) {
existingChildren.forEach(function(child2) {
return deleteChild(returnFiber, child2);
});
}
if (getIsHydrating()) {
var _numberOfForks2 = newIdx;
pushTreeFork(returnFiber, _numberOfForks2);
}
return resultingFirstChild;
}
function reconcileChildrenIterator(returnFiber, currentFirstChild, newChildrenIterable, lanes) {
var iteratorFn = getIteratorFn(newChildrenIterable);
if (typeof iteratorFn !== "function") {
throw new Error("An object is not an iterable. This error is likely caused by a bug in React. Please file an issue.");
}
{
if (typeof Symbol === "function" && // $FlowFixMe Flow doesn't know about toStringTag
newChildrenIterable[Symbol.toStringTag] === "Generator") {
if (!didWarnAboutGenerators) {
error("Using Generators as children is unsupported and will likely yield unexpected results because enumerating a generator mutates it. You may convert it to an array with `Array.from()` or the `[...spread]` operator before rendering. Keep in mind you might need to polyfill these features for older browsers.");
}
didWarnAboutGenerators = true;
}
if (newChildrenIterable.entries === iteratorFn) {
if (!didWarnAboutMaps) {
error("Using Maps as children is not supported. Use an array of keyed ReactElements instead.");
}
didWarnAboutMaps = true;
}
var _newChildren = iteratorFn.call(newChildrenIterable);
if (_newChildren) {
var knownKeys = null;
var _step = _newChildren.next();
for (; !_step.done; _step = _newChildren.next()) {
var child = _step.value;
knownKeys = warnOnInvalidKey(child, knownKeys, returnFiber);
}
}
}
var newChildren = iteratorFn.call(newChildrenIterable);
if (newChildren == null) {
throw new Error("An iterable object provided no iterator.");
}
var resultingFirstChild = null;
var previousNewFiber = null;
var oldFiber = currentFirstChild;
var lastPlacedIndex = 0;
var newIdx = 0;
var nextOldFiber = null;
var step = newChildren.next();
for (; oldFiber !== null && !step.done; newIdx++, step = newChildren.next()) {
if (oldFiber.index > newIdx) {
nextOldFiber = oldFiber;
oldFiber = null;
} else {
nextOldFiber = oldFiber.sibling;
}
var newFiber = updateSlot(returnFiber, oldFiber, step.value, lanes);
if (newFiber === null) {
if (oldFiber === null) {
oldFiber = nextOldFiber;
}
break;
}
if (shouldTrackSideEffects) {
if (oldFiber && newFiber.alternate === null) {
deleteChild(returnFiber, oldFiber);
}
}
lastPlacedIndex = placeChild(newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = newFiber;
} else {
previousNewFiber.sibling = newFiber;
}
previousNewFiber = newFiber;
oldFiber = nextOldFiber;
}
if (step.done) {
deleteRemainingChildren(returnFiber, oldFiber);
if (getIsHydrating()) {
var numberOfForks = newIdx;
pushTreeFork(returnFiber, numberOfForks);
}
return resultingFirstChild;
}
if (oldFiber === null) {
for (; !step.done; newIdx++, step = newChildren.next()) {
var _newFiber3 = createChild(returnFiber, step.value, lanes);
if (_newFiber3 === null) {
continue;
}
lastPlacedIndex = placeChild(_newFiber3, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = _newFiber3;
} else {
previousNewFiber.sibling = _newFiber3;
}
previousNewFiber = _newFiber3;
}
if (getIsHydrating()) {
var _numberOfForks3 = newIdx;
pushTreeFork(returnFiber, _numberOfForks3);
}
return resultingFirstChild;
}
var existingChildren = mapRemainingChildren(returnFiber, oldFiber);
for (; !step.done; newIdx++, step = newChildren.next()) {
var _newFiber4 = updateFromMap(existingChildren, returnFiber, newIdx, step.value, lanes);
if (_newFiber4 !== null) {
if (shouldTrackSideEffects) {
if (_newFiber4.alternate !== null) {
existingChildren.delete(_newFiber4.key === null ? newIdx : _newFiber4.key);
}
}
lastPlacedIndex = placeChild(_newFiber4, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = _newFiber4;
} else {
previousNewFiber.sibling = _newFiber4;
}
previousNewFiber = _newFiber4;
}
}
if (shouldTrackSideEffects) {
existingChildren.forEach(function(child2) {
return deleteChild(returnFiber, child2);
});
}
if (getIsHydrating()) {
var _numberOfForks4 = newIdx;
pushTreeFork(returnFiber, _numberOfForks4);
}
return resultingFirstChild;
}
function reconcileSingleTextNode(returnFiber, currentFirstChild, textContent, lanes) {
if (currentFirstChild !== null && currentFirstChild.tag === HostText) {
deleteRemainingChildren(returnFiber, currentFirstChild.sibling);
var existing = useFiber(currentFirstChild, textContent);
existing.return = returnFiber;
return existing;
}
deleteRemainingChildren(returnFiber, currentFirstChild);
var created = createFiberFromText(textContent, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
}
function reconcileSingleElement(returnFiber, currentFirstChild, element, lanes) {
var key = element.key;
var child = currentFirstChild;
while (child !== null) {
if (child.key === key) {
var elementType = element.type;
if (elementType === REACT_FRAGMENT_TYPE) {
if (child.tag === Fragment12) {
deleteRemainingChildren(returnFiber, child.sibling);
var existing = useFiber(child, element.props.children);
existing.return = returnFiber;
{
existing._debugSource = element._source;
existing._debugOwner = element._owner;
}
return existing;
}
} else {
if (child.elementType === elementType || // Keep this check inline so it only runs on the false path:
isCompatibleFamilyForHotReloading(child, element) || // Lazy types should reconcile their resolved type.
// We need to do this after the Hot Reloading check above,
// because hot reloading has different semantics than prod because
// it doesn't resuspend. So we can't let the call below suspend.
typeof elementType === "object" && elementType !== null && elementType.$$typeof === REACT_LAZY_TYPE && resolveLazy(elementType) === child.type) {
deleteRemainingChildren(returnFiber, child.sibling);
var _existing = useFiber(child, element.props);
_existing.ref = coerceRef(returnFiber, child, element);
_existing.return = returnFiber;
{
_existing._debugSource = element._source;
_existing._debugOwner = element._owner;
}
return _existing;
}
}
deleteRemainingChildren(returnFiber, child);
break;
} else {
deleteChild(returnFiber, child);
}
child = child.sibling;
}
if (element.type === REACT_FRAGMENT_TYPE) {
var created = createFiberFromFragment(element.props.children, returnFiber.mode, lanes, element.key);
created.return = returnFiber;
return created;
} else {
var _created4 = createFiberFromElement(element, returnFiber.mode, lanes);
_created4.ref = coerceRef(returnFiber, currentFirstChild, element);
_created4.return = returnFiber;
return _created4;
}
}
function reconcileSinglePortal(returnFiber, currentFirstChild, portal, lanes) {
var key = portal.key;
var child = currentFirstChild;
while (child !== null) {
if (child.key === key) {
if (child.tag === HostPortal && child.stateNode.containerInfo === portal.containerInfo && child.stateNode.implementation === portal.implementation) {
deleteRemainingChildren(returnFiber, child.sibling);
var existing = useFiber(child, portal.children || []);
existing.return = returnFiber;
return existing;
} else {
deleteRemainingChildren(returnFiber, child);
break;
}
} else {
deleteChild(returnFiber, child);
}
child = child.sibling;
}
var created = createFiberFromPortal(portal, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
}
function reconcileChildFibers2(returnFiber, currentFirstChild, newChild, lanes) {
var isUnkeyedTopLevelFragment = typeof newChild === "object" && newChild !== null && newChild.type === REACT_FRAGMENT_TYPE && newChild.key === null;
if (isUnkeyedTopLevelFragment) {
newChild = newChild.props.children;
}
if (typeof newChild === "object" && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE:
return placeSingleChild(reconcileSingleElement(returnFiber, currentFirstChild, newChild, lanes));
case REACT_PORTAL_TYPE:
return placeSingleChild(reconcileSinglePortal(returnFiber, currentFirstChild, newChild, lanes));
case REACT_LAZY_TYPE:
var payload = newChild._payload;
var init = newChild._init;
return reconcileChildFibers2(returnFiber, currentFirstChild, init(payload), lanes);
}
if (isArray2(newChild)) {
return reconcileChildrenArray(returnFiber, currentFirstChild, newChild, lanes);
}
if (getIteratorFn(newChild)) {
return reconcileChildrenIterator(returnFiber, currentFirstChild, newChild, lanes);
}
throwOnInvalidObjectType(returnFiber, newChild);
}
if (typeof newChild === "string" && newChild !== "" || typeof newChild === "number") {
return placeSingleChild(reconcileSingleTextNode(returnFiber, currentFirstChild, "" + newChild, lanes));
}
{
if (typeof newChild === "function") {
warnOnFunctionType(returnFiber);
}
}
return deleteRemainingChildren(returnFiber, currentFirstChild);
}
return reconcileChildFibers2;
}
var reconcileChildFibers = ChildReconciler(true);
var mountChildFibers = ChildReconciler(false);
function cloneChildFibers(current2, workInProgress2) {
if (current2 !== null && workInProgress2.child !== current2.child) {
throw new Error("Resuming work not yet implemented.");
}
if (workInProgress2.child === null) {
return;
}
var currentChild = workInProgress2.child;
var newChild = createWorkInProgress(currentChild, currentChild.pendingProps);
workInProgress2.child = newChild;
newChild.return = workInProgress2;
while (currentChild.sibling !== null) {
currentChild = currentChild.sibling;
newChild = newChild.sibling = createWorkInProgress(currentChild, currentChild.pendingProps);
newChild.return = workInProgress2;
}
newChild.sibling = null;
}
function resetChildFibers(workInProgress2, lanes) {
var child = workInProgress2.child;
while (child !== null) {
resetWorkInProgress(child, lanes);
child = child.sibling;
}
}
var NO_CONTEXT = {};
var contextStackCursor$1 = createCursor(NO_CONTEXT);
var contextFiberStackCursor = createCursor(NO_CONTEXT);
var rootInstanceStackCursor = createCursor(NO_CONTEXT);
function requiredContext(c2) {
if (c2 === NO_CONTEXT) {
throw new Error("Expected host context to exist. This error is likely caused by a bug in React. Please file an issue.");
}
return c2;
}
function getRootHostContainer() {
var rootInstance = requiredContext(rootInstanceStackCursor.current);
return rootInstance;
}
function pushHostContainer(fiber, nextRootInstance) {
push2(rootInstanceStackCursor, nextRootInstance, fiber);
push2(contextFiberStackCursor, fiber, fiber);
push2(contextStackCursor$1, NO_CONTEXT, fiber);
var nextRootContext = getRootHostContext(nextRootInstance);
pop(contextStackCursor$1, fiber);
push2(contextStackCursor$1, nextRootContext, fiber);
}
function popHostContainer(fiber) {
pop(contextStackCursor$1, fiber);
pop(contextFiberStackCursor, fiber);
pop(rootInstanceStackCursor, fiber);
}
function getHostContext() {
var context = requiredContext(contextStackCursor$1.current);
return context;
}
function pushHostContext(fiber) {
var rootInstance = requiredContext(rootInstanceStackCursor.current);
var context = requiredContext(contextStackCursor$1.current);
var nextContext = getChildHostContext(context, fiber.type);
if (context === nextContext) {
return;
}
push2(contextFiberStackCursor, fiber, fiber);
push2(contextStackCursor$1, nextContext, fiber);
}
function popHostContext(fiber) {
if (contextFiberStackCursor.current !== fiber) {
return;
}
pop(contextStackCursor$1, fiber);
pop(contextFiberStackCursor, fiber);
}
var DefaultSuspenseContext = 0;
var SubtreeSuspenseContextMask = 1;
var InvisibleParentSuspenseContext = 1;
var ForceSuspenseFallback = 2;
var suspenseStackCursor = createCursor(DefaultSuspenseContext);
function hasSuspenseContext(parentContext, flag) {
return (parentContext & flag) !== 0;
}
function setDefaultShallowSuspenseContext(parentContext) {
return parentContext & SubtreeSuspenseContextMask;
}
function setShallowSuspenseContext(parentContext, shallowContext) {
return parentContext & SubtreeSuspenseContextMask | shallowContext;
}
function addSubtreeSuspenseContext(parentContext, subtreeContext) {
return parentContext | subtreeContext;
}
function pushSuspenseContext(fiber, newContext) {
push2(suspenseStackCursor, newContext, fiber);
}
function popSuspenseContext(fiber) {
pop(suspenseStackCursor, fiber);
}
function shouldCaptureSuspense(workInProgress2, hasInvisibleParent) {
var nextState = workInProgress2.memoizedState;
if (nextState !== null) {
if (nextState.dehydrated !== null) {
return true;
}
return false;
}
var props = workInProgress2.memoizedProps;
{
return true;
}
}
function findFirstSuspended(row) {
var node = row;
while (node !== null) {
if (node.tag === SuspenseComponent) {
var state = node.memoizedState;
if (state !== null) {
var dehydrated = state.dehydrated;
if (dehydrated === null || isSuspenseInstancePending(dehydrated) || isSuspenseInstanceFallback(dehydrated)) {
return node;
}
}
} else if (node.tag === SuspenseListComponent && // revealOrder undefined can't be trusted because it don't
// keep track of whether it suspended or not.
node.memoizedProps.revealOrder !== void 0) {
var didSuspend = (node.flags & DidCapture) !== NoFlags;
if (didSuspend) {
return node;
}
} else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === row) {
return null;
}
while (node.sibling === null) {
if (node.return === null || node.return === row) {
return null;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
return null;
}
var NoFlags$1 = (
/* */
0
);
var HasEffect = (
/* */
1
);
var Insertion = (
/* */
2
);
var Layout = (
/* */
4
);
var Passive$1 = (
/* */
8
);
var workInProgressSources = [];
function resetWorkInProgressVersions() {
for (var i = 0; i < workInProgressSources.length; i++) {
var mutableSource = workInProgressSources[i];
{
mutableSource._workInProgressVersionPrimary = null;
}
}
workInProgressSources.length = 0;
}
function registerMutableSourceForHydration(root2, mutableSource) {
var getVersion = mutableSource._getVersion;
var version = getVersion(mutableSource._source);
if (root2.mutableSourceEagerHydrationData == null) {
root2.mutableSourceEagerHydrationData = [mutableSource, version];
} else {
root2.mutableSourceEagerHydrationData.push(mutableSource, version);
}
}
var ReactCurrentDispatcher$1 = ReactSharedInternals.ReactCurrentDispatcher, ReactCurrentBatchConfig$2 = ReactSharedInternals.ReactCurrentBatchConfig;
var didWarnAboutMismatchedHooksForComponent;
var didWarnUncachedGetSnapshot;
{
didWarnAboutMismatchedHooksForComponent = /* @__PURE__ */ new Set();
}
var renderLanes = NoLanes;
var currentlyRenderingFiber$1 = null;
var currentHook = null;
var workInProgressHook = null;
var didScheduleRenderPhaseUpdate = false;
var didScheduleRenderPhaseUpdateDuringThisPass = false;
var localIdCounter = 0;
var globalClientIdCounter = 0;
var RE_RENDER_LIMIT = 25;
var currentHookNameInDev = null;
var hookTypesDev = null;
var hookTypesUpdateIndexDev = -1;
var ignorePreviousDependencies = false;
function mountHookTypesDev() {
{
var hookName = currentHookNameInDev;
if (hookTypesDev === null) {
hookTypesDev = [hookName];
} else {
hookTypesDev.push(hookName);
}
}
}
function updateHookTypesDev() {
{
var hookName = currentHookNameInDev;
if (hookTypesDev !== null) {
hookTypesUpdateIndexDev++;
if (hookTypesDev[hookTypesUpdateIndexDev] !== hookName) {
warnOnHookMismatchInDev(hookName);
}
}
}
}
function checkDepsAreArrayDev(deps) {
{
if (deps !== void 0 && deps !== null && !isArray2(deps)) {
error("%s received a final argument that is not an array (instead, received `%s`). When specified, the final argument must be an array.", currentHookNameInDev, typeof deps);
}
}
}
function warnOnHookMismatchInDev(currentHookName) {
{
var componentName = getComponentNameFromFiber(currentlyRenderingFiber$1);
if (!didWarnAboutMismatchedHooksForComponent.has(componentName)) {
didWarnAboutMismatchedHooksForComponent.add(componentName);
if (hookTypesDev !== null) {
var table = "";
var secondColumnStart = 30;
for (var i = 0; i <= hookTypesUpdateIndexDev; i++) {
var oldHookName = hookTypesDev[i];
var newHookName = i === hookTypesUpdateIndexDev ? currentHookName : oldHookName;
var row = i + 1 + ". " + oldHookName;
while (row.length < secondColumnStart) {
row += " ";
}
row += newHookName + "\n";
table += row;
}
error("React has detected a change in the order of Hooks called by %s. This will lead to bugs and errors if not fixed. For more information, read the Rules of Hooks: https://reactjs.org/link/rules-of-hooks\n\n Previous render Next render\n ------------------------------------------------------\n%s ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n", componentName, table);
}
}
}
}
function throwInvalidHookError() {
throw new Error("Invalid hook call. Hooks can only be called inside of the body of a function component. This could happen for one of the following reasons:\n1. You might have mismatching versions of React and the renderer (such as React DOM)\n2. You might be breaking the Rules of Hooks\n3. You might have more than one copy of React in the same app\nSee https://reactjs.org/link/invalid-hook-call for tips about how to debug and fix this problem.");
}
function areHookInputsEqual(nextDeps, prevDeps) {
{
if (ignorePreviousDependencies) {
return false;
}
}
if (prevDeps === null) {
{
error("%s received a final argument during this render, but not during the previous render. Even though the final argument is optional, its type cannot change between renders.", currentHookNameInDev);
}
return false;
}
{
if (nextDeps.length !== prevDeps.length) {
error("The final argument passed to %s changed size between renders. The order and size of this array must remain constant.\n\nPrevious: %s\nIncoming: %s", currentHookNameInDev, "[" + prevDeps.join(", ") + "]", "[" + nextDeps.join(", ") + "]");
}
}
for (var i = 0; i < prevDeps.length && i < nextDeps.length; i++) {
if (objectIs(nextDeps[i], prevDeps[i])) {
continue;
}
return false;
}
return true;
}
function renderWithHooks(current2, workInProgress2, Component, props, secondArg, nextRenderLanes) {
renderLanes = nextRenderLanes;
currentlyRenderingFiber$1 = workInProgress2;
{
hookTypesDev = current2 !== null ? current2._debugHookTypes : null;
hookTypesUpdateIndexDev = -1;
ignorePreviousDependencies = current2 !== null && current2.type !== workInProgress2.type;
}
workInProgress2.memoizedState = null;
workInProgress2.updateQueue = null;
workInProgress2.lanes = NoLanes;
{
if (current2 !== null && current2.memoizedState !== null) {
ReactCurrentDispatcher$1.current = HooksDispatcherOnUpdateInDEV;
} else if (hookTypesDev !== null) {
ReactCurrentDispatcher$1.current = HooksDispatcherOnMountWithHookTypesInDEV;
} else {
ReactCurrentDispatcher$1.current = HooksDispatcherOnMountInDEV;
}
}
var children = Component(props, secondArg);
if (didScheduleRenderPhaseUpdateDuringThisPass) {
var numberOfReRenders = 0;
do {
didScheduleRenderPhaseUpdateDuringThisPass = false;
localIdCounter = 0;
if (numberOfReRenders >= RE_RENDER_LIMIT) {
throw new Error("Too many re-renders. React limits the number of renders to prevent an infinite loop.");
}
numberOfReRenders += 1;
{
ignorePreviousDependencies = false;
}
currentHook = null;
workInProgressHook = null;
workInProgress2.updateQueue = null;
{
hookTypesUpdateIndexDev = -1;
}
ReactCurrentDispatcher$1.current = HooksDispatcherOnRerenderInDEV;
children = Component(props, secondArg);
} while (didScheduleRenderPhaseUpdateDuringThisPass);
}
ReactCurrentDispatcher$1.current = ContextOnlyDispatcher;
{
workInProgress2._debugHookTypes = hookTypesDev;
}
var didRenderTooFewHooks = currentHook !== null && currentHook.next !== null;
renderLanes = NoLanes;
currentlyRenderingFiber$1 = null;
currentHook = null;
workInProgressHook = null;
{
currentHookNameInDev = null;
hookTypesDev = null;
hookTypesUpdateIndexDev = -1;
if (current2 !== null && (current2.flags & StaticMask) !== (workInProgress2.flags & StaticMask) && // Disable this warning in legacy mode, because legacy Suspense is weird
// and creates false positives. To make this work in legacy mode, we'd
// need to mark fibers that commit in an incomplete state, somehow. For
// now I'll disable the warning that most of the bugs that would trigger
// it are either exclusive to concurrent mode or exist in both.
(current2.mode & ConcurrentMode) !== NoMode) {
error("Internal React error: Expected static flag was missing. Please notify the React team.");
}
}
didScheduleRenderPhaseUpdate = false;
if (didRenderTooFewHooks) {
throw new Error("Rendered fewer hooks than expected. This may be caused by an accidental early return statement.");
}
return children;
}
function checkDidRenderIdHook() {
var didRenderIdHook = localIdCounter !== 0;
localIdCounter = 0;
return didRenderIdHook;
}
function bailoutHooks(current2, workInProgress2, lanes) {
workInProgress2.updateQueue = current2.updateQueue;
if ((workInProgress2.mode & StrictEffectsMode) !== NoMode) {
workInProgress2.flags &= ~(MountPassiveDev | MountLayoutDev | Passive | Update);
} else {
workInProgress2.flags &= ~(Passive | Update);
}
current2.lanes = removeLanes(current2.lanes, lanes);
}
function resetHooksAfterThrow() {
ReactCurrentDispatcher$1.current = ContextOnlyDispatcher;
if (didScheduleRenderPhaseUpdate) {
var hook = currentlyRenderingFiber$1.memoizedState;
while (hook !== null) {
var queue = hook.queue;
if (queue !== null) {
queue.pending = null;
}
hook = hook.next;
}
didScheduleRenderPhaseUpdate = false;
}
renderLanes = NoLanes;
currentlyRenderingFiber$1 = null;
currentHook = null;
workInProgressHook = null;
{
hookTypesDev = null;
hookTypesUpdateIndexDev = -1;
currentHookNameInDev = null;
isUpdatingOpaqueValueInRenderPhase = false;
}
didScheduleRenderPhaseUpdateDuringThisPass = false;
localIdCounter = 0;
}
function mountWorkInProgressHook() {
var hook = {
memoizedState: null,
baseState: null,
baseQueue: null,
queue: null,
next: null
};
if (workInProgressHook === null) {
currentlyRenderingFiber$1.memoizedState = workInProgressHook = hook;
} else {
workInProgressHook = workInProgressHook.next = hook;
}
return workInProgressHook;
}
function updateWorkInProgressHook() {
var nextCurrentHook;
if (currentHook === null) {
var current2 = currentlyRenderingFiber$1.alternate;
if (current2 !== null) {
nextCurrentHook = current2.memoizedState;
} else {
nextCurrentHook = null;
}
} else {
nextCurrentHook = currentHook.next;
}
var nextWorkInProgressHook;
if (workInProgressHook === null) {
nextWorkInProgressHook = currentlyRenderingFiber$1.memoizedState;
} else {
nextWorkInProgressHook = workInProgressHook.next;
}
if (nextWorkInProgressHook !== null) {
workInProgressHook = nextWorkInProgressHook;
nextWorkInProgressHook = workInProgressHook.next;
currentHook = nextCurrentHook;
} else {
if (nextCurrentHook === null) {
throw new Error("Rendered more hooks than during the previous render.");
}
currentHook = nextCurrentHook;
var newHook = {
memoizedState: currentHook.memoizedState,
baseState: currentHook.baseState,
baseQueue: currentHook.baseQueue,
queue: currentHook.queue,
next: null
};
if (workInProgressHook === null) {
currentlyRenderingFiber$1.memoizedState = workInProgressHook = newHook;
} else {
workInProgressHook = workInProgressHook.next = newHook;
}
}
return workInProgressHook;
}
function createFunctionComponentUpdateQueue() {
return {
lastEffect: null,
stores: null
};
}
function basicStateReducer(state, action) {
return typeof action === "function" ? action(state) : action;
}
function mountReducer(reducer, initialArg, init) {
var hook = mountWorkInProgressHook();
var initialState;
if (init !== void 0) {
initialState = init(initialArg);
} else {
initialState = initialArg;
}
hook.memoizedState = hook.baseState = initialState;
var queue = {
pending: null,
interleaved: null,
lanes: NoLanes,
dispatch: null,
lastRenderedReducer: reducer,
lastRenderedState: initialState
};
hook.queue = queue;
var dispatch = queue.dispatch = dispatchReducerAction.bind(null, currentlyRenderingFiber$1, queue);
return [hook.memoizedState, dispatch];
}
function updateReducer(reducer, initialArg, init) {
var hook = updateWorkInProgressHook();
var queue = hook.queue;
if (queue === null) {
throw new Error("Should have a queue. This is likely a bug in React. Please file an issue.");
}
queue.lastRenderedReducer = reducer;
var current2 = currentHook;
var baseQueue = current2.baseQueue;
var pendingQueue = queue.pending;
if (pendingQueue !== null) {
if (baseQueue !== null) {
var baseFirst = baseQueue.next;
var pendingFirst = pendingQueue.next;
baseQueue.next = pendingFirst;
pendingQueue.next = baseFirst;
}
{
if (current2.baseQueue !== baseQueue) {
error("Internal error: Expected work-in-progress queue to be a clone. This is a bug in React.");
}
}
current2.baseQueue = baseQueue = pendingQueue;
queue.pending = null;
}
if (baseQueue !== null) {
var first = baseQueue.next;
var newState = current2.baseState;
var newBaseState = null;
var newBaseQueueFirst = null;
var newBaseQueueLast = null;
var update = first;
do {
var updateLane = update.lane;
if (!isSubsetOfLanes(renderLanes, updateLane)) {
var clone = {
lane: updateLane,
action: update.action,
hasEagerState: update.hasEagerState,
eagerState: update.eagerState,
next: null
};
if (newBaseQueueLast === null) {
newBaseQueueFirst = newBaseQueueLast = clone;
newBaseState = newState;
} else {
newBaseQueueLast = newBaseQueueLast.next = clone;
}
currentlyRenderingFiber$1.lanes = mergeLanes(currentlyRenderingFiber$1.lanes, updateLane);
markSkippedUpdateLanes(updateLane);
} else {
if (newBaseQueueLast !== null) {
var _clone = {
// This update is going to be committed so we never want uncommit
// it. Using NoLane works because 0 is a subset of all bitmasks, so
// this will never be skipped by the check above.
lane: NoLane,
action: update.action,
hasEagerState: update.hasEagerState,
eagerState: update.eagerState,
next: null
};
newBaseQueueLast = newBaseQueueLast.next = _clone;
}
if (update.hasEagerState) {
newState = update.eagerState;
} else {
var action = update.action;
newState = reducer(newState, action);
}
}
update = update.next;
} while (update !== null && update !== first);
if (newBaseQueueLast === null) {
newBaseState = newState;
} else {
newBaseQueueLast.next = newBaseQueueFirst;
}
if (!objectIs(newState, hook.memoizedState)) {
markWorkInProgressReceivedUpdate();
}
hook.memoizedState = newState;
hook.baseState = newBaseState;
hook.baseQueue = newBaseQueueLast;
queue.lastRenderedState = newState;
}
var lastInterleaved = queue.interleaved;
if (lastInterleaved !== null) {
var interleaved = lastInterleaved;
do {
var interleavedLane = interleaved.lane;
currentlyRenderingFiber$1.lanes = mergeLanes(currentlyRenderingFiber$1.lanes, interleavedLane);
markSkippedUpdateLanes(interleavedLane);
interleaved = interleaved.next;
} while (interleaved !== lastInterleaved);
} else if (baseQueue === null) {
queue.lanes = NoLanes;
}
var dispatch = queue.dispatch;
return [hook.memoizedState, dispatch];
}
function rerenderReducer(reducer, initialArg, init) {
var hook = updateWorkInProgressHook();
var queue = hook.queue;
if (queue === null) {
throw new Error("Should have a queue. This is likely a bug in React. Please file an issue.");
}
queue.lastRenderedReducer = reducer;
var dispatch = queue.dispatch;
var lastRenderPhaseUpdate = queue.pending;
var newState = hook.memoizedState;
if (lastRenderPhaseUpdate !== null) {
queue.pending = null;
var firstRenderPhaseUpdate = lastRenderPhaseUpdate.next;
var update = firstRenderPhaseUpdate;
do {
var action = update.action;
newState = reducer(newState, action);
update = update.next;
} while (update !== firstRenderPhaseUpdate);
if (!objectIs(newState, hook.memoizedState)) {
markWorkInProgressReceivedUpdate();
}
hook.memoizedState = newState;
if (hook.baseQueue === null) {
hook.baseState = newState;
}
queue.lastRenderedState = newState;
}
return [newState, dispatch];
}
function mountMutableSource(source, getSnapshot, subscribe) {
{
return void 0;
}
}
function updateMutableSource(source, getSnapshot, subscribe) {
{
return void 0;
}
}
function mountSyncExternalStore(subscribe, getSnapshot, getServerSnapshot) {
var fiber = currentlyRenderingFiber$1;
var hook = mountWorkInProgressHook();
var nextSnapshot;
var isHydrating2 = getIsHydrating();
if (isHydrating2) {
if (getServerSnapshot === void 0) {
throw new Error("Missing getServerSnapshot, which is required for server-rendered content. Will revert to client rendering.");
}
nextSnapshot = getServerSnapshot();
{
if (!didWarnUncachedGetSnapshot) {
if (nextSnapshot !== getServerSnapshot()) {
error("The result of getServerSnapshot should be cached to avoid an infinite loop");
didWarnUncachedGetSnapshot = true;
}
}
}
} else {
nextSnapshot = getSnapshot();
{
if (!didWarnUncachedGetSnapshot) {
var cachedSnapshot = getSnapshot();
if (!objectIs(nextSnapshot, cachedSnapshot)) {
error("The result of getSnapshot should be cached to avoid an infinite loop");
didWarnUncachedGetSnapshot = true;
}
}
}
var root2 = getWorkInProgressRoot();
if (root2 === null) {
throw new Error("Expected a work-in-progress root. This is a bug in React. Please file an issue.");
}
if (!includesBlockingLane(root2, renderLanes)) {
pushStoreConsistencyCheck(fiber, getSnapshot, nextSnapshot);
}
}
hook.memoizedState = nextSnapshot;
var inst = {
value: nextSnapshot,
getSnapshot
};
hook.queue = inst;
mountEffect(subscribeToStore.bind(null, fiber, inst, subscribe), [subscribe]);
fiber.flags |= Passive;
pushEffect(HasEffect | Passive$1, updateStoreInstance.bind(null, fiber, inst, nextSnapshot, getSnapshot), void 0, null);
return nextSnapshot;
}
function updateSyncExternalStore(subscribe, getSnapshot, getServerSnapshot) {
var fiber = currentlyRenderingFiber$1;
var hook = updateWorkInProgressHook();
var nextSnapshot = getSnapshot();
{
if (!didWarnUncachedGetSnapshot) {
var cachedSnapshot = getSnapshot();
if (!objectIs(nextSnapshot, cachedSnapshot)) {
error("The result of getSnapshot should be cached to avoid an infinite loop");
didWarnUncachedGetSnapshot = true;
}
}
}
var prevSnapshot = hook.memoizedState;
var snapshotChanged = !objectIs(prevSnapshot, nextSnapshot);
if (snapshotChanged) {
hook.memoizedState = nextSnapshot;
markWorkInProgressReceivedUpdate();
}
var inst = hook.queue;
updateEffect(subscribeToStore.bind(null, fiber, inst, subscribe), [subscribe]);
if (inst.getSnapshot !== getSnapshot || snapshotChanged || // Check if the susbcribe function changed. We can save some memory by
// checking whether we scheduled a subscription effect above.
workInProgressHook !== null && workInProgressHook.memoizedState.tag & HasEffect) {
fiber.flags |= Passive;
pushEffect(HasEffect | Passive$1, updateStoreInstance.bind(null, fiber, inst, nextSnapshot, getSnapshot), void 0, null);
var root2 = getWorkInProgressRoot();
if (root2 === null) {
throw new Error("Expected a work-in-progress root. This is a bug in React. Please file an issue.");
}
if (!includesBlockingLane(root2, renderLanes)) {
pushStoreConsistencyCheck(fiber, getSnapshot, nextSnapshot);
}
}
return nextSnapshot;
}
function pushStoreConsistencyCheck(fiber, getSnapshot, renderedSnapshot) {
fiber.flags |= StoreConsistency;
var check = {
getSnapshot,
value: renderedSnapshot
};
var componentUpdateQueue = currentlyRenderingFiber$1.updateQueue;
if (componentUpdateQueue === null) {
componentUpdateQueue = createFunctionComponentUpdateQueue();
currentlyRenderingFiber$1.updateQueue = componentUpdateQueue;
componentUpdateQueue.stores = [check];
} else {
var stores = componentUpdateQueue.stores;
if (stores === null) {
componentUpdateQueue.stores = [check];
} else {
stores.push(check);
}
}
}
function updateStoreInstance(fiber, inst, nextSnapshot, getSnapshot) {
inst.value = nextSnapshot;
inst.getSnapshot = getSnapshot;
if (checkIfSnapshotChanged(inst)) {
forceStoreRerender(fiber);
}
}
function subscribeToStore(fiber, inst, subscribe) {
var handleStoreChange = function() {
if (checkIfSnapshotChanged(inst)) {
forceStoreRerender(fiber);
}
};
return subscribe(handleStoreChange);
}
function checkIfSnapshotChanged(inst) {
var latestGetSnapshot = inst.getSnapshot;
var prevValue = inst.value;
try {
var nextValue = latestGetSnapshot();
return !objectIs(prevValue, nextValue);
} catch (error2) {
return true;
}
}
function forceStoreRerender(fiber) {
var root2 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, SyncLane, NoTimestamp);
}
}
function mountState(initialState) {
var hook = mountWorkInProgressHook();
if (typeof initialState === "function") {
initialState = initialState();
}
hook.memoizedState = hook.baseState = initialState;
var queue = {
pending: null,
interleaved: null,
lanes: NoLanes,
dispatch: null,
lastRenderedReducer: basicStateReducer,
lastRenderedState: initialState
};
hook.queue = queue;
var dispatch = queue.dispatch = dispatchSetState.bind(null, currentlyRenderingFiber$1, queue);
return [hook.memoizedState, dispatch];
}
function updateState(initialState) {
return updateReducer(basicStateReducer);
}
function rerenderState(initialState) {
return rerenderReducer(basicStateReducer);
}
function pushEffect(tag, create, destroy, deps) {
var effect = {
tag,
create,
destroy,
deps,
// Circular
next: null
};
var componentUpdateQueue = currentlyRenderingFiber$1.updateQueue;
if (componentUpdateQueue === null) {
componentUpdateQueue = createFunctionComponentUpdateQueue();
currentlyRenderingFiber$1.updateQueue = componentUpdateQueue;
componentUpdateQueue.lastEffect = effect.next = effect;
} else {
var lastEffect = componentUpdateQueue.lastEffect;
if (lastEffect === null) {
componentUpdateQueue.lastEffect = effect.next = effect;
} else {
var firstEffect = lastEffect.next;
lastEffect.next = effect;
effect.next = firstEffect;
componentUpdateQueue.lastEffect = effect;
}
}
return effect;
}
function mountRef(initialValue) {
var hook = mountWorkInProgressHook();
{
var _ref2 = {
current: initialValue
};
hook.memoizedState = _ref2;
return _ref2;
}
}
function updateRef(initialValue) {
var hook = updateWorkInProgressHook();
return hook.memoizedState;
}
function mountEffectImpl(fiberFlags, hookFlags, create, deps) {
var hook = mountWorkInProgressHook();
var nextDeps = deps === void 0 ? null : deps;
currentlyRenderingFiber$1.flags |= fiberFlags;
hook.memoizedState = pushEffect(HasEffect | hookFlags, create, void 0, nextDeps);
}
function updateEffectImpl(fiberFlags, hookFlags, create, deps) {
var hook = updateWorkInProgressHook();
var nextDeps = deps === void 0 ? null : deps;
var destroy = void 0;
if (currentHook !== null) {
var prevEffect = currentHook.memoizedState;
destroy = prevEffect.destroy;
if (nextDeps !== null) {
var prevDeps = prevEffect.deps;
if (areHookInputsEqual(nextDeps, prevDeps)) {
hook.memoizedState = pushEffect(hookFlags, create, destroy, nextDeps);
return;
}
}
}
currentlyRenderingFiber$1.flags |= fiberFlags;
hook.memoizedState = pushEffect(HasEffect | hookFlags, create, destroy, nextDeps);
}
function mountEffect(create, deps) {
if ((currentlyRenderingFiber$1.mode & StrictEffectsMode) !== NoMode) {
return mountEffectImpl(MountPassiveDev | Passive | PassiveStatic, Passive$1, create, deps);
} else {
return mountEffectImpl(Passive | PassiveStatic, Passive$1, create, deps);
}
}
function updateEffect(create, deps) {
return updateEffectImpl(Passive, Passive$1, create, deps);
}
function mountInsertionEffect(create, deps) {
return mountEffectImpl(Update, Insertion, create, deps);
}
function updateInsertionEffect(create, deps) {
return updateEffectImpl(Update, Insertion, create, deps);
}
function mountLayoutEffect(create, deps) {
var fiberFlags = Update;
{
fiberFlags |= LayoutStatic;
}
if ((currentlyRenderingFiber$1.mode & StrictEffectsMode) !== NoMode) {
fiberFlags |= MountLayoutDev;
}
return mountEffectImpl(fiberFlags, Layout, create, deps);
}
function updateLayoutEffect(create, deps) {
return updateEffectImpl(Update, Layout, create, deps);
}
function imperativeHandleEffect(create, ref) {
if (typeof ref === "function") {
var refCallback = ref;
var _inst = create();
refCallback(_inst);
return function() {
refCallback(null);
};
} else if (ref !== null && ref !== void 0) {
var refObject = ref;
{
if (!refObject.hasOwnProperty("current")) {
error("Expected useImperativeHandle() first argument to either be a ref callback or React.createRef() object. Instead received: %s.", "an object with keys {" + Object.keys(refObject).join(", ") + "}");
}
}
var _inst2 = create();
refObject.current = _inst2;
return function() {
refObject.current = null;
};
}
}
function mountImperativeHandle(ref, create, deps) {
{
if (typeof create !== "function") {
error("Expected useImperativeHandle() second argument to be a function that creates a handle. Instead received: %s.", create !== null ? typeof create : "null");
}
}
var effectDeps = deps !== null && deps !== void 0 ? deps.concat([ref]) : null;
var fiberFlags = Update;
{
fiberFlags |= LayoutStatic;
}
if ((currentlyRenderingFiber$1.mode & StrictEffectsMode) !== NoMode) {
fiberFlags |= MountLayoutDev;
}
return mountEffectImpl(fiberFlags, Layout, imperativeHandleEffect.bind(null, create, ref), effectDeps);
}
function updateImperativeHandle(ref, create, deps) {
{
if (typeof create !== "function") {
error("Expected useImperativeHandle() second argument to be a function that creates a handle. Instead received: %s.", create !== null ? typeof create : "null");
}
}
var effectDeps = deps !== null && deps !== void 0 ? deps.concat([ref]) : null;
return updateEffectImpl(Update, Layout, imperativeHandleEffect.bind(null, create, ref), effectDeps);
}
function mountDebugValue(value, formatterFn) {
}
var updateDebugValue = mountDebugValue;
function mountCallback(callback, deps) {
var hook = mountWorkInProgressHook();
var nextDeps = deps === void 0 ? null : deps;
hook.memoizedState = [callback, nextDeps];
return callback;
}
function updateCallback(callback, deps) {
var hook = updateWorkInProgressHook();
var nextDeps = deps === void 0 ? null : deps;
var prevState = hook.memoizedState;
if (prevState !== null) {
if (nextDeps !== null) {
var prevDeps = prevState[1];
if (areHookInputsEqual(nextDeps, prevDeps)) {
return prevState[0];
}
}
}
hook.memoizedState = [callback, nextDeps];
return callback;
}
function mountMemo(nextCreate, deps) {
var hook = mountWorkInProgressHook();
var nextDeps = deps === void 0 ? null : deps;
var nextValue = nextCreate();
hook.memoizedState = [nextValue, nextDeps];
return nextValue;
}
function updateMemo(nextCreate, deps) {
var hook = updateWorkInProgressHook();
var nextDeps = deps === void 0 ? null : deps;
var prevState = hook.memoizedState;
if (prevState !== null) {
if (nextDeps !== null) {
var prevDeps = prevState[1];
if (areHookInputsEqual(nextDeps, prevDeps)) {
return prevState[0];
}
}
}
var nextValue = nextCreate();
hook.memoizedState = [nextValue, nextDeps];
return nextValue;
}
function mountDeferredValue(value) {
var hook = mountWorkInProgressHook();
hook.memoizedState = value;
return value;
}
function updateDeferredValue(value) {
var hook = updateWorkInProgressHook();
var resolvedCurrentHook = currentHook;
var prevValue = resolvedCurrentHook.memoizedState;
return updateDeferredValueImpl(hook, prevValue, value);
}
function rerenderDeferredValue(value) {
var hook = updateWorkInProgressHook();
if (currentHook === null) {
hook.memoizedState = value;
return value;
} else {
var prevValue = currentHook.memoizedState;
return updateDeferredValueImpl(hook, prevValue, value);
}
}
function updateDeferredValueImpl(hook, prevValue, value) {
var shouldDeferValue = !includesOnlyNonUrgentLanes(renderLanes);
if (shouldDeferValue) {
if (!objectIs(value, prevValue)) {
var deferredLane = claimNextTransitionLane();
currentlyRenderingFiber$1.lanes = mergeLanes(currentlyRenderingFiber$1.lanes, deferredLane);
markSkippedUpdateLanes(deferredLane);
hook.baseState = true;
}
return prevValue;
} else {
if (hook.baseState) {
hook.baseState = false;
markWorkInProgressReceivedUpdate();
}
hook.memoizedState = value;
return value;
}
}
function startTransition(setPending, callback, options2) {
var previousPriority = getCurrentUpdatePriority();
setCurrentUpdatePriority(higherEventPriority(previousPriority, ContinuousEventPriority));
setPending(true);
var prevTransition = ReactCurrentBatchConfig$2.transition;
ReactCurrentBatchConfig$2.transition = {};
var currentTransition = ReactCurrentBatchConfig$2.transition;
{
ReactCurrentBatchConfig$2.transition._updatedFibers = /* @__PURE__ */ new Set();
}
try {
setPending(false);
callback();
} finally {
setCurrentUpdatePriority(previousPriority);
ReactCurrentBatchConfig$2.transition = prevTransition;
{
if (prevTransition === null && currentTransition._updatedFibers) {
var updatedFibersCount = currentTransition._updatedFibers.size;
if (updatedFibersCount > 10) {
warn("Detected a large number of updates inside startTransition. If this is due to a subscription please re-write it to use React provided hooks. Otherwise concurrent mode guarantees are off the table.");
}
currentTransition._updatedFibers.clear();
}
}
}
}
function mountTransition() {
var _mountState = mountState(false), isPending = _mountState[0], setPending = _mountState[1];
var start = startTransition.bind(null, setPending);
var hook = mountWorkInProgressHook();
hook.memoizedState = start;
return [isPending, start];
}
function updateTransition() {
var _updateState = updateState(), isPending = _updateState[0];
var hook = updateWorkInProgressHook();
var start = hook.memoizedState;
return [isPending, start];
}
function rerenderTransition() {
var _rerenderState = rerenderState(), isPending = _rerenderState[0];
var hook = updateWorkInProgressHook();
var start = hook.memoizedState;
return [isPending, start];
}
var isUpdatingOpaqueValueInRenderPhase = false;
function getIsUpdatingOpaqueValueInRenderPhaseInDEV() {
{
return isUpdatingOpaqueValueInRenderPhase;
}
}
function mountId() {
var hook = mountWorkInProgressHook();
var root2 = getWorkInProgressRoot();
var identifierPrefix = root2.identifierPrefix;
var id;
if (getIsHydrating()) {
var treeId = getTreeId();
id = ":" + identifierPrefix + "R" + treeId;
var localId = localIdCounter++;
if (localId > 0) {
id += "H" + localId.toString(32);
}
id += ":";
} else {
var globalClientId = globalClientIdCounter++;
id = ":" + identifierPrefix + "r" + globalClientId.toString(32) + ":";
}
hook.memoizedState = id;
return id;
}
function updateId() {
var hook = updateWorkInProgressHook();
var id = hook.memoizedState;
return id;
}
function dispatchReducerAction(fiber, queue, action) {
{
if (typeof arguments[3] === "function") {
error("State updates from the useState() and useReducer() Hooks don't support the second callback argument. To execute a side effect after rendering, declare it in the component body with useEffect().");
}
}
var lane = requestUpdateLane(fiber);
var update = {
lane,
action,
hasEagerState: false,
eagerState: null,
next: null
};
if (isRenderPhaseUpdate(fiber)) {
enqueueRenderPhaseUpdate(queue, update);
} else {
var root2 = enqueueConcurrentHookUpdate(fiber, queue, update, lane);
if (root2 !== null) {
var eventTime = requestEventTime();
scheduleUpdateOnFiber(root2, fiber, lane, eventTime);
entangleTransitionUpdate(root2, queue, lane);
}
}
markUpdateInDevTools(fiber, lane);
}
function dispatchSetState(fiber, queue, action) {
{
if (typeof arguments[3] === "function") {
error("State updates from the useState() and useReducer() Hooks don't support the second callback argument. To execute a side effect after rendering, declare it in the component body with useEffect().");
}
}
var lane = requestUpdateLane(fiber);
var update = {
lane,
action,
hasEagerState: false,
eagerState: null,
next: null
};
if (isRenderPhaseUpdate(fiber)) {
enqueueRenderPhaseUpdate(queue, update);
} else {
var alternate = fiber.alternate;
if (fiber.lanes === NoLanes && (alternate === null || alternate.lanes === NoLanes)) {
var lastRenderedReducer = queue.lastRenderedReducer;
if (lastRenderedReducer !== null) {
var prevDispatcher;
{
prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
}
try {
var currentState = queue.lastRenderedState;
var eagerState = lastRenderedReducer(currentState, action);
update.hasEagerState = true;
update.eagerState = eagerState;
if (objectIs(eagerState, currentState)) {
enqueueConcurrentHookUpdateAndEagerlyBailout(fiber, queue, update, lane);
return;
}
} catch (error2) {
} finally {
{
ReactCurrentDispatcher$1.current = prevDispatcher;
}
}
}
}
var root2 = enqueueConcurrentHookUpdate(fiber, queue, update, lane);
if (root2 !== null) {
var eventTime = requestEventTime();
scheduleUpdateOnFiber(root2, fiber, lane, eventTime);
entangleTransitionUpdate(root2, queue, lane);
}
}
markUpdateInDevTools(fiber, lane);
}
function isRenderPhaseUpdate(fiber) {
var alternate = fiber.alternate;
return fiber === currentlyRenderingFiber$1 || alternate !== null && alternate === currentlyRenderingFiber$1;
}
function enqueueRenderPhaseUpdate(queue, update) {
didScheduleRenderPhaseUpdateDuringThisPass = didScheduleRenderPhaseUpdate = true;
var pending = queue.pending;
if (pending === null) {
update.next = update;
} else {
update.next = pending.next;
pending.next = update;
}
queue.pending = update;
}
function entangleTransitionUpdate(root2, queue, lane) {
if (isTransitionLane(lane)) {
var queueLanes = queue.lanes;
queueLanes = intersectLanes(queueLanes, root2.pendingLanes);
var newQueueLanes = mergeLanes(queueLanes, lane);
queue.lanes = newQueueLanes;
markRootEntangled(root2, newQueueLanes);
}
}
function markUpdateInDevTools(fiber, lane, action) {
{
markStateUpdateScheduled(fiber, lane);
}
}
var ContextOnlyDispatcher = {
readContext,
useCallback: throwInvalidHookError,
useContext: throwInvalidHookError,
useEffect: throwInvalidHookError,
useImperativeHandle: throwInvalidHookError,
useInsertionEffect: throwInvalidHookError,
useLayoutEffect: throwInvalidHookError,
useMemo: throwInvalidHookError,
useReducer: throwInvalidHookError,
useRef: throwInvalidHookError,
useState: throwInvalidHookError,
useDebugValue: throwInvalidHookError,
useDeferredValue: throwInvalidHookError,
useTransition: throwInvalidHookError,
useMutableSource: throwInvalidHookError,
useSyncExternalStore: throwInvalidHookError,
useId: throwInvalidHookError,
unstable_isNewReconciler: enableNewReconciler
};
var HooksDispatcherOnMountInDEV = null;
var HooksDispatcherOnMountWithHookTypesInDEV = null;
var HooksDispatcherOnUpdateInDEV = null;
var HooksDispatcherOnRerenderInDEV = null;
var InvalidNestedHooksDispatcherOnMountInDEV = null;
var InvalidNestedHooksDispatcherOnUpdateInDEV = null;
var InvalidNestedHooksDispatcherOnRerenderInDEV = null;
{
var warnInvalidContextAccess = function() {
error("Context can only be read while React is rendering. In classes, you can read it in the render method or getDerivedStateFromProps. In function components, you can read it directly in the function body, but not inside Hooks like useReducer() or useMemo().");
};
var warnInvalidHookAccess = function() {
error("Do not call Hooks inside useEffect(...), useMemo(...), or other built-in Hooks. You can only call Hooks at the top level of your React function. For more information, see https://reactjs.org/link/rules-of-hooks");
};
HooksDispatcherOnMountInDEV = {
readContext: function(context) {
return readContext(context);
},
useCallback: function(callback, deps) {
currentHookNameInDev = "useCallback";
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountCallback(callback, deps);
},
useContext: function(context) {
currentHookNameInDev = "useContext";
mountHookTypesDev();
return readContext(context);
},
useEffect: function(create, deps) {
currentHookNameInDev = "useEffect";
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountEffect(create, deps);
},
useImperativeHandle: function(ref, create, deps) {
currentHookNameInDev = "useImperativeHandle";
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountImperativeHandle(ref, create, deps);
},
useInsertionEffect: function(create, deps) {
currentHookNameInDev = "useInsertionEffect";
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountInsertionEffect(create, deps);
},
useLayoutEffect: function(create, deps) {
currentHookNameInDev = "useLayoutEffect";
mountHookTypesDev();
checkDepsAreArrayDev(deps);
return mountLayoutEffect(create, deps);
},
useMemo: function(create, deps) {
currentHookNameInDev = "useMemo";
mountHookTypesDev();
checkDepsAreArrayDev(deps);
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function(reducer, initialArg, init) {
currentHookNameInDev = "useReducer";
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function(initialValue) {
currentHookNameInDev = "useRef";
mountHookTypesDev();
return mountRef(initialValue);
},
useState: function(initialState) {
currentHookNameInDev = "useState";
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function(value, formatterFn) {
currentHookNameInDev = "useDebugValue";
mountHookTypesDev();
return mountDebugValue();
},
useDeferredValue: function(value) {
currentHookNameInDev = "useDeferredValue";
mountHookTypesDev();
return mountDeferredValue(value);
},
useTransition: function() {
currentHookNameInDev = "useTransition";
mountHookTypesDev();
return mountTransition();
},
useMutableSource: function(source, getSnapshot, subscribe) {
currentHookNameInDev = "useMutableSource";
mountHookTypesDev();
return mountMutableSource();
},
useSyncExternalStore: function(subscribe, getSnapshot, getServerSnapshot) {
currentHookNameInDev = "useSyncExternalStore";
mountHookTypesDev();
return mountSyncExternalStore(subscribe, getSnapshot, getServerSnapshot);
},
useId: function() {
currentHookNameInDev = "useId";
mountHookTypesDev();
return mountId();
},
unstable_isNewReconciler: enableNewReconciler
};
HooksDispatcherOnMountWithHookTypesInDEV = {
readContext: function(context) {
return readContext(context);
},
useCallback: function(callback, deps) {
currentHookNameInDev = "useCallback";
updateHookTypesDev();
return mountCallback(callback, deps);
},
useContext: function(context) {
currentHookNameInDev = "useContext";
updateHookTypesDev();
return readContext(context);
},
useEffect: function(create, deps) {
currentHookNameInDev = "useEffect";
updateHookTypesDev();
return mountEffect(create, deps);
},
useImperativeHandle: function(ref, create, deps) {
currentHookNameInDev = "useImperativeHandle";
updateHookTypesDev();
return mountImperativeHandle(ref, create, deps);
},
useInsertionEffect: function(create, deps) {
currentHookNameInDev = "useInsertionEffect";
updateHookTypesDev();
return mountInsertionEffect(create, deps);
},
useLayoutEffect: function(create, deps) {
currentHookNameInDev = "useLayoutEffect";
updateHookTypesDev();
return mountLayoutEffect(create, deps);
},
useMemo: function(create, deps) {
currentHookNameInDev = "useMemo";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function(reducer, initialArg, init) {
currentHookNameInDev = "useReducer";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function(initialValue) {
currentHookNameInDev = "useRef";
updateHookTypesDev();
return mountRef(initialValue);
},
useState: function(initialState) {
currentHookNameInDev = "useState";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function(value, formatterFn) {
currentHookNameInDev = "useDebugValue";
updateHookTypesDev();
return mountDebugValue();
},
useDeferredValue: function(value) {
currentHookNameInDev = "useDeferredValue";
updateHookTypesDev();
return mountDeferredValue(value);
},
useTransition: function() {
currentHookNameInDev = "useTransition";
updateHookTypesDev();
return mountTransition();
},
useMutableSource: function(source, getSnapshot, subscribe) {
currentHookNameInDev = "useMutableSource";
updateHookTypesDev();
return mountMutableSource();
},
useSyncExternalStore: function(subscribe, getSnapshot, getServerSnapshot) {
currentHookNameInDev = "useSyncExternalStore";
updateHookTypesDev();
return mountSyncExternalStore(subscribe, getSnapshot, getServerSnapshot);
},
useId: function() {
currentHookNameInDev = "useId";
updateHookTypesDev();
return mountId();
},
unstable_isNewReconciler: enableNewReconciler
};
HooksDispatcherOnUpdateInDEV = {
readContext: function(context) {
return readContext(context);
},
useCallback: function(callback, deps) {
currentHookNameInDev = "useCallback";
updateHookTypesDev();
return updateCallback(callback, deps);
},
useContext: function(context) {
currentHookNameInDev = "useContext";
updateHookTypesDev();
return readContext(context);
},
useEffect: function(create, deps) {
currentHookNameInDev = "useEffect";
updateHookTypesDev();
return updateEffect(create, deps);
},
useImperativeHandle: function(ref, create, deps) {
currentHookNameInDev = "useImperativeHandle";
updateHookTypesDev();
return updateImperativeHandle(ref, create, deps);
},
useInsertionEffect: function(create, deps) {
currentHookNameInDev = "useInsertionEffect";
updateHookTypesDev();
return updateInsertionEffect(create, deps);
},
useLayoutEffect: function(create, deps) {
currentHookNameInDev = "useLayoutEffect";
updateHookTypesDev();
return updateLayoutEffect(create, deps);
},
useMemo: function(create, deps) {
currentHookNameInDev = "useMemo";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function(reducer, initialArg, init) {
currentHookNameInDev = "useReducer";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function(initialValue) {
currentHookNameInDev = "useRef";
updateHookTypesDev();
return updateRef();
},
useState: function(initialState) {
currentHookNameInDev = "useState";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function(value, formatterFn) {
currentHookNameInDev = "useDebugValue";
updateHookTypesDev();
return updateDebugValue();
},
useDeferredValue: function(value) {
currentHookNameInDev = "useDeferredValue";
updateHookTypesDev();
return updateDeferredValue(value);
},
useTransition: function() {
currentHookNameInDev = "useTransition";
updateHookTypesDev();
return updateTransition();
},
useMutableSource: function(source, getSnapshot, subscribe) {
currentHookNameInDev = "useMutableSource";
updateHookTypesDev();
return updateMutableSource();
},
useSyncExternalStore: function(subscribe, getSnapshot, getServerSnapshot) {
currentHookNameInDev = "useSyncExternalStore";
updateHookTypesDev();
return updateSyncExternalStore(subscribe, getSnapshot);
},
useId: function() {
currentHookNameInDev = "useId";
updateHookTypesDev();
return updateId();
},
unstable_isNewReconciler: enableNewReconciler
};
HooksDispatcherOnRerenderInDEV = {
readContext: function(context) {
return readContext(context);
},
useCallback: function(callback, deps) {
currentHookNameInDev = "useCallback";
updateHookTypesDev();
return updateCallback(callback, deps);
},
useContext: function(context) {
currentHookNameInDev = "useContext";
updateHookTypesDev();
return readContext(context);
},
useEffect: function(create, deps) {
currentHookNameInDev = "useEffect";
updateHookTypesDev();
return updateEffect(create, deps);
},
useImperativeHandle: function(ref, create, deps) {
currentHookNameInDev = "useImperativeHandle";
updateHookTypesDev();
return updateImperativeHandle(ref, create, deps);
},
useInsertionEffect: function(create, deps) {
currentHookNameInDev = "useInsertionEffect";
updateHookTypesDev();
return updateInsertionEffect(create, deps);
},
useLayoutEffect: function(create, deps) {
currentHookNameInDev = "useLayoutEffect";
updateHookTypesDev();
return updateLayoutEffect(create, deps);
},
useMemo: function(create, deps) {
currentHookNameInDev = "useMemo";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnRerenderInDEV;
try {
return updateMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function(reducer, initialArg, init) {
currentHookNameInDev = "useReducer";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnRerenderInDEV;
try {
return rerenderReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function(initialValue) {
currentHookNameInDev = "useRef";
updateHookTypesDev();
return updateRef();
},
useState: function(initialState) {
currentHookNameInDev = "useState";
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnRerenderInDEV;
try {
return rerenderState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function(value, formatterFn) {
currentHookNameInDev = "useDebugValue";
updateHookTypesDev();
return updateDebugValue();
},
useDeferredValue: function(value) {
currentHookNameInDev = "useDeferredValue";
updateHookTypesDev();
return rerenderDeferredValue(value);
},
useTransition: function() {
currentHookNameInDev = "useTransition";
updateHookTypesDev();
return rerenderTransition();
},
useMutableSource: function(source, getSnapshot, subscribe) {
currentHookNameInDev = "useMutableSource";
updateHookTypesDev();
return updateMutableSource();
},
useSyncExternalStore: function(subscribe, getSnapshot, getServerSnapshot) {
currentHookNameInDev = "useSyncExternalStore";
updateHookTypesDev();
return updateSyncExternalStore(subscribe, getSnapshot);
},
useId: function() {
currentHookNameInDev = "useId";
updateHookTypesDev();
return updateId();
},
unstable_isNewReconciler: enableNewReconciler
};
InvalidNestedHooksDispatcherOnMountInDEV = {
readContext: function(context) {
warnInvalidContextAccess();
return readContext(context);
},
useCallback: function(callback, deps) {
currentHookNameInDev = "useCallback";
warnInvalidHookAccess();
mountHookTypesDev();
return mountCallback(callback, deps);
},
useContext: function(context) {
currentHookNameInDev = "useContext";
warnInvalidHookAccess();
mountHookTypesDev();
return readContext(context);
},
useEffect: function(create, deps) {
currentHookNameInDev = "useEffect";
warnInvalidHookAccess();
mountHookTypesDev();
return mountEffect(create, deps);
},
useImperativeHandle: function(ref, create, deps) {
currentHookNameInDev = "useImperativeHandle";
warnInvalidHookAccess();
mountHookTypesDev();
return mountImperativeHandle(ref, create, deps);
},
useInsertionEffect: function(create, deps) {
currentHookNameInDev = "useInsertionEffect";
warnInvalidHookAccess();
mountHookTypesDev();
return mountInsertionEffect(create, deps);
},
useLayoutEffect: function(create, deps) {
currentHookNameInDev = "useLayoutEffect";
warnInvalidHookAccess();
mountHookTypesDev();
return mountLayoutEffect(create, deps);
},
useMemo: function(create, deps) {
currentHookNameInDev = "useMemo";
warnInvalidHookAccess();
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function(reducer, initialArg, init) {
currentHookNameInDev = "useReducer";
warnInvalidHookAccess();
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function(initialValue) {
currentHookNameInDev = "useRef";
warnInvalidHookAccess();
mountHookTypesDev();
return mountRef(initialValue);
},
useState: function(initialState) {
currentHookNameInDev = "useState";
warnInvalidHookAccess();
mountHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnMountInDEV;
try {
return mountState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function(value, formatterFn) {
currentHookNameInDev = "useDebugValue";
warnInvalidHookAccess();
mountHookTypesDev();
return mountDebugValue();
},
useDeferredValue: function(value) {
currentHookNameInDev = "useDeferredValue";
warnInvalidHookAccess();
mountHookTypesDev();
return mountDeferredValue(value);
},
useTransition: function() {
currentHookNameInDev = "useTransition";
warnInvalidHookAccess();
mountHookTypesDev();
return mountTransition();
},
useMutableSource: function(source, getSnapshot, subscribe) {
currentHookNameInDev = "useMutableSource";
warnInvalidHookAccess();
mountHookTypesDev();
return mountMutableSource();
},
useSyncExternalStore: function(subscribe, getSnapshot, getServerSnapshot) {
currentHookNameInDev = "useSyncExternalStore";
warnInvalidHookAccess();
mountHookTypesDev();
return mountSyncExternalStore(subscribe, getSnapshot, getServerSnapshot);
},
useId: function() {
currentHookNameInDev = "useId";
warnInvalidHookAccess();
mountHookTypesDev();
return mountId();
},
unstable_isNewReconciler: enableNewReconciler
};
InvalidNestedHooksDispatcherOnUpdateInDEV = {
readContext: function(context) {
warnInvalidContextAccess();
return readContext(context);
},
useCallback: function(callback, deps) {
currentHookNameInDev = "useCallback";
warnInvalidHookAccess();
updateHookTypesDev();
return updateCallback(callback, deps);
},
useContext: function(context) {
currentHookNameInDev = "useContext";
warnInvalidHookAccess();
updateHookTypesDev();
return readContext(context);
},
useEffect: function(create, deps) {
currentHookNameInDev = "useEffect";
warnInvalidHookAccess();
updateHookTypesDev();
return updateEffect(create, deps);
},
useImperativeHandle: function(ref, create, deps) {
currentHookNameInDev = "useImperativeHandle";
warnInvalidHookAccess();
updateHookTypesDev();
return updateImperativeHandle(ref, create, deps);
},
useInsertionEffect: function(create, deps) {
currentHookNameInDev = "useInsertionEffect";
warnInvalidHookAccess();
updateHookTypesDev();
return updateInsertionEffect(create, deps);
},
useLayoutEffect: function(create, deps) {
currentHookNameInDev = "useLayoutEffect";
warnInvalidHookAccess();
updateHookTypesDev();
return updateLayoutEffect(create, deps);
},
useMemo: function(create, deps) {
currentHookNameInDev = "useMemo";
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function(reducer, initialArg, init) {
currentHookNameInDev = "useReducer";
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function(initialValue) {
currentHookNameInDev = "useRef";
warnInvalidHookAccess();
updateHookTypesDev();
return updateRef();
},
useState: function(initialState) {
currentHookNameInDev = "useState";
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function(value, formatterFn) {
currentHookNameInDev = "useDebugValue";
warnInvalidHookAccess();
updateHookTypesDev();
return updateDebugValue();
},
useDeferredValue: function(value) {
currentHookNameInDev = "useDeferredValue";
warnInvalidHookAccess();
updateHookTypesDev();
return updateDeferredValue(value);
},
useTransition: function() {
currentHookNameInDev = "useTransition";
warnInvalidHookAccess();
updateHookTypesDev();
return updateTransition();
},
useMutableSource: function(source, getSnapshot, subscribe) {
currentHookNameInDev = "useMutableSource";
warnInvalidHookAccess();
updateHookTypesDev();
return updateMutableSource();
},
useSyncExternalStore: function(subscribe, getSnapshot, getServerSnapshot) {
currentHookNameInDev = "useSyncExternalStore";
warnInvalidHookAccess();
updateHookTypesDev();
return updateSyncExternalStore(subscribe, getSnapshot);
},
useId: function() {
currentHookNameInDev = "useId";
warnInvalidHookAccess();
updateHookTypesDev();
return updateId();
},
unstable_isNewReconciler: enableNewReconciler
};
InvalidNestedHooksDispatcherOnRerenderInDEV = {
readContext: function(context) {
warnInvalidContextAccess();
return readContext(context);
},
useCallback: function(callback, deps) {
currentHookNameInDev = "useCallback";
warnInvalidHookAccess();
updateHookTypesDev();
return updateCallback(callback, deps);
},
useContext: function(context) {
currentHookNameInDev = "useContext";
warnInvalidHookAccess();
updateHookTypesDev();
return readContext(context);
},
useEffect: function(create, deps) {
currentHookNameInDev = "useEffect";
warnInvalidHookAccess();
updateHookTypesDev();
return updateEffect(create, deps);
},
useImperativeHandle: function(ref, create, deps) {
currentHookNameInDev = "useImperativeHandle";
warnInvalidHookAccess();
updateHookTypesDev();
return updateImperativeHandle(ref, create, deps);
},
useInsertionEffect: function(create, deps) {
currentHookNameInDev = "useInsertionEffect";
warnInvalidHookAccess();
updateHookTypesDev();
return updateInsertionEffect(create, deps);
},
useLayoutEffect: function(create, deps) {
currentHookNameInDev = "useLayoutEffect";
warnInvalidHookAccess();
updateHookTypesDev();
return updateLayoutEffect(create, deps);
},
useMemo: function(create, deps) {
currentHookNameInDev = "useMemo";
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return updateMemo(create, deps);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useReducer: function(reducer, initialArg, init) {
currentHookNameInDev = "useReducer";
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return rerenderReducer(reducer, initialArg, init);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useRef: function(initialValue) {
currentHookNameInDev = "useRef";
warnInvalidHookAccess();
updateHookTypesDev();
return updateRef();
},
useState: function(initialState) {
currentHookNameInDev = "useState";
warnInvalidHookAccess();
updateHookTypesDev();
var prevDispatcher = ReactCurrentDispatcher$1.current;
ReactCurrentDispatcher$1.current = InvalidNestedHooksDispatcherOnUpdateInDEV;
try {
return rerenderState(initialState);
} finally {
ReactCurrentDispatcher$1.current = prevDispatcher;
}
},
useDebugValue: function(value, formatterFn) {
currentHookNameInDev = "useDebugValue";
warnInvalidHookAccess();
updateHookTypesDev();
return updateDebugValue();
},
useDeferredValue: function(value) {
currentHookNameInDev = "useDeferredValue";
warnInvalidHookAccess();
updateHookTypesDev();
return rerenderDeferredValue(value);
},
useTransition: function() {
currentHookNameInDev = "useTransition";
warnInvalidHookAccess();
updateHookTypesDev();
return rerenderTransition();
},
useMutableSource: function(source, getSnapshot, subscribe) {
currentHookNameInDev = "useMutableSource";
warnInvalidHookAccess();
updateHookTypesDev();
return updateMutableSource();
},
useSyncExternalStore: function(subscribe, getSnapshot, getServerSnapshot) {
currentHookNameInDev = "useSyncExternalStore";
warnInvalidHookAccess();
updateHookTypesDev();
return updateSyncExternalStore(subscribe, getSnapshot);
},
useId: function() {
currentHookNameInDev = "useId";
warnInvalidHookAccess();
updateHookTypesDev();
return updateId();
},
unstable_isNewReconciler: enableNewReconciler
};
}
var now$1 = Scheduler.unstable_now;
var commitTime = 0;
var layoutEffectStartTime = -1;
var profilerStartTime = -1;
var passiveEffectStartTime = -1;
var currentUpdateIsNested = false;
var nestedUpdateScheduled = false;
function isCurrentUpdateNested() {
return currentUpdateIsNested;
}
function markNestedUpdateScheduled() {
{
nestedUpdateScheduled = true;
}
}
function resetNestedUpdateFlag() {
{
currentUpdateIsNested = false;
nestedUpdateScheduled = false;
}
}
function syncNestedUpdateFlag() {
{
currentUpdateIsNested = nestedUpdateScheduled;
nestedUpdateScheduled = false;
}
}
function getCommitTime() {
return commitTime;
}
function recordCommitTime() {
commitTime = now$1();
}
function startProfilerTimer(fiber) {
profilerStartTime = now$1();
if (fiber.actualStartTime < 0) {
fiber.actualStartTime = now$1();
}
}
function stopProfilerTimerIfRunning(fiber) {
profilerStartTime = -1;
}
function stopProfilerTimerIfRunningAndRecordDelta(fiber, overrideBaseTime) {
if (profilerStartTime >= 0) {
var elapsedTime = now$1() - profilerStartTime;
fiber.actualDuration += elapsedTime;
if (overrideBaseTime) {
fiber.selfBaseDuration = elapsedTime;
}
profilerStartTime = -1;
}
}
function recordLayoutEffectDuration(fiber) {
if (layoutEffectStartTime >= 0) {
var elapsedTime = now$1() - layoutEffectStartTime;
layoutEffectStartTime = -1;
var parentFiber = fiber.return;
while (parentFiber !== null) {
switch (parentFiber.tag) {
case HostRoot:
var root2 = parentFiber.stateNode;
root2.effectDuration += elapsedTime;
return;
case Profiler:
var parentStateNode = parentFiber.stateNode;
parentStateNode.effectDuration += elapsedTime;
return;
}
parentFiber = parentFiber.return;
}
}
}
function recordPassiveEffectDuration(fiber) {
if (passiveEffectStartTime >= 0) {
var elapsedTime = now$1() - passiveEffectStartTime;
passiveEffectStartTime = -1;
var parentFiber = fiber.return;
while (parentFiber !== null) {
switch (parentFiber.tag) {
case HostRoot:
var root2 = parentFiber.stateNode;
if (root2 !== null) {
root2.passiveEffectDuration += elapsedTime;
}
return;
case Profiler:
var parentStateNode = parentFiber.stateNode;
if (parentStateNode !== null) {
parentStateNode.passiveEffectDuration += elapsedTime;
}
return;
}
parentFiber = parentFiber.return;
}
}
}
function startLayoutEffectTimer() {
layoutEffectStartTime = now$1();
}
function startPassiveEffectTimer() {
passiveEffectStartTime = now$1();
}
function transferActualDuration(fiber) {
var child = fiber.child;
while (child) {
fiber.actualDuration += child.actualDuration;
child = child.sibling;
}
}
function createCapturedValueAtFiber(value, source) {
return {
value,
source,
stack: getStackByFiberInDevAndProd(source),
digest: null
};
}
function createCapturedValue(value, digest, stack) {
return {
value,
source: null,
stack: stack != null ? stack : null,
digest: digest != null ? digest : null
};
}
function showErrorDialog(boundary, errorInfo) {
return true;
}
function logCapturedError(boundary, errorInfo) {
try {
var logError = showErrorDialog(boundary, errorInfo);
if (logError === false) {
return;
}
var error2 = errorInfo.value;
if (true) {
var source = errorInfo.source;
var stack = errorInfo.stack;
var componentStack = stack !== null ? stack : "";
if (error2 != null && error2._suppressLogging) {
if (boundary.tag === ClassComponent) {
return;
}
console["error"](error2);
}
var componentName = source ? getComponentNameFromFiber(source) : null;
var componentNameMessage = componentName ? "The above error occurred in the <" + componentName + "> component:" : "The above error occurred in one of your React components:";
var errorBoundaryMessage;
if (boundary.tag === HostRoot) {
errorBoundaryMessage = "Consider adding an error boundary to your tree to customize error handling behavior.\nVisit https://reactjs.org/link/error-boundaries to learn more about error boundaries.";
} else {
var errorBoundaryName = getComponentNameFromFiber(boundary) || "Anonymous";
errorBoundaryMessage = "React will try to recreate this component tree from scratch " + ("using the error boundary you provided, " + errorBoundaryName + ".");
}
var combinedMessage = componentNameMessage + "\n" + componentStack + "\n\n" + ("" + errorBoundaryMessage);
console["error"](combinedMessage);
} else {
console["error"](error2);
}
} catch (e) {
setTimeout(function() {
throw e;
});
}
}
var PossiblyWeakMap$1 = typeof WeakMap === "function" ? WeakMap : Map;
function createRootErrorUpdate(fiber, errorInfo, lane) {
var update = createUpdate(NoTimestamp, lane);
update.tag = CaptureUpdate;
update.payload = {
element: null
};
var error2 = errorInfo.value;
update.callback = function() {
onUncaughtError(error2);
logCapturedError(fiber, errorInfo);
};
return update;
}
function createClassErrorUpdate(fiber, errorInfo, lane) {
var update = createUpdate(NoTimestamp, lane);
update.tag = CaptureUpdate;
var getDerivedStateFromError = fiber.type.getDerivedStateFromError;
if (typeof getDerivedStateFromError === "function") {
var error$1 = errorInfo.value;
update.payload = function() {
return getDerivedStateFromError(error$1);
};
update.callback = function() {
{
markFailedErrorBoundaryForHotReloading(fiber);
}
logCapturedError(fiber, errorInfo);
};
}
var inst = fiber.stateNode;
if (inst !== null && typeof inst.componentDidCatch === "function") {
update.callback = function callback() {
{
markFailedErrorBoundaryForHotReloading(fiber);
}
logCapturedError(fiber, errorInfo);
if (typeof getDerivedStateFromError !== "function") {
markLegacyErrorBoundaryAsFailed(this);
}
var error$12 = errorInfo.value;
var stack = errorInfo.stack;
this.componentDidCatch(error$12, {
componentStack: stack !== null ? stack : ""
});
{
if (typeof getDerivedStateFromError !== "function") {
if (!includesSomeLane(fiber.lanes, SyncLane)) {
error("%s: Error boundaries should implement getDerivedStateFromError(). In that method, return a state update to display an error message or fallback UI.", getComponentNameFromFiber(fiber) || "Unknown");
}
}
}
};
}
return update;
}
function attachPingListener(root2, wakeable, lanes) {
var pingCache = root2.pingCache;
var threadIDs;
if (pingCache === null) {
pingCache = root2.pingCache = new PossiblyWeakMap$1();
threadIDs = /* @__PURE__ */ new Set();
pingCache.set(wakeable, threadIDs);
} else {
threadIDs = pingCache.get(wakeable);
if (threadIDs === void 0) {
threadIDs = /* @__PURE__ */ new Set();
pingCache.set(wakeable, threadIDs);
}
}
if (!threadIDs.has(lanes)) {
threadIDs.add(lanes);
var ping = pingSuspendedRoot.bind(null, root2, wakeable, lanes);
{
if (isDevToolsPresent) {
restorePendingUpdaters(root2, lanes);
}
}
wakeable.then(ping, ping);
}
}
function attachRetryListener(suspenseBoundary, root2, wakeable, lanes) {
var wakeables = suspenseBoundary.updateQueue;
if (wakeables === null) {
var updateQueue = /* @__PURE__ */ new Set();
updateQueue.add(wakeable);
suspenseBoundary.updateQueue = updateQueue;
} else {
wakeables.add(wakeable);
}
}
function resetSuspendedComponent(sourceFiber, rootRenderLanes) {
var tag = sourceFiber.tag;
if ((sourceFiber.mode & ConcurrentMode) === NoMode && (tag === FunctionComponent || tag === ForwardRef || tag === SimpleMemoComponent)) {
var currentSource = sourceFiber.alternate;
if (currentSource) {
sourceFiber.updateQueue = currentSource.updateQueue;
sourceFiber.memoizedState = currentSource.memoizedState;
sourceFiber.lanes = currentSource.lanes;
} else {
sourceFiber.updateQueue = null;
sourceFiber.memoizedState = null;
}
}
}
function getNearestSuspenseBoundaryToCapture(returnFiber) {
var node = returnFiber;
do {
if (node.tag === SuspenseComponent && shouldCaptureSuspense(node)) {
return node;
}
node = node.return;
} while (node !== null);
return null;
}
function markSuspenseBoundaryShouldCapture(suspenseBoundary, returnFiber, sourceFiber, root2, rootRenderLanes) {
if ((suspenseBoundary.mode & ConcurrentMode) === NoMode) {
if (suspenseBoundary === returnFiber) {
suspenseBoundary.flags |= ShouldCapture;
} else {
suspenseBoundary.flags |= DidCapture;
sourceFiber.flags |= ForceUpdateForLegacySuspense;
sourceFiber.flags &= ~(LifecycleEffectMask | Incomplete);
if (sourceFiber.tag === ClassComponent) {
var currentSourceFiber = sourceFiber.alternate;
if (currentSourceFiber === null) {
sourceFiber.tag = IncompleteClassComponent;
} else {
var update = createUpdate(NoTimestamp, SyncLane);
update.tag = ForceUpdate;
enqueueUpdate(sourceFiber, update, SyncLane);
}
}
sourceFiber.lanes = mergeLanes(sourceFiber.lanes, SyncLane);
}
return suspenseBoundary;
}
suspenseBoundary.flags |= ShouldCapture;
suspenseBoundary.lanes = rootRenderLanes;
return suspenseBoundary;
}
function throwException(root2, returnFiber, sourceFiber, value, rootRenderLanes) {
sourceFiber.flags |= Incomplete;
{
if (isDevToolsPresent) {
restorePendingUpdaters(root2, rootRenderLanes);
}
}
if (value !== null && typeof value === "object" && typeof value.then === "function") {
var wakeable = value;
resetSuspendedComponent(sourceFiber);
{
if (getIsHydrating() && sourceFiber.mode & ConcurrentMode) {
markDidThrowWhileHydratingDEV();
}
}
var suspenseBoundary = getNearestSuspenseBoundaryToCapture(returnFiber);
if (suspenseBoundary !== null) {
suspenseBoundary.flags &= ~ForceClientRender;
markSuspenseBoundaryShouldCapture(suspenseBoundary, returnFiber, sourceFiber, root2, rootRenderLanes);
if (suspenseBoundary.mode & ConcurrentMode) {
attachPingListener(root2, wakeable, rootRenderLanes);
}
attachRetryListener(suspenseBoundary, root2, wakeable);
return;
} else {
if (!includesSyncLane(rootRenderLanes)) {
attachPingListener(root2, wakeable, rootRenderLanes);
renderDidSuspendDelayIfPossible();
return;
}
var uncaughtSuspenseError = new Error("A component suspended while responding to synchronous input. This will cause the UI to be replaced with a loading indicator. To fix, updates that suspend should be wrapped with startTransition.");
value = uncaughtSuspenseError;
}
} else {
if (getIsHydrating() && sourceFiber.mode & ConcurrentMode) {
markDidThrowWhileHydratingDEV();
var _suspenseBoundary = getNearestSuspenseBoundaryToCapture(returnFiber);
if (_suspenseBoundary !== null) {
if ((_suspenseBoundary.flags & ShouldCapture) === NoFlags) {
_suspenseBoundary.flags |= ForceClientRender;
}
markSuspenseBoundaryShouldCapture(_suspenseBoundary, returnFiber, sourceFiber, root2, rootRenderLanes);
queueHydrationError(createCapturedValueAtFiber(value, sourceFiber));
return;
}
}
}
value = createCapturedValueAtFiber(value, sourceFiber);
renderDidError(value);
var workInProgress2 = returnFiber;
do {
switch (workInProgress2.tag) {
case HostRoot: {
var _errorInfo = value;
workInProgress2.flags |= ShouldCapture;
var lane = pickArbitraryLane(rootRenderLanes);
workInProgress2.lanes = mergeLanes(workInProgress2.lanes, lane);
var update = createRootErrorUpdate(workInProgress2, _errorInfo, lane);
enqueueCapturedUpdate(workInProgress2, update);
return;
}
case ClassComponent:
var errorInfo = value;
var ctor = workInProgress2.type;
var instance = workInProgress2.stateNode;
if ((workInProgress2.flags & DidCapture) === NoFlags && (typeof ctor.getDerivedStateFromError === "function" || instance !== null && typeof instance.componentDidCatch === "function" && !isAlreadyFailedLegacyErrorBoundary(instance))) {
workInProgress2.flags |= ShouldCapture;
var _lane = pickArbitraryLane(rootRenderLanes);
workInProgress2.lanes = mergeLanes(workInProgress2.lanes, _lane);
var _update = createClassErrorUpdate(workInProgress2, errorInfo, _lane);
enqueueCapturedUpdate(workInProgress2, _update);
return;
}
break;
}
workInProgress2 = workInProgress2.return;
} while (workInProgress2 !== null);
}
function getSuspendedCache() {
{
return null;
}
}
var ReactCurrentOwner$1 = ReactSharedInternals.ReactCurrentOwner;
var didReceiveUpdate = false;
var didWarnAboutBadClass;
var didWarnAboutModulePatternComponent;
var didWarnAboutContextTypeOnFunctionComponent;
var didWarnAboutGetDerivedStateOnFunctionComponent;
var didWarnAboutFunctionRefs;
var didWarnAboutReassigningProps;
var didWarnAboutRevealOrder;
var didWarnAboutTailOptions;
{
didWarnAboutBadClass = {};
didWarnAboutModulePatternComponent = {};
didWarnAboutContextTypeOnFunctionComponent = {};
didWarnAboutGetDerivedStateOnFunctionComponent = {};
didWarnAboutFunctionRefs = {};
didWarnAboutReassigningProps = false;
didWarnAboutRevealOrder = {};
didWarnAboutTailOptions = {};
}
function reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2) {
if (current2 === null) {
workInProgress2.child = mountChildFibers(workInProgress2, null, nextChildren, renderLanes2);
} else {
workInProgress2.child = reconcileChildFibers(workInProgress2, current2.child, nextChildren, renderLanes2);
}
}
function forceUnmountCurrentAndReconcile(current2, workInProgress2, nextChildren, renderLanes2) {
workInProgress2.child = reconcileChildFibers(workInProgress2, current2.child, null, renderLanes2);
workInProgress2.child = reconcileChildFibers(workInProgress2, null, nextChildren, renderLanes2);
}
function updateForwardRef(current2, workInProgress2, Component, nextProps, renderLanes2) {
{
if (workInProgress2.type !== workInProgress2.elementType) {
var innerPropTypes = Component.propTypes;
if (innerPropTypes) {
checkPropTypes(
innerPropTypes,
nextProps,
// Resolved props
"prop",
getComponentNameFromType(Component)
);
}
}
}
var render4 = Component.render;
var ref = workInProgress2.ref;
var nextChildren;
var hasId;
prepareToReadContext(workInProgress2, renderLanes2);
{
markComponentRenderStarted(workInProgress2);
}
{
ReactCurrentOwner$1.current = workInProgress2;
setIsRendering(true);
nextChildren = renderWithHooks(current2, workInProgress2, render4, nextProps, ref, renderLanes2);
hasId = checkDidRenderIdHook();
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
nextChildren = renderWithHooks(current2, workInProgress2, render4, nextProps, ref, renderLanes2);
hasId = checkDidRenderIdHook();
} finally {
setIsStrictModeForDevtools(false);
}
}
setIsRendering(false);
}
{
markComponentRenderStopped();
}
if (current2 !== null && !didReceiveUpdate) {
bailoutHooks(current2, workInProgress2, renderLanes2);
return bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
}
if (getIsHydrating() && hasId) {
pushMaterializedTreeId(workInProgress2);
}
workInProgress2.flags |= PerformedWork;
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function updateMemoComponent(current2, workInProgress2, Component, nextProps, renderLanes2) {
if (current2 === null) {
var type = Component.type;
if (isSimpleFunctionComponent(type) && Component.compare === null && // SimpleMemoComponent codepath doesn't resolve outer props either.
Component.defaultProps === void 0) {
var resolvedType = type;
{
resolvedType = resolveFunctionForHotReloading(type);
}
workInProgress2.tag = SimpleMemoComponent;
workInProgress2.type = resolvedType;
{
validateFunctionComponentInDev(workInProgress2, type);
}
return updateSimpleMemoComponent(current2, workInProgress2, resolvedType, nextProps, renderLanes2);
}
{
var innerPropTypes = type.propTypes;
if (innerPropTypes) {
checkPropTypes(
innerPropTypes,
nextProps,
// Resolved props
"prop",
getComponentNameFromType(type)
);
}
}
var child = createFiberFromTypeAndProps(Component.type, null, nextProps, workInProgress2, workInProgress2.mode, renderLanes2);
child.ref = workInProgress2.ref;
child.return = workInProgress2;
workInProgress2.child = child;
return child;
}
{
var _type = Component.type;
var _innerPropTypes = _type.propTypes;
if (_innerPropTypes) {
checkPropTypes(
_innerPropTypes,
nextProps,
// Resolved props
"prop",
getComponentNameFromType(_type)
);
}
}
var currentChild = current2.child;
var hasScheduledUpdateOrContext = checkScheduledUpdateOrContext(current2, renderLanes2);
if (!hasScheduledUpdateOrContext) {
var prevProps = currentChild.memoizedProps;
var compare = Component.compare;
compare = compare !== null ? compare : shallowEqual;
if (compare(prevProps, nextProps) && current2.ref === workInProgress2.ref) {
return bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
}
}
workInProgress2.flags |= PerformedWork;
var newChild = createWorkInProgress(currentChild, nextProps);
newChild.ref = workInProgress2.ref;
newChild.return = workInProgress2;
workInProgress2.child = newChild;
return newChild;
}
function updateSimpleMemoComponent(current2, workInProgress2, Component, nextProps, renderLanes2) {
{
if (workInProgress2.type !== workInProgress2.elementType) {
var outerMemoType = workInProgress2.elementType;
if (outerMemoType.$$typeof === REACT_LAZY_TYPE) {
var lazyComponent = outerMemoType;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
try {
outerMemoType = init(payload);
} catch (x2) {
outerMemoType = null;
}
var outerPropTypes = outerMemoType && outerMemoType.propTypes;
if (outerPropTypes) {
checkPropTypes(
outerPropTypes,
nextProps,
// Resolved (SimpleMemoComponent has no defaultProps)
"prop",
getComponentNameFromType(outerMemoType)
);
}
}
}
}
if (current2 !== null) {
var prevProps = current2.memoizedProps;
if (shallowEqual(prevProps, nextProps) && current2.ref === workInProgress2.ref && // Prevent bailout if the implementation changed due to hot reload.
workInProgress2.type === current2.type) {
didReceiveUpdate = false;
workInProgress2.pendingProps = nextProps = prevProps;
if (!checkScheduledUpdateOrContext(current2, renderLanes2)) {
workInProgress2.lanes = current2.lanes;
return bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
} else if ((current2.flags & ForceUpdateForLegacySuspense) !== NoFlags) {
didReceiveUpdate = true;
}
}
}
return updateFunctionComponent(current2, workInProgress2, Component, nextProps, renderLanes2);
}
function updateOffscreenComponent(current2, workInProgress2, renderLanes2) {
var nextProps = workInProgress2.pendingProps;
var nextChildren = nextProps.children;
var prevState = current2 !== null ? current2.memoizedState : null;
if (nextProps.mode === "hidden" || enableLegacyHidden) {
if ((workInProgress2.mode & ConcurrentMode) === NoMode) {
var nextState = {
baseLanes: NoLanes,
cachePool: null,
transitions: null
};
workInProgress2.memoizedState = nextState;
pushRenderLanes(workInProgress2, renderLanes2);
} else if (!includesSomeLane(renderLanes2, OffscreenLane)) {
var spawnedCachePool = null;
var nextBaseLanes;
if (prevState !== null) {
var prevBaseLanes = prevState.baseLanes;
nextBaseLanes = mergeLanes(prevBaseLanes, renderLanes2);
} else {
nextBaseLanes = renderLanes2;
}
workInProgress2.lanes = workInProgress2.childLanes = laneToLanes(OffscreenLane);
var _nextState = {
baseLanes: nextBaseLanes,
cachePool: spawnedCachePool,
transitions: null
};
workInProgress2.memoizedState = _nextState;
workInProgress2.updateQueue = null;
pushRenderLanes(workInProgress2, nextBaseLanes);
return null;
} else {
var _nextState2 = {
baseLanes: NoLanes,
cachePool: null,
transitions: null
};
workInProgress2.memoizedState = _nextState2;
var subtreeRenderLanes2 = prevState !== null ? prevState.baseLanes : renderLanes2;
pushRenderLanes(workInProgress2, subtreeRenderLanes2);
}
} else {
var _subtreeRenderLanes;
if (prevState !== null) {
_subtreeRenderLanes = mergeLanes(prevState.baseLanes, renderLanes2);
workInProgress2.memoizedState = null;
} else {
_subtreeRenderLanes = renderLanes2;
}
pushRenderLanes(workInProgress2, _subtreeRenderLanes);
}
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function updateFragment(current2, workInProgress2, renderLanes2) {
var nextChildren = workInProgress2.pendingProps;
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function updateMode(current2, workInProgress2, renderLanes2) {
var nextChildren = workInProgress2.pendingProps.children;
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function updateProfiler(current2, workInProgress2, renderLanes2) {
{
workInProgress2.flags |= Update;
{
var stateNode = workInProgress2.stateNode;
stateNode.effectDuration = 0;
stateNode.passiveEffectDuration = 0;
}
}
var nextProps = workInProgress2.pendingProps;
var nextChildren = nextProps.children;
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function markRef(current2, workInProgress2) {
var ref = workInProgress2.ref;
if (current2 === null && ref !== null || current2 !== null && current2.ref !== ref) {
workInProgress2.flags |= Ref;
{
workInProgress2.flags |= RefStatic;
}
}
}
function updateFunctionComponent(current2, workInProgress2, Component, nextProps, renderLanes2) {
{
if (workInProgress2.type !== workInProgress2.elementType) {
var innerPropTypes = Component.propTypes;
if (innerPropTypes) {
checkPropTypes(
innerPropTypes,
nextProps,
// Resolved props
"prop",
getComponentNameFromType(Component)
);
}
}
}
var context;
{
var unmaskedContext = getUnmaskedContext(workInProgress2, Component, true);
context = getMaskedContext(workInProgress2, unmaskedContext);
}
var nextChildren;
var hasId;
prepareToReadContext(workInProgress2, renderLanes2);
{
markComponentRenderStarted(workInProgress2);
}
{
ReactCurrentOwner$1.current = workInProgress2;
setIsRendering(true);
nextChildren = renderWithHooks(current2, workInProgress2, Component, nextProps, context, renderLanes2);
hasId = checkDidRenderIdHook();
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
nextChildren = renderWithHooks(current2, workInProgress2, Component, nextProps, context, renderLanes2);
hasId = checkDidRenderIdHook();
} finally {
setIsStrictModeForDevtools(false);
}
}
setIsRendering(false);
}
{
markComponentRenderStopped();
}
if (current2 !== null && !didReceiveUpdate) {
bailoutHooks(current2, workInProgress2, renderLanes2);
return bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
}
if (getIsHydrating() && hasId) {
pushMaterializedTreeId(workInProgress2);
}
workInProgress2.flags |= PerformedWork;
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function updateClassComponent(current2, workInProgress2, Component, nextProps, renderLanes2) {
{
switch (shouldError(workInProgress2)) {
case false: {
var _instance = workInProgress2.stateNode;
var ctor = workInProgress2.type;
var tempInstance = new ctor(workInProgress2.memoizedProps, _instance.context);
var state = tempInstance.state;
_instance.updater.enqueueSetState(_instance, state, null);
break;
}
case true: {
workInProgress2.flags |= DidCapture;
workInProgress2.flags |= ShouldCapture;
var error$1 = new Error("Simulated error coming from DevTools");
var lane = pickArbitraryLane(renderLanes2);
workInProgress2.lanes = mergeLanes(workInProgress2.lanes, lane);
var update = createClassErrorUpdate(workInProgress2, createCapturedValueAtFiber(error$1, workInProgress2), lane);
enqueueCapturedUpdate(workInProgress2, update);
break;
}
}
if (workInProgress2.type !== workInProgress2.elementType) {
var innerPropTypes = Component.propTypes;
if (innerPropTypes) {
checkPropTypes(
innerPropTypes,
nextProps,
// Resolved props
"prop",
getComponentNameFromType(Component)
);
}
}
}
var hasContext;
if (isContextProvider(Component)) {
hasContext = true;
pushContextProvider(workInProgress2);
} else {
hasContext = false;
}
prepareToReadContext(workInProgress2, renderLanes2);
var instance = workInProgress2.stateNode;
var shouldUpdate;
if (instance === null) {
resetSuspendedCurrentOnMountInLegacyMode(current2, workInProgress2);
constructClassInstance(workInProgress2, Component, nextProps);
mountClassInstance(workInProgress2, Component, nextProps, renderLanes2);
shouldUpdate = true;
} else if (current2 === null) {
shouldUpdate = resumeMountClassInstance(workInProgress2, Component, nextProps, renderLanes2);
} else {
shouldUpdate = updateClassInstance(current2, workInProgress2, Component, nextProps, renderLanes2);
}
var nextUnitOfWork = finishClassComponent(current2, workInProgress2, Component, shouldUpdate, hasContext, renderLanes2);
{
var inst = workInProgress2.stateNode;
if (shouldUpdate && inst.props !== nextProps) {
if (!didWarnAboutReassigningProps) {
error("It looks like %s is reassigning its own `this.props` while rendering. This is not supported and can lead to confusing bugs.", getComponentNameFromFiber(workInProgress2) || "a component");
}
didWarnAboutReassigningProps = true;
}
}
return nextUnitOfWork;
}
function finishClassComponent(current2, workInProgress2, Component, shouldUpdate, hasContext, renderLanes2) {
markRef(current2, workInProgress2);
var didCaptureError = (workInProgress2.flags & DidCapture) !== NoFlags;
if (!shouldUpdate && !didCaptureError) {
if (hasContext) {
invalidateContextProvider(workInProgress2, Component, false);
}
return bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
}
var instance = workInProgress2.stateNode;
ReactCurrentOwner$1.current = workInProgress2;
var nextChildren;
if (didCaptureError && typeof Component.getDerivedStateFromError !== "function") {
nextChildren = null;
{
stopProfilerTimerIfRunning();
}
} else {
{
markComponentRenderStarted(workInProgress2);
}
{
setIsRendering(true);
nextChildren = instance.render();
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
instance.render();
} finally {
setIsStrictModeForDevtools(false);
}
}
setIsRendering(false);
}
{
markComponentRenderStopped();
}
}
workInProgress2.flags |= PerformedWork;
if (current2 !== null && didCaptureError) {
forceUnmountCurrentAndReconcile(current2, workInProgress2, nextChildren, renderLanes2);
} else {
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
}
workInProgress2.memoizedState = instance.state;
if (hasContext) {
invalidateContextProvider(workInProgress2, Component, true);
}
return workInProgress2.child;
}
function pushHostRootContext(workInProgress2) {
var root2 = workInProgress2.stateNode;
if (root2.pendingContext) {
pushTopLevelContextObject(workInProgress2, root2.pendingContext, root2.pendingContext !== root2.context);
} else if (root2.context) {
pushTopLevelContextObject(workInProgress2, root2.context, false);
}
pushHostContainer(workInProgress2, root2.containerInfo);
}
function updateHostRoot(current2, workInProgress2, renderLanes2) {
pushHostRootContext(workInProgress2);
if (current2 === null) {
throw new Error("Should have a current fiber. This is a bug in React.");
}
var nextProps = workInProgress2.pendingProps;
var prevState = workInProgress2.memoizedState;
var prevChildren = prevState.element;
cloneUpdateQueue(current2, workInProgress2);
processUpdateQueue(workInProgress2, nextProps, null, renderLanes2);
var nextState = workInProgress2.memoizedState;
var root2 = workInProgress2.stateNode;
var nextChildren = nextState.element;
if (prevState.isDehydrated) {
var overrideState = {
element: nextChildren,
isDehydrated: false,
cache: nextState.cache,
pendingSuspenseBoundaries: nextState.pendingSuspenseBoundaries,
transitions: nextState.transitions
};
var updateQueue = workInProgress2.updateQueue;
updateQueue.baseState = overrideState;
workInProgress2.memoizedState = overrideState;
if (workInProgress2.flags & ForceClientRender) {
var recoverableError = createCapturedValueAtFiber(new Error("There was an error while hydrating. Because the error happened outside of a Suspense boundary, the entire root will switch to client rendering."), workInProgress2);
return mountHostRootWithoutHydrating(current2, workInProgress2, nextChildren, renderLanes2, recoverableError);
} else if (nextChildren !== prevChildren) {
var _recoverableError = createCapturedValueAtFiber(new Error("This root received an early update, before anything was able hydrate. Switched the entire root to client rendering."), workInProgress2);
return mountHostRootWithoutHydrating(current2, workInProgress2, nextChildren, renderLanes2, _recoverableError);
} else {
enterHydrationState(workInProgress2);
var child = mountChildFibers(workInProgress2, null, nextChildren, renderLanes2);
workInProgress2.child = child;
var node = child;
while (node) {
node.flags = node.flags & ~Placement | Hydrating;
node = node.sibling;
}
}
} else {
resetHydrationState();
if (nextChildren === prevChildren) {
return bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
}
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
}
return workInProgress2.child;
}
function mountHostRootWithoutHydrating(current2, workInProgress2, nextChildren, renderLanes2, recoverableError) {
resetHydrationState();
queueHydrationError(recoverableError);
workInProgress2.flags |= ForceClientRender;
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function updateHostComponent(current2, workInProgress2, renderLanes2) {
pushHostContext(workInProgress2);
if (current2 === null) {
tryToClaimNextHydratableInstance(workInProgress2);
}
var type = workInProgress2.type;
var nextProps = workInProgress2.pendingProps;
var prevProps = current2 !== null ? current2.memoizedProps : null;
var nextChildren = nextProps.children;
var isDirectTextChild = shouldSetTextContent(type, nextProps);
if (isDirectTextChild) {
nextChildren = null;
} else if (prevProps !== null && shouldSetTextContent(type, prevProps)) {
workInProgress2.flags |= ContentReset;
}
markRef(current2, workInProgress2);
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
return workInProgress2.child;
}
function updateHostText(current2, workInProgress2) {
if (current2 === null) {
tryToClaimNextHydratableInstance(workInProgress2);
}
return null;
}
function mountLazyComponent(_current, workInProgress2, elementType, renderLanes2) {
resetSuspendedCurrentOnMountInLegacyMode(_current, workInProgress2);
var props = workInProgress2.pendingProps;
var lazyComponent = elementType;
var payload = lazyComponent._payload;
var init = lazyComponent._init;
var Component = init(payload);
workInProgress2.type = Component;
var resolvedTag = workInProgress2.tag = resolveLazyComponentTag(Component);
var resolvedProps = resolveDefaultProps(Component, props);
var child;
switch (resolvedTag) {
case FunctionComponent: {
{
validateFunctionComponentInDev(workInProgress2, Component);
workInProgress2.type = Component = resolveFunctionForHotReloading(Component);
}
child = updateFunctionComponent(null, workInProgress2, Component, resolvedProps, renderLanes2);
return child;
}
case ClassComponent: {
{
workInProgress2.type = Component = resolveClassForHotReloading(Component);
}
child = updateClassComponent(null, workInProgress2, Component, resolvedProps, renderLanes2);
return child;
}
case ForwardRef: {
{
workInProgress2.type = Component = resolveForwardRefForHotReloading(Component);
}
child = updateForwardRef(null, workInProgress2, Component, resolvedProps, renderLanes2);
return child;
}
case MemoComponent: {
{
if (workInProgress2.type !== workInProgress2.elementType) {
var outerPropTypes = Component.propTypes;
if (outerPropTypes) {
checkPropTypes(
outerPropTypes,
resolvedProps,
// Resolved for outer only
"prop",
getComponentNameFromType(Component)
);
}
}
}
child = updateMemoComponent(
null,
workInProgress2,
Component,
resolveDefaultProps(Component.type, resolvedProps),
// The inner type can have defaults too
renderLanes2
);
return child;
}
}
var hint = "";
{
if (Component !== null && typeof Component === "object" && Component.$$typeof === REACT_LAZY_TYPE) {
hint = " Did you wrap a component in React.lazy() more than once?";
}
}
throw new Error("Element type is invalid. Received a promise that resolves to: " + Component + ". " + ("Lazy element type must resolve to a class or function." + hint));
}
function mountIncompleteClassComponent(_current, workInProgress2, Component, nextProps, renderLanes2) {
resetSuspendedCurrentOnMountInLegacyMode(_current, workInProgress2);
workInProgress2.tag = ClassComponent;
var hasContext;
if (isContextProvider(Component)) {
hasContext = true;
pushContextProvider(workInProgress2);
} else {
hasContext = false;
}
prepareToReadContext(workInProgress2, renderLanes2);
constructClassInstance(workInProgress2, Component, nextProps);
mountClassInstance(workInProgress2, Component, nextProps, renderLanes2);
return finishClassComponent(null, workInProgress2, Component, true, hasContext, renderLanes2);
}
function mountIndeterminateComponent(_current, workInProgress2, Component, renderLanes2) {
resetSuspendedCurrentOnMountInLegacyMode(_current, workInProgress2);
var props = workInProgress2.pendingProps;
var context;
{
var unmaskedContext = getUnmaskedContext(workInProgress2, Component, false);
context = getMaskedContext(workInProgress2, unmaskedContext);
}
prepareToReadContext(workInProgress2, renderLanes2);
var value;
var hasId;
{
markComponentRenderStarted(workInProgress2);
}
{
if (Component.prototype && typeof Component.prototype.render === "function") {
var componentName = getComponentNameFromType(Component) || "Unknown";
if (!didWarnAboutBadClass[componentName]) {
error("The <%s /> component appears to have a render method, but doesn't extend React.Component. This is likely to cause errors. Change %s to extend React.Component instead.", componentName, componentName);
didWarnAboutBadClass[componentName] = true;
}
}
if (workInProgress2.mode & StrictLegacyMode) {
ReactStrictModeWarnings.recordLegacyContextWarning(workInProgress2, null);
}
setIsRendering(true);
ReactCurrentOwner$1.current = workInProgress2;
value = renderWithHooks(null, workInProgress2, Component, props, context, renderLanes2);
hasId = checkDidRenderIdHook();
setIsRendering(false);
}
{
markComponentRenderStopped();
}
workInProgress2.flags |= PerformedWork;
{
if (typeof value === "object" && value !== null && typeof value.render === "function" && value.$$typeof === void 0) {
var _componentName = getComponentNameFromType(Component) || "Unknown";
if (!didWarnAboutModulePatternComponent[_componentName]) {
error("The <%s /> component appears to be a function component that returns a class instance. Change %s to a class that extends React.Component instead. If you can't use a class try assigning the prototype on the function as a workaround. `%s.prototype = React.Component.prototype`. Don't use an arrow function since it cannot be called with `new` by React.", _componentName, _componentName, _componentName);
didWarnAboutModulePatternComponent[_componentName] = true;
}
}
}
if (
// Run these checks in production only if the flag is off.
// Eventually we'll delete this branch altogether.
typeof value === "object" && value !== null && typeof value.render === "function" && value.$$typeof === void 0
) {
{
var _componentName2 = getComponentNameFromType(Component) || "Unknown";
if (!didWarnAboutModulePatternComponent[_componentName2]) {
error("The <%s /> component appears to be a function component that returns a class instance. Change %s to a class that extends React.Component instead. If you can't use a class try assigning the prototype on the function as a workaround. `%s.prototype = React.Component.prototype`. Don't use an arrow function since it cannot be called with `new` by React.", _componentName2, _componentName2, _componentName2);
didWarnAboutModulePatternComponent[_componentName2] = true;
}
}
workInProgress2.tag = ClassComponent;
workInProgress2.memoizedState = null;
workInProgress2.updateQueue = null;
var hasContext = false;
if (isContextProvider(Component)) {
hasContext = true;
pushContextProvider(workInProgress2);
} else {
hasContext = false;
}
workInProgress2.memoizedState = value.state !== null && value.state !== void 0 ? value.state : null;
initializeUpdateQueue(workInProgress2);
adoptClassInstance(workInProgress2, value);
mountClassInstance(workInProgress2, Component, props, renderLanes2);
return finishClassComponent(null, workInProgress2, Component, true, hasContext, renderLanes2);
} else {
workInProgress2.tag = FunctionComponent;
{
if (workInProgress2.mode & StrictLegacyMode) {
setIsStrictModeForDevtools(true);
try {
value = renderWithHooks(null, workInProgress2, Component, props, context, renderLanes2);
hasId = checkDidRenderIdHook();
} finally {
setIsStrictModeForDevtools(false);
}
}
}
if (getIsHydrating() && hasId) {
pushMaterializedTreeId(workInProgress2);
}
reconcileChildren(null, workInProgress2, value, renderLanes2);
{
validateFunctionComponentInDev(workInProgress2, Component);
}
return workInProgress2.child;
}
}
function validateFunctionComponentInDev(workInProgress2, Component) {
{
if (Component) {
if (Component.childContextTypes) {
error("%s(...): childContextTypes cannot be defined on a function component.", Component.displayName || Component.name || "Component");
}
}
if (workInProgress2.ref !== null) {
var info = "";
var ownerName = getCurrentFiberOwnerNameInDevOrNull();
if (ownerName) {
info += "\n\nCheck the render method of `" + ownerName + "`.";
}
var warningKey = ownerName || "";
var debugSource = workInProgress2._debugSource;
if (debugSource) {
warningKey = debugSource.fileName + ":" + debugSource.lineNumber;
}
if (!didWarnAboutFunctionRefs[warningKey]) {
didWarnAboutFunctionRefs[warningKey] = true;
error("Function components cannot be given refs. Attempts to access this ref will fail. Did you mean to use React.forwardRef()?%s", info);
}
}
if (typeof Component.getDerivedStateFromProps === "function") {
var _componentName3 = getComponentNameFromType(Component) || "Unknown";
if (!didWarnAboutGetDerivedStateOnFunctionComponent[_componentName3]) {
error("%s: Function components do not support getDerivedStateFromProps.", _componentName3);
didWarnAboutGetDerivedStateOnFunctionComponent[_componentName3] = true;
}
}
if (typeof Component.contextType === "object" && Component.contextType !== null) {
var _componentName4 = getComponentNameFromType(Component) || "Unknown";
if (!didWarnAboutContextTypeOnFunctionComponent[_componentName4]) {
error("%s: Function components do not support contextType.", _componentName4);
didWarnAboutContextTypeOnFunctionComponent[_componentName4] = true;
}
}
}
}
var SUSPENDED_MARKER = {
dehydrated: null,
treeContext: null,
retryLane: NoLane
};
function mountSuspenseOffscreenState(renderLanes2) {
return {
baseLanes: renderLanes2,
cachePool: getSuspendedCache(),
transitions: null
};
}
function updateSuspenseOffscreenState(prevOffscreenState, renderLanes2) {
var cachePool = null;
return {
baseLanes: mergeLanes(prevOffscreenState.baseLanes, renderLanes2),
cachePool,
transitions: prevOffscreenState.transitions
};
}
function shouldRemainOnFallback(suspenseContext, current2, workInProgress2, renderLanes2) {
if (current2 !== null) {
var suspenseState = current2.memoizedState;
if (suspenseState === null) {
return false;
}
}
return hasSuspenseContext(suspenseContext, ForceSuspenseFallback);
}
function getRemainingWorkInPrimaryTree(current2, renderLanes2) {
return removeLanes(current2.childLanes, renderLanes2);
}
function updateSuspenseComponent(current2, workInProgress2, renderLanes2) {
var nextProps = workInProgress2.pendingProps;
{
if (shouldSuspend(workInProgress2)) {
workInProgress2.flags |= DidCapture;
}
}
var suspenseContext = suspenseStackCursor.current;
var showFallback = false;
var didSuspend = (workInProgress2.flags & DidCapture) !== NoFlags;
if (didSuspend || shouldRemainOnFallback(suspenseContext, current2)) {
showFallback = true;
workInProgress2.flags &= ~DidCapture;
} else {
if (current2 === null || current2.memoizedState !== null) {
{
suspenseContext = addSubtreeSuspenseContext(suspenseContext, InvisibleParentSuspenseContext);
}
}
}
suspenseContext = setDefaultShallowSuspenseContext(suspenseContext);
pushSuspenseContext(workInProgress2, suspenseContext);
if (current2 === null) {
tryToClaimNextHydratableInstance(workInProgress2);
var suspenseState = workInProgress2.memoizedState;
if (suspenseState !== null) {
var dehydrated = suspenseState.dehydrated;
if (dehydrated !== null) {
return mountDehydratedSuspenseComponent(workInProgress2, dehydrated);
}
}
var nextPrimaryChildren = nextProps.children;
var nextFallbackChildren = nextProps.fallback;
if (showFallback) {
var fallbackFragment = mountSuspenseFallbackChildren(workInProgress2, nextPrimaryChildren, nextFallbackChildren, renderLanes2);
var primaryChildFragment = workInProgress2.child;
primaryChildFragment.memoizedState = mountSuspenseOffscreenState(renderLanes2);
workInProgress2.memoizedState = SUSPENDED_MARKER;
return fallbackFragment;
} else {
return mountSuspensePrimaryChildren(workInProgress2, nextPrimaryChildren);
}
} else {
var prevState = current2.memoizedState;
if (prevState !== null) {
var _dehydrated = prevState.dehydrated;
if (_dehydrated !== null) {
return updateDehydratedSuspenseComponent(current2, workInProgress2, didSuspend, nextProps, _dehydrated, prevState, renderLanes2);
}
}
if (showFallback) {
var _nextFallbackChildren = nextProps.fallback;
var _nextPrimaryChildren = nextProps.children;
var fallbackChildFragment = updateSuspenseFallbackChildren(current2, workInProgress2, _nextPrimaryChildren, _nextFallbackChildren, renderLanes2);
var _primaryChildFragment2 = workInProgress2.child;
var prevOffscreenState = current2.child.memoizedState;
_primaryChildFragment2.memoizedState = prevOffscreenState === null ? mountSuspenseOffscreenState(renderLanes2) : updateSuspenseOffscreenState(prevOffscreenState, renderLanes2);
_primaryChildFragment2.childLanes = getRemainingWorkInPrimaryTree(current2, renderLanes2);
workInProgress2.memoizedState = SUSPENDED_MARKER;
return fallbackChildFragment;
} else {
var _nextPrimaryChildren2 = nextProps.children;
var _primaryChildFragment3 = updateSuspensePrimaryChildren(current2, workInProgress2, _nextPrimaryChildren2, renderLanes2);
workInProgress2.memoizedState = null;
return _primaryChildFragment3;
}
}
}
function mountSuspensePrimaryChildren(workInProgress2, primaryChildren, renderLanes2) {
var mode = workInProgress2.mode;
var primaryChildProps = {
mode: "visible",
children: primaryChildren
};
var primaryChildFragment = mountWorkInProgressOffscreenFiber(primaryChildProps, mode);
primaryChildFragment.return = workInProgress2;
workInProgress2.child = primaryChildFragment;
return primaryChildFragment;
}
function mountSuspenseFallbackChildren(workInProgress2, primaryChildren, fallbackChildren, renderLanes2) {
var mode = workInProgress2.mode;
var progressedPrimaryFragment = workInProgress2.child;
var primaryChildProps = {
mode: "hidden",
children: primaryChildren
};
var primaryChildFragment;
var fallbackChildFragment;
if ((mode & ConcurrentMode) === NoMode && progressedPrimaryFragment !== null) {
primaryChildFragment = progressedPrimaryFragment;
primaryChildFragment.childLanes = NoLanes;
primaryChildFragment.pendingProps = primaryChildProps;
if (workInProgress2.mode & ProfileMode) {
primaryChildFragment.actualDuration = 0;
primaryChildFragment.actualStartTime = -1;
primaryChildFragment.selfBaseDuration = 0;
primaryChildFragment.treeBaseDuration = 0;
}
fallbackChildFragment = createFiberFromFragment(fallbackChildren, mode, renderLanes2, null);
} else {
primaryChildFragment = mountWorkInProgressOffscreenFiber(primaryChildProps, mode);
fallbackChildFragment = createFiberFromFragment(fallbackChildren, mode, renderLanes2, null);
}
primaryChildFragment.return = workInProgress2;
fallbackChildFragment.return = workInProgress2;
primaryChildFragment.sibling = fallbackChildFragment;
workInProgress2.child = primaryChildFragment;
return fallbackChildFragment;
}
function mountWorkInProgressOffscreenFiber(offscreenProps, mode, renderLanes2) {
return createFiberFromOffscreen(offscreenProps, mode, NoLanes, null);
}
function updateWorkInProgressOffscreenFiber(current2, offscreenProps) {
return createWorkInProgress(current2, offscreenProps);
}
function updateSuspensePrimaryChildren(current2, workInProgress2, primaryChildren, renderLanes2) {
var currentPrimaryChildFragment = current2.child;
var currentFallbackChildFragment = currentPrimaryChildFragment.sibling;
var primaryChildFragment = updateWorkInProgressOffscreenFiber(currentPrimaryChildFragment, {
mode: "visible",
children: primaryChildren
});
if ((workInProgress2.mode & ConcurrentMode) === NoMode) {
primaryChildFragment.lanes = renderLanes2;
}
primaryChildFragment.return = workInProgress2;
primaryChildFragment.sibling = null;
if (currentFallbackChildFragment !== null) {
var deletions = workInProgress2.deletions;
if (deletions === null) {
workInProgress2.deletions = [currentFallbackChildFragment];
workInProgress2.flags |= ChildDeletion;
} else {
deletions.push(currentFallbackChildFragment);
}
}
workInProgress2.child = primaryChildFragment;
return primaryChildFragment;
}
function updateSuspenseFallbackChildren(current2, workInProgress2, primaryChildren, fallbackChildren, renderLanes2) {
var mode = workInProgress2.mode;
var currentPrimaryChildFragment = current2.child;
var currentFallbackChildFragment = currentPrimaryChildFragment.sibling;
var primaryChildProps = {
mode: "hidden",
children: primaryChildren
};
var primaryChildFragment;
if (
// In legacy mode, we commit the primary tree as if it successfully
// completed, even though it's in an inconsistent state.
(mode & ConcurrentMode) === NoMode && // Make sure we're on the second pass, i.e. the primary child fragment was
// already cloned. In legacy mode, the only case where this isn't true is
// when DevTools forces us to display a fallback; we skip the first render
// pass entirely and go straight to rendering the fallback. (In Concurrent
// Mode, SuspenseList can also trigger this scenario, but this is a legacy-
// only codepath.)
workInProgress2.child !== currentPrimaryChildFragment
) {
var progressedPrimaryFragment = workInProgress2.child;
primaryChildFragment = progressedPrimaryFragment;
primaryChildFragment.childLanes = NoLanes;
primaryChildFragment.pendingProps = primaryChildProps;
if (workInProgress2.mode & ProfileMode) {
primaryChildFragment.actualDuration = 0;
primaryChildFragment.actualStartTime = -1;
primaryChildFragment.selfBaseDuration = currentPrimaryChildFragment.selfBaseDuration;
primaryChildFragment.treeBaseDuration = currentPrimaryChildFragment.treeBaseDuration;
}
workInProgress2.deletions = null;
} else {
primaryChildFragment = updateWorkInProgressOffscreenFiber(currentPrimaryChildFragment, primaryChildProps);
primaryChildFragment.subtreeFlags = currentPrimaryChildFragment.subtreeFlags & StaticMask;
}
var fallbackChildFragment;
if (currentFallbackChildFragment !== null) {
fallbackChildFragment = createWorkInProgress(currentFallbackChildFragment, fallbackChildren);
} else {
fallbackChildFragment = createFiberFromFragment(fallbackChildren, mode, renderLanes2, null);
fallbackChildFragment.flags |= Placement;
}
fallbackChildFragment.return = workInProgress2;
primaryChildFragment.return = workInProgress2;
primaryChildFragment.sibling = fallbackChildFragment;
workInProgress2.child = primaryChildFragment;
return fallbackChildFragment;
}
function retrySuspenseComponentWithoutHydrating(current2, workInProgress2, renderLanes2, recoverableError) {
if (recoverableError !== null) {
queueHydrationError(recoverableError);
}
reconcileChildFibers(workInProgress2, current2.child, null, renderLanes2);
var nextProps = workInProgress2.pendingProps;
var primaryChildren = nextProps.children;
var primaryChildFragment = mountSuspensePrimaryChildren(workInProgress2, primaryChildren);
primaryChildFragment.flags |= Placement;
workInProgress2.memoizedState = null;
return primaryChildFragment;
}
function mountSuspenseFallbackAfterRetryWithoutHydrating(current2, workInProgress2, primaryChildren, fallbackChildren, renderLanes2) {
var fiberMode = workInProgress2.mode;
var primaryChildProps = {
mode: "visible",
children: primaryChildren
};
var primaryChildFragment = mountWorkInProgressOffscreenFiber(primaryChildProps, fiberMode);
var fallbackChildFragment = createFiberFromFragment(fallbackChildren, fiberMode, renderLanes2, null);
fallbackChildFragment.flags |= Placement;
primaryChildFragment.return = workInProgress2;
fallbackChildFragment.return = workInProgress2;
primaryChildFragment.sibling = fallbackChildFragment;
workInProgress2.child = primaryChildFragment;
if ((workInProgress2.mode & ConcurrentMode) !== NoMode) {
reconcileChildFibers(workInProgress2, current2.child, null, renderLanes2);
}
return fallbackChildFragment;
}
function mountDehydratedSuspenseComponent(workInProgress2, suspenseInstance, renderLanes2) {
if ((workInProgress2.mode & ConcurrentMode) === NoMode) {
{
error("Cannot hydrate Suspense in legacy mode. Switch from ReactDOM.hydrate(element, container) to ReactDOMClient.hydrateRoot(container, <App />).render(element) or remove the Suspense components from the server rendered components.");
}
workInProgress2.lanes = laneToLanes(SyncLane);
} else if (isSuspenseInstanceFallback(suspenseInstance)) {
workInProgress2.lanes = laneToLanes(DefaultHydrationLane);
} else {
workInProgress2.lanes = laneToLanes(OffscreenLane);
}
return null;
}
function updateDehydratedSuspenseComponent(current2, workInProgress2, didSuspend, nextProps, suspenseInstance, suspenseState, renderLanes2) {
if (!didSuspend) {
warnIfHydrating();
if ((workInProgress2.mode & ConcurrentMode) === NoMode) {
return retrySuspenseComponentWithoutHydrating(
current2,
workInProgress2,
renderLanes2,
// TODO: When we delete legacy mode, we should make this error argument
// required — every concurrent mode path that causes hydration to
// de-opt to client rendering should have an error message.
null
);
}
if (isSuspenseInstanceFallback(suspenseInstance)) {
var digest, message, stack;
{
var _getSuspenseInstanceF = getSuspenseInstanceFallbackErrorDetails(suspenseInstance);
digest = _getSuspenseInstanceF.digest;
message = _getSuspenseInstanceF.message;
stack = _getSuspenseInstanceF.stack;
}
var error2;
if (message) {
error2 = new Error(message);
} else {
error2 = new Error("The server could not finish this Suspense boundary, likely due to an error during server rendering. Switched to client rendering.");
}
var capturedValue = createCapturedValue(error2, digest, stack);
return retrySuspenseComponentWithoutHydrating(current2, workInProgress2, renderLanes2, capturedValue);
}
var hasContextChanged2 = includesSomeLane(renderLanes2, current2.childLanes);
if (didReceiveUpdate || hasContextChanged2) {
var root2 = getWorkInProgressRoot();
if (root2 !== null) {
var attemptHydrationAtLane = getBumpedLaneForHydration(root2, renderLanes2);
if (attemptHydrationAtLane !== NoLane && attemptHydrationAtLane !== suspenseState.retryLane) {
suspenseState.retryLane = attemptHydrationAtLane;
var eventTime = NoTimestamp;
enqueueConcurrentRenderForLane(current2, attemptHydrationAtLane);
scheduleUpdateOnFiber(root2, current2, attemptHydrationAtLane, eventTime);
}
}
renderDidSuspendDelayIfPossible();
var _capturedValue = createCapturedValue(new Error("This Suspense boundary received an update before it finished hydrating. This caused the boundary to switch to client rendering. The usual way to fix this is to wrap the original update in startTransition."));
return retrySuspenseComponentWithoutHydrating(current2, workInProgress2, renderLanes2, _capturedValue);
} else if (isSuspenseInstancePending(suspenseInstance)) {
workInProgress2.flags |= DidCapture;
workInProgress2.child = current2.child;
var retry = retryDehydratedSuspenseBoundary.bind(null, current2);
registerSuspenseInstanceRetry(suspenseInstance, retry);
return null;
} else {
reenterHydrationStateFromDehydratedSuspenseInstance(workInProgress2, suspenseInstance, suspenseState.treeContext);
var primaryChildren = nextProps.children;
var primaryChildFragment = mountSuspensePrimaryChildren(workInProgress2, primaryChildren);
primaryChildFragment.flags |= Hydrating;
return primaryChildFragment;
}
} else {
if (workInProgress2.flags & ForceClientRender) {
workInProgress2.flags &= ~ForceClientRender;
var _capturedValue2 = createCapturedValue(new Error("There was an error while hydrating this Suspense boundary. Switched to client rendering."));
return retrySuspenseComponentWithoutHydrating(current2, workInProgress2, renderLanes2, _capturedValue2);
} else if (workInProgress2.memoizedState !== null) {
workInProgress2.child = current2.child;
workInProgress2.flags |= DidCapture;
return null;
} else {
var nextPrimaryChildren = nextProps.children;
var nextFallbackChildren = nextProps.fallback;
var fallbackChildFragment = mountSuspenseFallbackAfterRetryWithoutHydrating(current2, workInProgress2, nextPrimaryChildren, nextFallbackChildren, renderLanes2);
var _primaryChildFragment4 = workInProgress2.child;
_primaryChildFragment4.memoizedState = mountSuspenseOffscreenState(renderLanes2);
workInProgress2.memoizedState = SUSPENDED_MARKER;
return fallbackChildFragment;
}
}
}
function scheduleSuspenseWorkOnFiber(fiber, renderLanes2, propagationRoot) {
fiber.lanes = mergeLanes(fiber.lanes, renderLanes2);
var alternate = fiber.alternate;
if (alternate !== null) {
alternate.lanes = mergeLanes(alternate.lanes, renderLanes2);
}
scheduleContextWorkOnParentPath(fiber.return, renderLanes2, propagationRoot);
}
function propagateSuspenseContextChange(workInProgress2, firstChild, renderLanes2) {
var node = firstChild;
while (node !== null) {
if (node.tag === SuspenseComponent) {
var state = node.memoizedState;
if (state !== null) {
scheduleSuspenseWorkOnFiber(node, renderLanes2, workInProgress2);
}
} else if (node.tag === SuspenseListComponent) {
scheduleSuspenseWorkOnFiber(node, renderLanes2, workInProgress2);
} else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === workInProgress2) {
return;
}
while (node.sibling === null) {
if (node.return === null || node.return === workInProgress2) {
return;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
}
function findLastContentRow(firstChild) {
var row = firstChild;
var lastContentRow = null;
while (row !== null) {
var currentRow = row.alternate;
if (currentRow !== null && findFirstSuspended(currentRow) === null) {
lastContentRow = row;
}
row = row.sibling;
}
return lastContentRow;
}
function validateRevealOrder(revealOrder) {
{
if (revealOrder !== void 0 && revealOrder !== "forwards" && revealOrder !== "backwards" && revealOrder !== "together" && !didWarnAboutRevealOrder[revealOrder]) {
didWarnAboutRevealOrder[revealOrder] = true;
if (typeof revealOrder === "string") {
switch (revealOrder.toLowerCase()) {
case "together":
case "forwards":
case "backwards": {
error('"%s" is not a valid value for revealOrder on <SuspenseList />. Use lowercase "%s" instead.', revealOrder, revealOrder.toLowerCase());
break;
}
case "forward":
case "backward": {
error('"%s" is not a valid value for revealOrder on <SuspenseList />. React uses the -s suffix in the spelling. Use "%ss" instead.', revealOrder, revealOrder.toLowerCase());
break;
}
default:
error('"%s" is not a supported revealOrder on <SuspenseList />. Did you mean "together", "forwards" or "backwards"?', revealOrder);
break;
}
} else {
error('%s is not a supported value for revealOrder on <SuspenseList />. Did you mean "together", "forwards" or "backwards"?', revealOrder);
}
}
}
}
function validateTailOptions(tailMode, revealOrder) {
{
if (tailMode !== void 0 && !didWarnAboutTailOptions[tailMode]) {
if (tailMode !== "collapsed" && tailMode !== "hidden") {
didWarnAboutTailOptions[tailMode] = true;
error('"%s" is not a supported value for tail on <SuspenseList />. Did you mean "collapsed" or "hidden"?', tailMode);
} else if (revealOrder !== "forwards" && revealOrder !== "backwards") {
didWarnAboutTailOptions[tailMode] = true;
error('<SuspenseList tail="%s" /> is only valid if revealOrder is "forwards" or "backwards". Did you mean to specify revealOrder="forwards"?', tailMode);
}
}
}
}
function validateSuspenseListNestedChild(childSlot, index2) {
{
var isAnArray = isArray2(childSlot);
var isIterable = !isAnArray && typeof getIteratorFn(childSlot) === "function";
if (isAnArray || isIterable) {
var type = isAnArray ? "array" : "iterable";
error("A nested %s was passed to row #%s in <SuspenseList />. Wrap it in an additional SuspenseList to configure its revealOrder: <SuspenseList revealOrder=...> ... <SuspenseList revealOrder=...>{%s}</SuspenseList> ... </SuspenseList>", type, index2, type);
return false;
}
}
return true;
}
function validateSuspenseListChildren(children, revealOrder) {
{
if ((revealOrder === "forwards" || revealOrder === "backwards") && children !== void 0 && children !== null && children !== false) {
if (isArray2(children)) {
for (var i = 0; i < children.length; i++) {
if (!validateSuspenseListNestedChild(children[i], i)) {
return;
}
}
} else {
var iteratorFn = getIteratorFn(children);
if (typeof iteratorFn === "function") {
var childrenIterator = iteratorFn.call(children);
if (childrenIterator) {
var step = childrenIterator.next();
var _i = 0;
for (; !step.done; step = childrenIterator.next()) {
if (!validateSuspenseListNestedChild(step.value, _i)) {
return;
}
_i++;
}
}
} else {
error('A single row was passed to a <SuspenseList revealOrder="%s" />. This is not useful since it needs multiple rows. Did you mean to pass multiple children or an array?', revealOrder);
}
}
}
}
}
function initSuspenseListRenderState(workInProgress2, isBackwards, tail, lastContentRow, tailMode) {
var renderState = workInProgress2.memoizedState;
if (renderState === null) {
workInProgress2.memoizedState = {
isBackwards,
rendering: null,
renderingStartTime: 0,
last: lastContentRow,
tail,
tailMode
};
} else {
renderState.isBackwards = isBackwards;
renderState.rendering = null;
renderState.renderingStartTime = 0;
renderState.last = lastContentRow;
renderState.tail = tail;
renderState.tailMode = tailMode;
}
}
function updateSuspenseListComponent(current2, workInProgress2, renderLanes2) {
var nextProps = workInProgress2.pendingProps;
var revealOrder = nextProps.revealOrder;
var tailMode = nextProps.tail;
var newChildren = nextProps.children;
validateRevealOrder(revealOrder);
validateTailOptions(tailMode, revealOrder);
validateSuspenseListChildren(newChildren, revealOrder);
reconcileChildren(current2, workInProgress2, newChildren, renderLanes2);
var suspenseContext = suspenseStackCursor.current;
var shouldForceFallback = hasSuspenseContext(suspenseContext, ForceSuspenseFallback);
if (shouldForceFallback) {
suspenseContext = setShallowSuspenseContext(suspenseContext, ForceSuspenseFallback);
workInProgress2.flags |= DidCapture;
} else {
var didSuspendBefore = current2 !== null && (current2.flags & DidCapture) !== NoFlags;
if (didSuspendBefore) {
propagateSuspenseContextChange(workInProgress2, workInProgress2.child, renderLanes2);
}
suspenseContext = setDefaultShallowSuspenseContext(suspenseContext);
}
pushSuspenseContext(workInProgress2, suspenseContext);
if ((workInProgress2.mode & ConcurrentMode) === NoMode) {
workInProgress2.memoizedState = null;
} else {
switch (revealOrder) {
case "forwards": {
var lastContentRow = findLastContentRow(workInProgress2.child);
var tail;
if (lastContentRow === null) {
tail = workInProgress2.child;
workInProgress2.child = null;
} else {
tail = lastContentRow.sibling;
lastContentRow.sibling = null;
}
initSuspenseListRenderState(
workInProgress2,
false,
// isBackwards
tail,
lastContentRow,
tailMode
);
break;
}
case "backwards": {
var _tail = null;
var row = workInProgress2.child;
workInProgress2.child = null;
while (row !== null) {
var currentRow = row.alternate;
if (currentRow !== null && findFirstSuspended(currentRow) === null) {
workInProgress2.child = row;
break;
}
var nextRow = row.sibling;
row.sibling = _tail;
_tail = row;
row = nextRow;
}
initSuspenseListRenderState(
workInProgress2,
true,
// isBackwards
_tail,
null,
// last
tailMode
);
break;
}
case "together": {
initSuspenseListRenderState(
workInProgress2,
false,
// isBackwards
null,
// tail
null,
// last
void 0
);
break;
}
default: {
workInProgress2.memoizedState = null;
}
}
}
return workInProgress2.child;
}
function updatePortalComponent(current2, workInProgress2, renderLanes2) {
pushHostContainer(workInProgress2, workInProgress2.stateNode.containerInfo);
var nextChildren = workInProgress2.pendingProps;
if (current2 === null) {
workInProgress2.child = reconcileChildFibers(workInProgress2, null, nextChildren, renderLanes2);
} else {
reconcileChildren(current2, workInProgress2, nextChildren, renderLanes2);
}
return workInProgress2.child;
}
var hasWarnedAboutUsingNoValuePropOnContextProvider = false;
function updateContextProvider(current2, workInProgress2, renderLanes2) {
var providerType = workInProgress2.type;
var context = providerType._context;
var newProps = workInProgress2.pendingProps;
var oldProps = workInProgress2.memoizedProps;
var newValue = newProps.value;
{
if (!("value" in newProps)) {
if (!hasWarnedAboutUsingNoValuePropOnContextProvider) {
hasWarnedAboutUsingNoValuePropOnContextProvider = true;
error("The `value` prop is required for the `<Context.Provider>`. Did you misspell it or forget to pass it?");
}
}
var providerPropTypes = workInProgress2.type.propTypes;
if (providerPropTypes) {
checkPropTypes(providerPropTypes, newProps, "prop", "Context.Provider");
}
}
pushProvider(workInProgress2, context, newValue);
{
if (oldProps !== null) {
var oldValue = oldProps.value;
if (objectIs(oldValue, newValue)) {
if (oldProps.children === newProps.children && !hasContextChanged()) {
return bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
}
} else {
propagateContextChange(workInProgress2, context, renderLanes2);
}
}
}
var newChildren = newProps.children;
reconcileChildren(current2, workInProgress2, newChildren, renderLanes2);
return workInProgress2.child;
}
var hasWarnedAboutUsingContextAsConsumer = false;
function updateContextConsumer(current2, workInProgress2, renderLanes2) {
var context = workInProgress2.type;
{
if (context._context === void 0) {
if (context !== context.Consumer) {
if (!hasWarnedAboutUsingContextAsConsumer) {
hasWarnedAboutUsingContextAsConsumer = true;
error("Rendering <Context> directly is not supported and will be removed in a future major release. Did you mean to render <Context.Consumer> instead?");
}
}
} else {
context = context._context;
}
}
var newProps = workInProgress2.pendingProps;
var render4 = newProps.children;
{
if (typeof render4 !== "function") {
error("A context consumer was rendered with multiple children, or a child that isn't a function. A context consumer expects a single child that is a function. If you did pass a function, make sure there is no trailing or leading whitespace around it.");
}
}
prepareToReadContext(workInProgress2, renderLanes2);
var newValue = readContext(context);
{
markComponentRenderStarted(workInProgress2);
}
var newChildren;
{
ReactCurrentOwner$1.current = workInProgress2;
setIsRendering(true);
newChildren = render4(newValue);
setIsRendering(false);
}
{
markComponentRenderStopped();
}
workInProgress2.flags |= PerformedWork;
reconcileChildren(current2, workInProgress2, newChildren, renderLanes2);
return workInProgress2.child;
}
function markWorkInProgressReceivedUpdate() {
didReceiveUpdate = true;
}
function resetSuspendedCurrentOnMountInLegacyMode(current2, workInProgress2) {
if ((workInProgress2.mode & ConcurrentMode) === NoMode) {
if (current2 !== null) {
current2.alternate = null;
workInProgress2.alternate = null;
workInProgress2.flags |= Placement;
}
}
}
function bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2) {
if (current2 !== null) {
workInProgress2.dependencies = current2.dependencies;
}
{
stopProfilerTimerIfRunning();
}
markSkippedUpdateLanes(workInProgress2.lanes);
if (!includesSomeLane(renderLanes2, workInProgress2.childLanes)) {
{
return null;
}
}
cloneChildFibers(current2, workInProgress2);
return workInProgress2.child;
}
function remountFiber(current2, oldWorkInProgress, newWorkInProgress) {
{
var returnFiber = oldWorkInProgress.return;
if (returnFiber === null) {
throw new Error("Cannot swap the root fiber.");
}
current2.alternate = null;
oldWorkInProgress.alternate = null;
newWorkInProgress.index = oldWorkInProgress.index;
newWorkInProgress.sibling = oldWorkInProgress.sibling;
newWorkInProgress.return = oldWorkInProgress.return;
newWorkInProgress.ref = oldWorkInProgress.ref;
if (oldWorkInProgress === returnFiber.child) {
returnFiber.child = newWorkInProgress;
} else {
var prevSibling = returnFiber.child;
if (prevSibling === null) {
throw new Error("Expected parent to have a child.");
}
while (prevSibling.sibling !== oldWorkInProgress) {
prevSibling = prevSibling.sibling;
if (prevSibling === null) {
throw new Error("Expected to find the previous sibling.");
}
}
prevSibling.sibling = newWorkInProgress;
}
var deletions = returnFiber.deletions;
if (deletions === null) {
returnFiber.deletions = [current2];
returnFiber.flags |= ChildDeletion;
} else {
deletions.push(current2);
}
newWorkInProgress.flags |= Placement;
return newWorkInProgress;
}
}
function checkScheduledUpdateOrContext(current2, renderLanes2) {
var updateLanes = current2.lanes;
if (includesSomeLane(updateLanes, renderLanes2)) {
return true;
}
return false;
}
function attemptEarlyBailoutIfNoScheduledUpdate(current2, workInProgress2, renderLanes2) {
switch (workInProgress2.tag) {
case HostRoot:
pushHostRootContext(workInProgress2);
var root2 = workInProgress2.stateNode;
resetHydrationState();
break;
case HostComponent:
pushHostContext(workInProgress2);
break;
case ClassComponent: {
var Component = workInProgress2.type;
if (isContextProvider(Component)) {
pushContextProvider(workInProgress2);
}
break;
}
case HostPortal:
pushHostContainer(workInProgress2, workInProgress2.stateNode.containerInfo);
break;
case ContextProvider: {
var newValue = workInProgress2.memoizedProps.value;
var context = workInProgress2.type._context;
pushProvider(workInProgress2, context, newValue);
break;
}
case Profiler:
{
var hasChildWork = includesSomeLane(renderLanes2, workInProgress2.childLanes);
if (hasChildWork) {
workInProgress2.flags |= Update;
}
{
var stateNode = workInProgress2.stateNode;
stateNode.effectDuration = 0;
stateNode.passiveEffectDuration = 0;
}
}
break;
case SuspenseComponent: {
var state = workInProgress2.memoizedState;
if (state !== null) {
if (state.dehydrated !== null) {
pushSuspenseContext(workInProgress2, setDefaultShallowSuspenseContext(suspenseStackCursor.current));
workInProgress2.flags |= DidCapture;
return null;
}
var primaryChildFragment = workInProgress2.child;
var primaryChildLanes = primaryChildFragment.childLanes;
if (includesSomeLane(renderLanes2, primaryChildLanes)) {
return updateSuspenseComponent(current2, workInProgress2, renderLanes2);
} else {
pushSuspenseContext(workInProgress2, setDefaultShallowSuspenseContext(suspenseStackCursor.current));
var child = bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
if (child !== null) {
return child.sibling;
} else {
return null;
}
}
} else {
pushSuspenseContext(workInProgress2, setDefaultShallowSuspenseContext(suspenseStackCursor.current));
}
break;
}
case SuspenseListComponent: {
var didSuspendBefore = (current2.flags & DidCapture) !== NoFlags;
var _hasChildWork = includesSomeLane(renderLanes2, workInProgress2.childLanes);
if (didSuspendBefore) {
if (_hasChildWork) {
return updateSuspenseListComponent(current2, workInProgress2, renderLanes2);
}
workInProgress2.flags |= DidCapture;
}
var renderState = workInProgress2.memoizedState;
if (renderState !== null) {
renderState.rendering = null;
renderState.tail = null;
renderState.lastEffect = null;
}
pushSuspenseContext(workInProgress2, suspenseStackCursor.current);
if (_hasChildWork) {
break;
} else {
return null;
}
}
case OffscreenComponent:
case LegacyHiddenComponent: {
workInProgress2.lanes = NoLanes;
return updateOffscreenComponent(current2, workInProgress2, renderLanes2);
}
}
return bailoutOnAlreadyFinishedWork(current2, workInProgress2, renderLanes2);
}
function beginWork(current2, workInProgress2, renderLanes2) {
{
if (workInProgress2._debugNeedsRemount && current2 !== null) {
return remountFiber(current2, workInProgress2, createFiberFromTypeAndProps(workInProgress2.type, workInProgress2.key, workInProgress2.pendingProps, workInProgress2._debugOwner || null, workInProgress2.mode, workInProgress2.lanes));
}
}
if (current2 !== null) {
var oldProps = current2.memoizedProps;
var newProps = workInProgress2.pendingProps;
if (oldProps !== newProps || hasContextChanged() || // Force a re-render if the implementation changed due to hot reload:
workInProgress2.type !== current2.type) {
didReceiveUpdate = true;
} else {
var hasScheduledUpdateOrContext = checkScheduledUpdateOrContext(current2, renderLanes2);
if (!hasScheduledUpdateOrContext && // If this is the second pass of an error or suspense boundary, there
// may not be work scheduled on `current`, so we check for this flag.
(workInProgress2.flags & DidCapture) === NoFlags) {
didReceiveUpdate = false;
return attemptEarlyBailoutIfNoScheduledUpdate(current2, workInProgress2, renderLanes2);
}
if ((current2.flags & ForceUpdateForLegacySuspense) !== NoFlags) {
didReceiveUpdate = true;
} else {
didReceiveUpdate = false;
}
}
} else {
didReceiveUpdate = false;
if (getIsHydrating() && isForkedChild(workInProgress2)) {
var slotIndex = workInProgress2.index;
var numberOfForks = getForksAtLevel();
pushTreeId(workInProgress2, numberOfForks, slotIndex);
}
}
workInProgress2.lanes = NoLanes;
switch (workInProgress2.tag) {
case IndeterminateComponent: {
return mountIndeterminateComponent(current2, workInProgress2, workInProgress2.type, renderLanes2);
}
case LazyComponent: {
var elementType = workInProgress2.elementType;
return mountLazyComponent(current2, workInProgress2, elementType, renderLanes2);
}
case FunctionComponent: {
var Component = workInProgress2.type;
var unresolvedProps = workInProgress2.pendingProps;
var resolvedProps = workInProgress2.elementType === Component ? unresolvedProps : resolveDefaultProps(Component, unresolvedProps);
return updateFunctionComponent(current2, workInProgress2, Component, resolvedProps, renderLanes2);
}
case ClassComponent: {
var _Component = workInProgress2.type;
var _unresolvedProps = workInProgress2.pendingProps;
var _resolvedProps = workInProgress2.elementType === _Component ? _unresolvedProps : resolveDefaultProps(_Component, _unresolvedProps);
return updateClassComponent(current2, workInProgress2, _Component, _resolvedProps, renderLanes2);
}
case HostRoot:
return updateHostRoot(current2, workInProgress2, renderLanes2);
case HostComponent:
return updateHostComponent(current2, workInProgress2, renderLanes2);
case HostText:
return updateHostText(current2, workInProgress2);
case SuspenseComponent:
return updateSuspenseComponent(current2, workInProgress2, renderLanes2);
case HostPortal:
return updatePortalComponent(current2, workInProgress2, renderLanes2);
case ForwardRef: {
var type = workInProgress2.type;
var _unresolvedProps2 = workInProgress2.pendingProps;
var _resolvedProps2 = workInProgress2.elementType === type ? _unresolvedProps2 : resolveDefaultProps(type, _unresolvedProps2);
return updateForwardRef(current2, workInProgress2, type, _resolvedProps2, renderLanes2);
}
case Fragment12:
return updateFragment(current2, workInProgress2, renderLanes2);
case Mode:
return updateMode(current2, workInProgress2, renderLanes2);
case Profiler:
return updateProfiler(current2, workInProgress2, renderLanes2);
case ContextProvider:
return updateContextProvider(current2, workInProgress2, renderLanes2);
case ContextConsumer:
return updateContextConsumer(current2, workInProgress2, renderLanes2);
case MemoComponent: {
var _type2 = workInProgress2.type;
var _unresolvedProps3 = workInProgress2.pendingProps;
var _resolvedProps3 = resolveDefaultProps(_type2, _unresolvedProps3);
{
if (workInProgress2.type !== workInProgress2.elementType) {
var outerPropTypes = _type2.propTypes;
if (outerPropTypes) {
checkPropTypes(
outerPropTypes,
_resolvedProps3,
// Resolved for outer only
"prop",
getComponentNameFromType(_type2)
);
}
}
}
_resolvedProps3 = resolveDefaultProps(_type2.type, _resolvedProps3);
return updateMemoComponent(current2, workInProgress2, _type2, _resolvedProps3, renderLanes2);
}
case SimpleMemoComponent: {
return updateSimpleMemoComponent(current2, workInProgress2, workInProgress2.type, workInProgress2.pendingProps, renderLanes2);
}
case IncompleteClassComponent: {
var _Component2 = workInProgress2.type;
var _unresolvedProps4 = workInProgress2.pendingProps;
var _resolvedProps4 = workInProgress2.elementType === _Component2 ? _unresolvedProps4 : resolveDefaultProps(_Component2, _unresolvedProps4);
return mountIncompleteClassComponent(current2, workInProgress2, _Component2, _resolvedProps4, renderLanes2);
}
case SuspenseListComponent: {
return updateSuspenseListComponent(current2, workInProgress2, renderLanes2);
}
case ScopeComponent: {
break;
}
case OffscreenComponent: {
return updateOffscreenComponent(current2, workInProgress2, renderLanes2);
}
}
throw new Error("Unknown unit of work tag (" + workInProgress2.tag + "). This error is likely caused by a bug in React. Please file an issue.");
}
function markUpdate(workInProgress2) {
workInProgress2.flags |= Update;
}
function markRef$1(workInProgress2) {
workInProgress2.flags |= Ref;
{
workInProgress2.flags |= RefStatic;
}
}
var appendAllChildren;
var updateHostContainer;
var updateHostComponent$1;
var updateHostText$1;
{
appendAllChildren = function(parent, workInProgress2, needsVisibilityToggle, isHidden) {
var node = workInProgress2.child;
while (node !== null) {
if (node.tag === HostComponent || node.tag === HostText) {
appendInitialChild(parent, node.stateNode);
} else if (node.tag === HostPortal)
;
else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === workInProgress2) {
return;
}
while (node.sibling === null) {
if (node.return === null || node.return === workInProgress2) {
return;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
};
updateHostContainer = function(current2, workInProgress2) {
};
updateHostComponent$1 = function(current2, workInProgress2, type, newProps, rootContainerInstance) {
var oldProps = current2.memoizedProps;
if (oldProps === newProps) {
return;
}
var instance = workInProgress2.stateNode;
var currentHostContext = getHostContext();
var updatePayload = prepareUpdate(instance, type, oldProps, newProps, rootContainerInstance, currentHostContext);
workInProgress2.updateQueue = updatePayload;
if (updatePayload) {
markUpdate(workInProgress2);
}
};
updateHostText$1 = function(current2, workInProgress2, oldText, newText) {
if (oldText !== newText) {
markUpdate(workInProgress2);
}
};
}
function cutOffTailIfNeeded(renderState, hasRenderedATailFallback) {
if (getIsHydrating()) {
return;
}
switch (renderState.tailMode) {
case "hidden": {
var tailNode = renderState.tail;
var lastTailNode = null;
while (tailNode !== null) {
if (tailNode.alternate !== null) {
lastTailNode = tailNode;
}
tailNode = tailNode.sibling;
}
if (lastTailNode === null) {
renderState.tail = null;
} else {
lastTailNode.sibling = null;
}
break;
}
case "collapsed": {
var _tailNode = renderState.tail;
var _lastTailNode = null;
while (_tailNode !== null) {
if (_tailNode.alternate !== null) {
_lastTailNode = _tailNode;
}
_tailNode = _tailNode.sibling;
}
if (_lastTailNode === null) {
if (!hasRenderedATailFallback && renderState.tail !== null) {
renderState.tail.sibling = null;
} else {
renderState.tail = null;
}
} else {
_lastTailNode.sibling = null;
}
break;
}
}
}
function bubbleProperties(completedWork) {
var didBailout = completedWork.alternate !== null && completedWork.alternate.child === completedWork.child;
var newChildLanes = NoLanes;
var subtreeFlags = NoFlags;
if (!didBailout) {
if ((completedWork.mode & ProfileMode) !== NoMode) {
var actualDuration = completedWork.actualDuration;
var treeBaseDuration = completedWork.selfBaseDuration;
var child = completedWork.child;
while (child !== null) {
newChildLanes = mergeLanes(newChildLanes, mergeLanes(child.lanes, child.childLanes));
subtreeFlags |= child.subtreeFlags;
subtreeFlags |= child.flags;
actualDuration += child.actualDuration;
treeBaseDuration += child.treeBaseDuration;
child = child.sibling;
}
completedWork.actualDuration = actualDuration;
completedWork.treeBaseDuration = treeBaseDuration;
} else {
var _child = completedWork.child;
while (_child !== null) {
newChildLanes = mergeLanes(newChildLanes, mergeLanes(_child.lanes, _child.childLanes));
subtreeFlags |= _child.subtreeFlags;
subtreeFlags |= _child.flags;
_child.return = completedWork;
_child = _child.sibling;
}
}
completedWork.subtreeFlags |= subtreeFlags;
} else {
if ((completedWork.mode & ProfileMode) !== NoMode) {
var _treeBaseDuration = completedWork.selfBaseDuration;
var _child2 = completedWork.child;
while (_child2 !== null) {
newChildLanes = mergeLanes(newChildLanes, mergeLanes(_child2.lanes, _child2.childLanes));
subtreeFlags |= _child2.subtreeFlags & StaticMask;
subtreeFlags |= _child2.flags & StaticMask;
_treeBaseDuration += _child2.treeBaseDuration;
_child2 = _child2.sibling;
}
completedWork.treeBaseDuration = _treeBaseDuration;
} else {
var _child3 = completedWork.child;
while (_child3 !== null) {
newChildLanes = mergeLanes(newChildLanes, mergeLanes(_child3.lanes, _child3.childLanes));
subtreeFlags |= _child3.subtreeFlags & StaticMask;
subtreeFlags |= _child3.flags & StaticMask;
_child3.return = completedWork;
_child3 = _child3.sibling;
}
}
completedWork.subtreeFlags |= subtreeFlags;
}
completedWork.childLanes = newChildLanes;
return didBailout;
}
function completeDehydratedSuspenseBoundary(current2, workInProgress2, nextState) {
if (hasUnhydratedTailNodes() && (workInProgress2.mode & ConcurrentMode) !== NoMode && (workInProgress2.flags & DidCapture) === NoFlags) {
warnIfUnhydratedTailNodes(workInProgress2);
resetHydrationState();
workInProgress2.flags |= ForceClientRender | Incomplete | ShouldCapture;
return false;
}
var wasHydrated = popHydrationState(workInProgress2);
if (nextState !== null && nextState.dehydrated !== null) {
if (current2 === null) {
if (!wasHydrated) {
throw new Error("A dehydrated suspense component was completed without a hydrated node. This is probably a bug in React.");
}
prepareToHydrateHostSuspenseInstance(workInProgress2);
bubbleProperties(workInProgress2);
{
if ((workInProgress2.mode & ProfileMode) !== NoMode) {
var isTimedOutSuspense = nextState !== null;
if (isTimedOutSuspense) {
var primaryChildFragment = workInProgress2.child;
if (primaryChildFragment !== null) {
workInProgress2.treeBaseDuration -= primaryChildFragment.treeBaseDuration;
}
}
}
}
return false;
} else {
resetHydrationState();
if ((workInProgress2.flags & DidCapture) === NoFlags) {
workInProgress2.memoizedState = null;
}
workInProgress2.flags |= Update;
bubbleProperties(workInProgress2);
{
if ((workInProgress2.mode & ProfileMode) !== NoMode) {
var _isTimedOutSuspense = nextState !== null;
if (_isTimedOutSuspense) {
var _primaryChildFragment = workInProgress2.child;
if (_primaryChildFragment !== null) {
workInProgress2.treeBaseDuration -= _primaryChildFragment.treeBaseDuration;
}
}
}
}
return false;
}
} else {
upgradeHydrationErrorsToRecoverable();
return true;
}
}
function completeWork(current2, workInProgress2, renderLanes2) {
var newProps = workInProgress2.pendingProps;
popTreeContext(workInProgress2);
switch (workInProgress2.tag) {
case IndeterminateComponent:
case LazyComponent:
case SimpleMemoComponent:
case FunctionComponent:
case ForwardRef:
case Fragment12:
case Mode:
case Profiler:
case ContextConsumer:
case MemoComponent:
bubbleProperties(workInProgress2);
return null;
case ClassComponent: {
var Component = workInProgress2.type;
if (isContextProvider(Component)) {
popContext(workInProgress2);
}
bubbleProperties(workInProgress2);
return null;
}
case HostRoot: {
var fiberRoot = workInProgress2.stateNode;
popHostContainer(workInProgress2);
popTopLevelContextObject(workInProgress2);
resetWorkInProgressVersions();
if (fiberRoot.pendingContext) {
fiberRoot.context = fiberRoot.pendingContext;
fiberRoot.pendingContext = null;
}
if (current2 === null || current2.child === null) {
var wasHydrated = popHydrationState(workInProgress2);
if (wasHydrated) {
markUpdate(workInProgress2);
} else {
if (current2 !== null) {
var prevState = current2.memoizedState;
if (
// Check if this is a client root
!prevState.isDehydrated || // Check if we reverted to client rendering (e.g. due to an error)
(workInProgress2.flags & ForceClientRender) !== NoFlags
) {
workInProgress2.flags |= Snapshot;
upgradeHydrationErrorsToRecoverable();
}
}
}
}
updateHostContainer(current2, workInProgress2);
bubbleProperties(workInProgress2);
return null;
}
case HostComponent: {
popHostContext(workInProgress2);
var rootContainerInstance = getRootHostContainer();
var type = workInProgress2.type;
if (current2 !== null && workInProgress2.stateNode != null) {
updateHostComponent$1(current2, workInProgress2, type, newProps, rootContainerInstance);
if (current2.ref !== workInProgress2.ref) {
markRef$1(workInProgress2);
}
} else {
if (!newProps) {
if (workInProgress2.stateNode === null) {
throw new Error("We must have new props for new mounts. This error is likely caused by a bug in React. Please file an issue.");
}
bubbleProperties(workInProgress2);
return null;
}
var currentHostContext = getHostContext();
var _wasHydrated = popHydrationState(workInProgress2);
if (_wasHydrated) {
if (prepareToHydrateHostInstance(workInProgress2, rootContainerInstance, currentHostContext)) {
markUpdate(workInProgress2);
}
} else {
var instance = createInstance(type, newProps, rootContainerInstance, currentHostContext, workInProgress2);
appendAllChildren(instance, workInProgress2, false, false);
workInProgress2.stateNode = instance;
if (finalizeInitialChildren(instance, type, newProps, rootContainerInstance)) {
markUpdate(workInProgress2);
}
}
if (workInProgress2.ref !== null) {
markRef$1(workInProgress2);
}
}
bubbleProperties(workInProgress2);
return null;
}
case HostText: {
var newText = newProps;
if (current2 && workInProgress2.stateNode != null) {
var oldText = current2.memoizedProps;
updateHostText$1(current2, workInProgress2, oldText, newText);
} else {
if (typeof newText !== "string") {
if (workInProgress2.stateNode === null) {
throw new Error("We must have new props for new mounts. This error is likely caused by a bug in React. Please file an issue.");
}
}
var _rootContainerInstance = getRootHostContainer();
var _currentHostContext = getHostContext();
var _wasHydrated2 = popHydrationState(workInProgress2);
if (_wasHydrated2) {
if (prepareToHydrateHostTextInstance(workInProgress2)) {
markUpdate(workInProgress2);
}
} else {
workInProgress2.stateNode = createTextInstance(newText, _rootContainerInstance, _currentHostContext, workInProgress2);
}
}
bubbleProperties(workInProgress2);
return null;
}
case SuspenseComponent: {
popSuspenseContext(workInProgress2);
var nextState = workInProgress2.memoizedState;
if (current2 === null || current2.memoizedState !== null && current2.memoizedState.dehydrated !== null) {
var fallthroughToNormalSuspensePath = completeDehydratedSuspenseBoundary(current2, workInProgress2, nextState);
if (!fallthroughToNormalSuspensePath) {
if (workInProgress2.flags & ShouldCapture) {
return workInProgress2;
} else {
return null;
}
}
}
if ((workInProgress2.flags & DidCapture) !== NoFlags) {
workInProgress2.lanes = renderLanes2;
if ((workInProgress2.mode & ProfileMode) !== NoMode) {
transferActualDuration(workInProgress2);
}
return workInProgress2;
}
var nextDidTimeout = nextState !== null;
var prevDidTimeout = current2 !== null && current2.memoizedState !== null;
if (nextDidTimeout !== prevDidTimeout) {
if (nextDidTimeout) {
var _offscreenFiber2 = workInProgress2.child;
_offscreenFiber2.flags |= Visibility;
if ((workInProgress2.mode & ConcurrentMode) !== NoMode) {
var hasInvisibleChildContext = current2 === null && (workInProgress2.memoizedProps.unstable_avoidThisFallback !== true || !enableSuspenseAvoidThisFallback);
if (hasInvisibleChildContext || hasSuspenseContext(suspenseStackCursor.current, InvisibleParentSuspenseContext)) {
renderDidSuspend();
} else {
renderDidSuspendDelayIfPossible();
}
}
}
}
var wakeables = workInProgress2.updateQueue;
if (wakeables !== null) {
workInProgress2.flags |= Update;
}
bubbleProperties(workInProgress2);
{
if ((workInProgress2.mode & ProfileMode) !== NoMode) {
if (nextDidTimeout) {
var primaryChildFragment = workInProgress2.child;
if (primaryChildFragment !== null) {
workInProgress2.treeBaseDuration -= primaryChildFragment.treeBaseDuration;
}
}
}
}
return null;
}
case HostPortal:
popHostContainer(workInProgress2);
updateHostContainer(current2, workInProgress2);
if (current2 === null) {
preparePortalMount(workInProgress2.stateNode.containerInfo);
}
bubbleProperties(workInProgress2);
return null;
case ContextProvider:
var context = workInProgress2.type._context;
popProvider(context, workInProgress2);
bubbleProperties(workInProgress2);
return null;
case IncompleteClassComponent: {
var _Component = workInProgress2.type;
if (isContextProvider(_Component)) {
popContext(workInProgress2);
}
bubbleProperties(workInProgress2);
return null;
}
case SuspenseListComponent: {
popSuspenseContext(workInProgress2);
var renderState = workInProgress2.memoizedState;
if (renderState === null) {
bubbleProperties(workInProgress2);
return null;
}
var didSuspendAlready = (workInProgress2.flags & DidCapture) !== NoFlags;
var renderedTail = renderState.rendering;
if (renderedTail === null) {
if (!didSuspendAlready) {
var cannotBeSuspended = renderHasNotSuspendedYet() && (current2 === null || (current2.flags & DidCapture) === NoFlags);
if (!cannotBeSuspended) {
var row = workInProgress2.child;
while (row !== null) {
var suspended = findFirstSuspended(row);
if (suspended !== null) {
didSuspendAlready = true;
workInProgress2.flags |= DidCapture;
cutOffTailIfNeeded(renderState, false);
var newThenables = suspended.updateQueue;
if (newThenables !== null) {
workInProgress2.updateQueue = newThenables;
workInProgress2.flags |= Update;
}
workInProgress2.subtreeFlags = NoFlags;
resetChildFibers(workInProgress2, renderLanes2);
pushSuspenseContext(workInProgress2, setShallowSuspenseContext(suspenseStackCursor.current, ForceSuspenseFallback));
return workInProgress2.child;
}
row = row.sibling;
}
}
if (renderState.tail !== null && now() > getRenderTargetTime()) {
workInProgress2.flags |= DidCapture;
didSuspendAlready = true;
cutOffTailIfNeeded(renderState, false);
workInProgress2.lanes = SomeRetryLane;
}
} else {
cutOffTailIfNeeded(renderState, false);
}
} else {
if (!didSuspendAlready) {
var _suspended = findFirstSuspended(renderedTail);
if (_suspended !== null) {
workInProgress2.flags |= DidCapture;
didSuspendAlready = true;
var _newThenables = _suspended.updateQueue;
if (_newThenables !== null) {
workInProgress2.updateQueue = _newThenables;
workInProgress2.flags |= Update;
}
cutOffTailIfNeeded(renderState, true);
if (renderState.tail === null && renderState.tailMode === "hidden" && !renderedTail.alternate && !getIsHydrating()) {
bubbleProperties(workInProgress2);
return null;
}
} else if (
// The time it took to render last row is greater than the remaining
// time we have to render. So rendering one more row would likely
// exceed it.
now() * 2 - renderState.renderingStartTime > getRenderTargetTime() && renderLanes2 !== OffscreenLane
) {
workInProgress2.flags |= DidCapture;
didSuspendAlready = true;
cutOffTailIfNeeded(renderState, false);
workInProgress2.lanes = SomeRetryLane;
}
}
if (renderState.isBackwards) {
renderedTail.sibling = workInProgress2.child;
workInProgress2.child = renderedTail;
} else {
var previousSibling = renderState.last;
if (previousSibling !== null) {
previousSibling.sibling = renderedTail;
} else {
workInProgress2.child = renderedTail;
}
renderState.last = renderedTail;
}
}
if (renderState.tail !== null) {
var next = renderState.tail;
renderState.rendering = next;
renderState.tail = next.sibling;
renderState.renderingStartTime = now();
next.sibling = null;
var suspenseContext = suspenseStackCursor.current;
if (didSuspendAlready) {
suspenseContext = setShallowSuspenseContext(suspenseContext, ForceSuspenseFallback);
} else {
suspenseContext = setDefaultShallowSuspenseContext(suspenseContext);
}
pushSuspenseContext(workInProgress2, suspenseContext);
return next;
}
bubbleProperties(workInProgress2);
return null;
}
case ScopeComponent: {
break;
}
case OffscreenComponent:
case LegacyHiddenComponent: {
popRenderLanes(workInProgress2);
var _nextState = workInProgress2.memoizedState;
var nextIsHidden = _nextState !== null;
if (current2 !== null) {
var _prevState = current2.memoizedState;
var prevIsHidden = _prevState !== null;
if (prevIsHidden !== nextIsHidden && // LegacyHidden doesn't do any hiding — it only pre-renders.
!enableLegacyHidden) {
workInProgress2.flags |= Visibility;
}
}
if (!nextIsHidden || (workInProgress2.mode & ConcurrentMode) === NoMode) {
bubbleProperties(workInProgress2);
} else {
if (includesSomeLane(subtreeRenderLanes, OffscreenLane)) {
bubbleProperties(workInProgress2);
{
if (workInProgress2.subtreeFlags & (Placement | Update)) {
workInProgress2.flags |= Visibility;
}
}
}
}
return null;
}
case CacheComponent: {
return null;
}
case TracingMarkerComponent: {
return null;
}
}
throw new Error("Unknown unit of work tag (" + workInProgress2.tag + "). This error is likely caused by a bug in React. Please file an issue.");
}
function unwindWork(current2, workInProgress2, renderLanes2) {
popTreeContext(workInProgress2);
switch (workInProgress2.tag) {
case ClassComponent: {
var Component = workInProgress2.type;
if (isContextProvider(Component)) {
popContext(workInProgress2);
}
var flags = workInProgress2.flags;
if (flags & ShouldCapture) {
workInProgress2.flags = flags & ~ShouldCapture | DidCapture;
if ((workInProgress2.mode & ProfileMode) !== NoMode) {
transferActualDuration(workInProgress2);
}
return workInProgress2;
}
return null;
}
case HostRoot: {
var root2 = workInProgress2.stateNode;
popHostContainer(workInProgress2);
popTopLevelContextObject(workInProgress2);
resetWorkInProgressVersions();
var _flags = workInProgress2.flags;
if ((_flags & ShouldCapture) !== NoFlags && (_flags & DidCapture) === NoFlags) {
workInProgress2.flags = _flags & ~ShouldCapture | DidCapture;
return workInProgress2;
}
return null;
}
case HostComponent: {
popHostContext(workInProgress2);
return null;
}
case SuspenseComponent: {
popSuspenseContext(workInProgress2);
var suspenseState = workInProgress2.memoizedState;
if (suspenseState !== null && suspenseState.dehydrated !== null) {
if (workInProgress2.alternate === null) {
throw new Error("Threw in newly mounted dehydrated component. This is likely a bug in React. Please file an issue.");
}
resetHydrationState();
}
var _flags2 = workInProgress2.flags;
if (_flags2 & ShouldCapture) {
workInProgress2.flags = _flags2 & ~ShouldCapture | DidCapture;
if ((workInProgress2.mode & ProfileMode) !== NoMode) {
transferActualDuration(workInProgress2);
}
return workInProgress2;
}
return null;
}
case SuspenseListComponent: {
popSuspenseContext(workInProgress2);
return null;
}
case HostPortal:
popHostContainer(workInProgress2);
return null;
case ContextProvider:
var context = workInProgress2.type._context;
popProvider(context, workInProgress2);
return null;
case OffscreenComponent:
case LegacyHiddenComponent:
popRenderLanes(workInProgress2);
return null;
case CacheComponent:
return null;
default:
return null;
}
}
function unwindInterruptedWork(current2, interruptedWork, renderLanes2) {
popTreeContext(interruptedWork);
switch (interruptedWork.tag) {
case ClassComponent: {
var childContextTypes = interruptedWork.type.childContextTypes;
if (childContextTypes !== null && childContextTypes !== void 0) {
popContext(interruptedWork);
}
break;
}
case HostRoot: {
var root2 = interruptedWork.stateNode;
popHostContainer(interruptedWork);
popTopLevelContextObject(interruptedWork);
resetWorkInProgressVersions();
break;
}
case HostComponent: {
popHostContext(interruptedWork);
break;
}
case HostPortal:
popHostContainer(interruptedWork);
break;
case SuspenseComponent:
popSuspenseContext(interruptedWork);
break;
case SuspenseListComponent:
popSuspenseContext(interruptedWork);
break;
case ContextProvider:
var context = interruptedWork.type._context;
popProvider(context, interruptedWork);
break;
case OffscreenComponent:
case LegacyHiddenComponent:
popRenderLanes(interruptedWork);
break;
}
}
var didWarnAboutUndefinedSnapshotBeforeUpdate = null;
{
didWarnAboutUndefinedSnapshotBeforeUpdate = /* @__PURE__ */ new Set();
}
var offscreenSubtreeIsHidden = false;
var offscreenSubtreeWasHidden = false;
var PossiblyWeakSet = typeof WeakSet === "function" ? WeakSet : Set;
var nextEffect = null;
var inProgressLanes = null;
var inProgressRoot = null;
function reportUncaughtErrorInDEV(error2) {
{
invokeGuardedCallback(null, function() {
throw error2;
});
clearCaughtError();
}
}
var callComponentWillUnmountWithTimer = function(current2, instance) {
instance.props = current2.memoizedProps;
instance.state = current2.memoizedState;
if (current2.mode & ProfileMode) {
try {
startLayoutEffectTimer();
instance.componentWillUnmount();
} finally {
recordLayoutEffectDuration(current2);
}
} else {
instance.componentWillUnmount();
}
};
function safelyCallCommitHookLayoutEffectListMount(current2, nearestMountedAncestor) {
try {
commitHookEffectListMount(Layout, current2);
} catch (error2) {
captureCommitPhaseError(current2, nearestMountedAncestor, error2);
}
}
function safelyCallComponentWillUnmount(current2, nearestMountedAncestor, instance) {
try {
callComponentWillUnmountWithTimer(current2, instance);
} catch (error2) {
captureCommitPhaseError(current2, nearestMountedAncestor, error2);
}
}
function safelyCallComponentDidMount(current2, nearestMountedAncestor, instance) {
try {
instance.componentDidMount();
} catch (error2) {
captureCommitPhaseError(current2, nearestMountedAncestor, error2);
}
}
function safelyAttachRef(current2, nearestMountedAncestor) {
try {
commitAttachRef(current2);
} catch (error2) {
captureCommitPhaseError(current2, nearestMountedAncestor, error2);
}
}
function safelyDetachRef(current2, nearestMountedAncestor) {
var ref = current2.ref;
if (ref !== null) {
if (typeof ref === "function") {
var retVal;
try {
if (enableProfilerTimer && enableProfilerCommitHooks && current2.mode & ProfileMode) {
try {
startLayoutEffectTimer();
retVal = ref(null);
} finally {
recordLayoutEffectDuration(current2);
}
} else {
retVal = ref(null);
}
} catch (error2) {
captureCommitPhaseError(current2, nearestMountedAncestor, error2);
}
{
if (typeof retVal === "function") {
error("Unexpected return value from a callback ref in %s. A callback ref should not return a function.", getComponentNameFromFiber(current2));
}
}
} else {
ref.current = null;
}
}
}
function safelyCallDestroy(current2, nearestMountedAncestor, destroy) {
try {
destroy();
} catch (error2) {
captureCommitPhaseError(current2, nearestMountedAncestor, error2);
}
}
var focusedInstanceHandle = null;
var shouldFireAfterActiveInstanceBlur = false;
function commitBeforeMutationEffects(root2, firstChild) {
focusedInstanceHandle = prepareForCommit(root2.containerInfo);
nextEffect = firstChild;
commitBeforeMutationEffects_begin();
var shouldFire = shouldFireAfterActiveInstanceBlur;
shouldFireAfterActiveInstanceBlur = false;
focusedInstanceHandle = null;
return shouldFire;
}
function commitBeforeMutationEffects_begin() {
while (nextEffect !== null) {
var fiber = nextEffect;
var child = fiber.child;
if ((fiber.subtreeFlags & BeforeMutationMask) !== NoFlags && child !== null) {
child.return = fiber;
nextEffect = child;
} else {
commitBeforeMutationEffects_complete();
}
}
}
function commitBeforeMutationEffects_complete() {
while (nextEffect !== null) {
var fiber = nextEffect;
setCurrentFiber(fiber);
try {
commitBeforeMutationEffectsOnFiber(fiber);
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
resetCurrentFiber();
var sibling = fiber.sibling;
if (sibling !== null) {
sibling.return = fiber.return;
nextEffect = sibling;
return;
}
nextEffect = fiber.return;
}
}
function commitBeforeMutationEffectsOnFiber(finishedWork) {
var current2 = finishedWork.alternate;
var flags = finishedWork.flags;
if ((flags & Snapshot) !== NoFlags) {
setCurrentFiber(finishedWork);
switch (finishedWork.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
break;
}
case ClassComponent: {
if (current2 !== null) {
var prevProps = current2.memoizedProps;
var prevState = current2.memoizedState;
var instance = finishedWork.stateNode;
{
if (finishedWork.type === finishedWork.elementType && !didWarnAboutReassigningProps) {
if (instance.props !== finishedWork.memoizedProps) {
error("Expected %s props to match memoized props before getSnapshotBeforeUpdate. This might either be because of a bug in React, or because a component reassigns its own `this.props`. Please file an issue.", getComponentNameFromFiber(finishedWork) || "instance");
}
if (instance.state !== finishedWork.memoizedState) {
error("Expected %s state to match memoized state before getSnapshotBeforeUpdate. This might either be because of a bug in React, or because a component reassigns its own `this.state`. Please file an issue.", getComponentNameFromFiber(finishedWork) || "instance");
}
}
}
var snapshot = instance.getSnapshotBeforeUpdate(finishedWork.elementType === finishedWork.type ? prevProps : resolveDefaultProps(finishedWork.type, prevProps), prevState);
{
var didWarnSet = didWarnAboutUndefinedSnapshotBeforeUpdate;
if (snapshot === void 0 && !didWarnSet.has(finishedWork.type)) {
didWarnSet.add(finishedWork.type);
error("%s.getSnapshotBeforeUpdate(): A snapshot value (or null) must be returned. You have returned undefined.", getComponentNameFromFiber(finishedWork));
}
}
instance.__reactInternalSnapshotBeforeUpdate = snapshot;
}
break;
}
case HostRoot: {
{
var root2 = finishedWork.stateNode;
clearContainer(root2.containerInfo);
}
break;
}
case HostComponent:
case HostText:
case HostPortal:
case IncompleteClassComponent:
break;
default: {
throw new Error("This unit of work tag should not have side-effects. This error is likely caused by a bug in React. Please file an issue.");
}
}
resetCurrentFiber();
}
}
function commitHookEffectListUnmount(flags, finishedWork, nearestMountedAncestor) {
var updateQueue = finishedWork.updateQueue;
var lastEffect = updateQueue !== null ? updateQueue.lastEffect : null;
if (lastEffect !== null) {
var firstEffect = lastEffect.next;
var effect = firstEffect;
do {
if ((effect.tag & flags) === flags) {
var destroy = effect.destroy;
effect.destroy = void 0;
if (destroy !== void 0) {
{
if ((flags & Passive$1) !== NoFlags$1) {
markComponentPassiveEffectUnmountStarted(finishedWork);
} else if ((flags & Layout) !== NoFlags$1) {
markComponentLayoutEffectUnmountStarted(finishedWork);
}
}
{
if ((flags & Insertion) !== NoFlags$1) {
setIsRunningInsertionEffect(true);
}
}
safelyCallDestroy(finishedWork, nearestMountedAncestor, destroy);
{
if ((flags & Insertion) !== NoFlags$1) {
setIsRunningInsertionEffect(false);
}
}
{
if ((flags & Passive$1) !== NoFlags$1) {
markComponentPassiveEffectUnmountStopped();
} else if ((flags & Layout) !== NoFlags$1) {
markComponentLayoutEffectUnmountStopped();
}
}
}
}
effect = effect.next;
} while (effect !== firstEffect);
}
}
function commitHookEffectListMount(flags, finishedWork) {
var updateQueue = finishedWork.updateQueue;
var lastEffect = updateQueue !== null ? updateQueue.lastEffect : null;
if (lastEffect !== null) {
var firstEffect = lastEffect.next;
var effect = firstEffect;
do {
if ((effect.tag & flags) === flags) {
{
if ((flags & Passive$1) !== NoFlags$1) {
markComponentPassiveEffectMountStarted(finishedWork);
} else if ((flags & Layout) !== NoFlags$1) {
markComponentLayoutEffectMountStarted(finishedWork);
}
}
var create = effect.create;
{
if ((flags & Insertion) !== NoFlags$1) {
setIsRunningInsertionEffect(true);
}
}
effect.destroy = create();
{
if ((flags & Insertion) !== NoFlags$1) {
setIsRunningInsertionEffect(false);
}
}
{
if ((flags & Passive$1) !== NoFlags$1) {
markComponentPassiveEffectMountStopped();
} else if ((flags & Layout) !== NoFlags$1) {
markComponentLayoutEffectMountStopped();
}
}
{
var destroy = effect.destroy;
if (destroy !== void 0 && typeof destroy !== "function") {
var hookName = void 0;
if ((effect.tag & Layout) !== NoFlags) {
hookName = "useLayoutEffect";
} else if ((effect.tag & Insertion) !== NoFlags) {
hookName = "useInsertionEffect";
} else {
hookName = "useEffect";
}
var addendum = void 0;
if (destroy === null) {
addendum = " You returned null. If your effect does not require clean up, return undefined (or nothing).";
} else if (typeof destroy.then === "function") {
addendum = "\n\nIt looks like you wrote " + hookName + "(async () => ...) or returned a Promise. Instead, write the async function inside your effect and call it immediately:\n\n" + hookName + "(() => {\n async function fetchData() {\n // You can await here\n const response = await MyAPI.getData(someId);\n // ...\n }\n fetchData();\n}, [someId]); // Or [] if effect doesn't need props or state\n\nLearn more about data fetching with Hooks: https://reactjs.org/link/hooks-data-fetching";
} else {
addendum = " You returned: " + destroy;
}
error("%s must not return anything besides a function, which is used for clean-up.%s", hookName, addendum);
}
}
}
effect = effect.next;
} while (effect !== firstEffect);
}
}
function commitPassiveEffectDurations(finishedRoot, finishedWork) {
{
if ((finishedWork.flags & Update) !== NoFlags) {
switch (finishedWork.tag) {
case Profiler: {
var passiveEffectDuration = finishedWork.stateNode.passiveEffectDuration;
var _finishedWork$memoize = finishedWork.memoizedProps, id = _finishedWork$memoize.id, onPostCommit = _finishedWork$memoize.onPostCommit;
var commitTime2 = getCommitTime();
var phase = finishedWork.alternate === null ? "mount" : "update";
{
if (isCurrentUpdateNested()) {
phase = "nested-update";
}
}
if (typeof onPostCommit === "function") {
onPostCommit(id, phase, passiveEffectDuration, commitTime2);
}
var parentFiber = finishedWork.return;
outer:
while (parentFiber !== null) {
switch (parentFiber.tag) {
case HostRoot:
var root2 = parentFiber.stateNode;
root2.passiveEffectDuration += passiveEffectDuration;
break outer;
case Profiler:
var parentStateNode = parentFiber.stateNode;
parentStateNode.passiveEffectDuration += passiveEffectDuration;
break outer;
}
parentFiber = parentFiber.return;
}
break;
}
}
}
}
}
function commitLayoutEffectOnFiber(finishedRoot, current2, finishedWork, committedLanes) {
if ((finishedWork.flags & LayoutMask) !== NoFlags) {
switch (finishedWork.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
if (!offscreenSubtreeWasHidden) {
if (finishedWork.mode & ProfileMode) {
try {
startLayoutEffectTimer();
commitHookEffectListMount(Layout | HasEffect, finishedWork);
} finally {
recordLayoutEffectDuration(finishedWork);
}
} else {
commitHookEffectListMount(Layout | HasEffect, finishedWork);
}
}
break;
}
case ClassComponent: {
var instance = finishedWork.stateNode;
if (finishedWork.flags & Update) {
if (!offscreenSubtreeWasHidden) {
if (current2 === null) {
{
if (finishedWork.type === finishedWork.elementType && !didWarnAboutReassigningProps) {
if (instance.props !== finishedWork.memoizedProps) {
error("Expected %s props to match memoized props before componentDidMount. This might either be because of a bug in React, or because a component reassigns its own `this.props`. Please file an issue.", getComponentNameFromFiber(finishedWork) || "instance");
}
if (instance.state !== finishedWork.memoizedState) {
error("Expected %s state to match memoized state before componentDidMount. This might either be because of a bug in React, or because a component reassigns its own `this.state`. Please file an issue.", getComponentNameFromFiber(finishedWork) || "instance");
}
}
}
if (finishedWork.mode & ProfileMode) {
try {
startLayoutEffectTimer();
instance.componentDidMount();
} finally {
recordLayoutEffectDuration(finishedWork);
}
} else {
instance.componentDidMount();
}
} else {
var prevProps = finishedWork.elementType === finishedWork.type ? current2.memoizedProps : resolveDefaultProps(finishedWork.type, current2.memoizedProps);
var prevState = current2.memoizedState;
{
if (finishedWork.type === finishedWork.elementType && !didWarnAboutReassigningProps) {
if (instance.props !== finishedWork.memoizedProps) {
error("Expected %s props to match memoized props before componentDidUpdate. This might either be because of a bug in React, or because a component reassigns its own `this.props`. Please file an issue.", getComponentNameFromFiber(finishedWork) || "instance");
}
if (instance.state !== finishedWork.memoizedState) {
error("Expected %s state to match memoized state before componentDidUpdate. This might either be because of a bug in React, or because a component reassigns its own `this.state`. Please file an issue.", getComponentNameFromFiber(finishedWork) || "instance");
}
}
}
if (finishedWork.mode & ProfileMode) {
try {
startLayoutEffectTimer();
instance.componentDidUpdate(prevProps, prevState, instance.__reactInternalSnapshotBeforeUpdate);
} finally {
recordLayoutEffectDuration(finishedWork);
}
} else {
instance.componentDidUpdate(prevProps, prevState, instance.__reactInternalSnapshotBeforeUpdate);
}
}
}
}
var updateQueue = finishedWork.updateQueue;
if (updateQueue !== null) {
{
if (finishedWork.type === finishedWork.elementType && !didWarnAboutReassigningProps) {
if (instance.props !== finishedWork.memoizedProps) {
error("Expected %s props to match memoized props before processing the update queue. This might either be because of a bug in React, or because a component reassigns its own `this.props`. Please file an issue.", getComponentNameFromFiber(finishedWork) || "instance");
}
if (instance.state !== finishedWork.memoizedState) {
error("Expected %s state to match memoized state before processing the update queue. This might either be because of a bug in React, or because a component reassigns its own `this.state`. Please file an issue.", getComponentNameFromFiber(finishedWork) || "instance");
}
}
}
commitUpdateQueue(finishedWork, updateQueue, instance);
}
break;
}
case HostRoot: {
var _updateQueue = finishedWork.updateQueue;
if (_updateQueue !== null) {
var _instance = null;
if (finishedWork.child !== null) {
switch (finishedWork.child.tag) {
case HostComponent:
_instance = getPublicInstance(finishedWork.child.stateNode);
break;
case ClassComponent:
_instance = finishedWork.child.stateNode;
break;
}
}
commitUpdateQueue(finishedWork, _updateQueue, _instance);
}
break;
}
case HostComponent: {
var _instance2 = finishedWork.stateNode;
if (current2 === null && finishedWork.flags & Update) {
var type = finishedWork.type;
var props = finishedWork.memoizedProps;
commitMount(_instance2, type, props);
}
break;
}
case HostText: {
break;
}
case HostPortal: {
break;
}
case Profiler: {
{
var _finishedWork$memoize2 = finishedWork.memoizedProps, onCommit = _finishedWork$memoize2.onCommit, onRender = _finishedWork$memoize2.onRender;
var effectDuration = finishedWork.stateNode.effectDuration;
var commitTime2 = getCommitTime();
var phase = current2 === null ? "mount" : "update";
{
if (isCurrentUpdateNested()) {
phase = "nested-update";
}
}
if (typeof onRender === "function") {
onRender(finishedWork.memoizedProps.id, phase, finishedWork.actualDuration, finishedWork.treeBaseDuration, finishedWork.actualStartTime, commitTime2);
}
{
if (typeof onCommit === "function") {
onCommit(finishedWork.memoizedProps.id, phase, effectDuration, commitTime2);
}
enqueuePendingPassiveProfilerEffect(finishedWork);
var parentFiber = finishedWork.return;
outer:
while (parentFiber !== null) {
switch (parentFiber.tag) {
case HostRoot:
var root2 = parentFiber.stateNode;
root2.effectDuration += effectDuration;
break outer;
case Profiler:
var parentStateNode = parentFiber.stateNode;
parentStateNode.effectDuration += effectDuration;
break outer;
}
parentFiber = parentFiber.return;
}
}
}
break;
}
case SuspenseComponent: {
commitSuspenseHydrationCallbacks(finishedRoot, finishedWork);
break;
}
case SuspenseListComponent:
case IncompleteClassComponent:
case ScopeComponent:
case OffscreenComponent:
case LegacyHiddenComponent:
case TracingMarkerComponent: {
break;
}
default:
throw new Error("This unit of work tag should not have side-effects. This error is likely caused by a bug in React. Please file an issue.");
}
}
if (!offscreenSubtreeWasHidden) {
{
if (finishedWork.flags & Ref) {
commitAttachRef(finishedWork);
}
}
}
}
function reappearLayoutEffectsOnFiber(node) {
switch (node.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
if (node.mode & ProfileMode) {
try {
startLayoutEffectTimer();
safelyCallCommitHookLayoutEffectListMount(node, node.return);
} finally {
recordLayoutEffectDuration(node);
}
} else {
safelyCallCommitHookLayoutEffectListMount(node, node.return);
}
break;
}
case ClassComponent: {
var instance = node.stateNode;
if (typeof instance.componentDidMount === "function") {
safelyCallComponentDidMount(node, node.return, instance);
}
safelyAttachRef(node, node.return);
break;
}
case HostComponent: {
safelyAttachRef(node, node.return);
break;
}
}
}
function hideOrUnhideAllChildren(finishedWork, isHidden) {
var hostSubtreeRoot = null;
{
var node = finishedWork;
while (true) {
if (node.tag === HostComponent) {
if (hostSubtreeRoot === null) {
hostSubtreeRoot = node;
try {
var instance = node.stateNode;
if (isHidden) {
hideInstance(instance);
} else {
unhideInstance(node.stateNode, node.memoizedProps);
}
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
}
} else if (node.tag === HostText) {
if (hostSubtreeRoot === null) {
try {
var _instance3 = node.stateNode;
if (isHidden) {
hideTextInstance(_instance3);
} else {
unhideTextInstance(_instance3, node.memoizedProps);
}
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
}
} else if ((node.tag === OffscreenComponent || node.tag === LegacyHiddenComponent) && node.memoizedState !== null && node !== finishedWork)
;
else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === finishedWork) {
return;
}
while (node.sibling === null) {
if (node.return === null || node.return === finishedWork) {
return;
}
if (hostSubtreeRoot === node) {
hostSubtreeRoot = null;
}
node = node.return;
}
if (hostSubtreeRoot === node) {
hostSubtreeRoot = null;
}
node.sibling.return = node.return;
node = node.sibling;
}
}
}
function commitAttachRef(finishedWork) {
var ref = finishedWork.ref;
if (ref !== null) {
var instance = finishedWork.stateNode;
var instanceToUse;
switch (finishedWork.tag) {
case HostComponent:
instanceToUse = getPublicInstance(instance);
break;
default:
instanceToUse = instance;
}
if (typeof ref === "function") {
var retVal;
if (finishedWork.mode & ProfileMode) {
try {
startLayoutEffectTimer();
retVal = ref(instanceToUse);
} finally {
recordLayoutEffectDuration(finishedWork);
}
} else {
retVal = ref(instanceToUse);
}
{
if (typeof retVal === "function") {
error("Unexpected return value from a callback ref in %s. A callback ref should not return a function.", getComponentNameFromFiber(finishedWork));
}
}
} else {
{
if (!ref.hasOwnProperty("current")) {
error("Unexpected ref object provided for %s. Use either a ref-setter function or React.createRef().", getComponentNameFromFiber(finishedWork));
}
}
ref.current = instanceToUse;
}
}
}
function detachFiberMutation(fiber) {
var alternate = fiber.alternate;
if (alternate !== null) {
alternate.return = null;
}
fiber.return = null;
}
function detachFiberAfterEffects(fiber) {
var alternate = fiber.alternate;
if (alternate !== null) {
fiber.alternate = null;
detachFiberAfterEffects(alternate);
}
{
fiber.child = null;
fiber.deletions = null;
fiber.sibling = null;
if (fiber.tag === HostComponent) {
var hostInstance = fiber.stateNode;
if (hostInstance !== null) {
detachDeletedInstance(hostInstance);
}
}
fiber.stateNode = null;
{
fiber._debugOwner = null;
}
{
fiber.return = null;
fiber.dependencies = null;
fiber.memoizedProps = null;
fiber.memoizedState = null;
fiber.pendingProps = null;
fiber.stateNode = null;
fiber.updateQueue = null;
}
}
}
function getHostParentFiber(fiber) {
var parent = fiber.return;
while (parent !== null) {
if (isHostParent(parent)) {
return parent;
}
parent = parent.return;
}
throw new Error("Expected to find a host parent. This error is likely caused by a bug in React. Please file an issue.");
}
function isHostParent(fiber) {
return fiber.tag === HostComponent || fiber.tag === HostRoot || fiber.tag === HostPortal;
}
function getHostSibling(fiber) {
var node = fiber;
siblings:
while (true) {
while (node.sibling === null) {
if (node.return === null || isHostParent(node.return)) {
return null;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
while (node.tag !== HostComponent && node.tag !== HostText && node.tag !== DehydratedFragment) {
if (node.flags & Placement) {
continue siblings;
}
if (node.child === null || node.tag === HostPortal) {
continue siblings;
} else {
node.child.return = node;
node = node.child;
}
}
if (!(node.flags & Placement)) {
return node.stateNode;
}
}
}
function commitPlacement(finishedWork) {
var parentFiber = getHostParentFiber(finishedWork);
switch (parentFiber.tag) {
case HostComponent: {
var parent = parentFiber.stateNode;
if (parentFiber.flags & ContentReset) {
resetTextContent(parent);
parentFiber.flags &= ~ContentReset;
}
var before = getHostSibling(finishedWork);
insertOrAppendPlacementNode(finishedWork, before, parent);
break;
}
case HostRoot:
case HostPortal: {
var _parent = parentFiber.stateNode.containerInfo;
var _before = getHostSibling(finishedWork);
insertOrAppendPlacementNodeIntoContainer(finishedWork, _before, _parent);
break;
}
default:
throw new Error("Invalid host parent fiber. This error is likely caused by a bug in React. Please file an issue.");
}
}
function insertOrAppendPlacementNodeIntoContainer(node, before, parent) {
var tag = node.tag;
var isHost = tag === HostComponent || tag === HostText;
if (isHost) {
var stateNode = node.stateNode;
if (before) {
insertInContainerBefore(parent, stateNode, before);
} else {
appendChildToContainer(parent, stateNode);
}
} else if (tag === HostPortal)
;
else {
var child = node.child;
if (child !== null) {
insertOrAppendPlacementNodeIntoContainer(child, before, parent);
var sibling = child.sibling;
while (sibling !== null) {
insertOrAppendPlacementNodeIntoContainer(sibling, before, parent);
sibling = sibling.sibling;
}
}
}
}
function insertOrAppendPlacementNode(node, before, parent) {
var tag = node.tag;
var isHost = tag === HostComponent || tag === HostText;
if (isHost) {
var stateNode = node.stateNode;
if (before) {
insertBefore(parent, stateNode, before);
} else {
appendChild(parent, stateNode);
}
} else if (tag === HostPortal)
;
else {
var child = node.child;
if (child !== null) {
insertOrAppendPlacementNode(child, before, parent);
var sibling = child.sibling;
while (sibling !== null) {
insertOrAppendPlacementNode(sibling, before, parent);
sibling = sibling.sibling;
}
}
}
}
var hostParent = null;
var hostParentIsContainer = false;
function commitDeletionEffects(root2, returnFiber, deletedFiber) {
{
var parent = returnFiber;
findParent:
while (parent !== null) {
switch (parent.tag) {
case HostComponent: {
hostParent = parent.stateNode;
hostParentIsContainer = false;
break findParent;
}
case HostRoot: {
hostParent = parent.stateNode.containerInfo;
hostParentIsContainer = true;
break findParent;
}
case HostPortal: {
hostParent = parent.stateNode.containerInfo;
hostParentIsContainer = true;
break findParent;
}
}
parent = parent.return;
}
if (hostParent === null) {
throw new Error("Expected to find a host parent. This error is likely caused by a bug in React. Please file an issue.");
}
commitDeletionEffectsOnFiber(root2, returnFiber, deletedFiber);
hostParent = null;
hostParentIsContainer = false;
}
detachFiberMutation(deletedFiber);
}
function recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, parent) {
var child = parent.child;
while (child !== null) {
commitDeletionEffectsOnFiber(finishedRoot, nearestMountedAncestor, child);
child = child.sibling;
}
}
function commitDeletionEffectsOnFiber(finishedRoot, nearestMountedAncestor, deletedFiber) {
onCommitUnmount(deletedFiber);
switch (deletedFiber.tag) {
case HostComponent: {
if (!offscreenSubtreeWasHidden) {
safelyDetachRef(deletedFiber, nearestMountedAncestor);
}
}
case HostText: {
{
var prevHostParent = hostParent;
var prevHostParentIsContainer = hostParentIsContainer;
hostParent = null;
recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, deletedFiber);
hostParent = prevHostParent;
hostParentIsContainer = prevHostParentIsContainer;
if (hostParent !== null) {
if (hostParentIsContainer) {
removeChildFromContainer(hostParent, deletedFiber.stateNode);
} else {
removeChild(hostParent, deletedFiber.stateNode);
}
}
}
return;
}
case DehydratedFragment: {
{
if (hostParent !== null) {
if (hostParentIsContainer) {
clearSuspenseBoundaryFromContainer(hostParent, deletedFiber.stateNode);
} else {
clearSuspenseBoundary(hostParent, deletedFiber.stateNode);
}
}
}
return;
}
case HostPortal: {
{
var _prevHostParent = hostParent;
var _prevHostParentIsContainer = hostParentIsContainer;
hostParent = deletedFiber.stateNode.containerInfo;
hostParentIsContainer = true;
recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, deletedFiber);
hostParent = _prevHostParent;
hostParentIsContainer = _prevHostParentIsContainer;
}
return;
}
case FunctionComponent:
case ForwardRef:
case MemoComponent:
case SimpleMemoComponent: {
if (!offscreenSubtreeWasHidden) {
var updateQueue = deletedFiber.updateQueue;
if (updateQueue !== null) {
var lastEffect = updateQueue.lastEffect;
if (lastEffect !== null) {
var firstEffect = lastEffect.next;
var effect = firstEffect;
do {
var _effect = effect, destroy = _effect.destroy, tag = _effect.tag;
if (destroy !== void 0) {
if ((tag & Insertion) !== NoFlags$1) {
safelyCallDestroy(deletedFiber, nearestMountedAncestor, destroy);
} else if ((tag & Layout) !== NoFlags$1) {
{
markComponentLayoutEffectUnmountStarted(deletedFiber);
}
if (deletedFiber.mode & ProfileMode) {
startLayoutEffectTimer();
safelyCallDestroy(deletedFiber, nearestMountedAncestor, destroy);
recordLayoutEffectDuration(deletedFiber);
} else {
safelyCallDestroy(deletedFiber, nearestMountedAncestor, destroy);
}
{
markComponentLayoutEffectUnmountStopped();
}
}
}
effect = effect.next;
} while (effect !== firstEffect);
}
}
}
recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, deletedFiber);
return;
}
case ClassComponent: {
if (!offscreenSubtreeWasHidden) {
safelyDetachRef(deletedFiber, nearestMountedAncestor);
var instance = deletedFiber.stateNode;
if (typeof instance.componentWillUnmount === "function") {
safelyCallComponentWillUnmount(deletedFiber, nearestMountedAncestor, instance);
}
}
recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, deletedFiber);
return;
}
case ScopeComponent: {
recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, deletedFiber);
return;
}
case OffscreenComponent: {
if (
// TODO: Remove this dead flag
deletedFiber.mode & ConcurrentMode
) {
var prevOffscreenSubtreeWasHidden = offscreenSubtreeWasHidden;
offscreenSubtreeWasHidden = prevOffscreenSubtreeWasHidden || deletedFiber.memoizedState !== null;
recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, deletedFiber);
offscreenSubtreeWasHidden = prevOffscreenSubtreeWasHidden;
} else {
recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, deletedFiber);
}
break;
}
default: {
recursivelyTraverseDeletionEffects(finishedRoot, nearestMountedAncestor, deletedFiber);
return;
}
}
}
function commitSuspenseCallback(finishedWork) {
var newState = finishedWork.memoizedState;
}
function commitSuspenseHydrationCallbacks(finishedRoot, finishedWork) {
var newState = finishedWork.memoizedState;
if (newState === null) {
var current2 = finishedWork.alternate;
if (current2 !== null) {
var prevState = current2.memoizedState;
if (prevState !== null) {
var suspenseInstance = prevState.dehydrated;
if (suspenseInstance !== null) {
commitHydratedSuspenseInstance(suspenseInstance);
}
}
}
}
}
function attachSuspenseRetryListeners(finishedWork) {
var wakeables = finishedWork.updateQueue;
if (wakeables !== null) {
finishedWork.updateQueue = null;
var retryCache = finishedWork.stateNode;
if (retryCache === null) {
retryCache = finishedWork.stateNode = new PossiblyWeakSet();
}
wakeables.forEach(function(wakeable) {
var retry = resolveRetryWakeable.bind(null, finishedWork, wakeable);
if (!retryCache.has(wakeable)) {
retryCache.add(wakeable);
{
if (isDevToolsPresent) {
if (inProgressLanes !== null && inProgressRoot !== null) {
restorePendingUpdaters(inProgressRoot, inProgressLanes);
} else {
throw Error("Expected finished root and lanes to be set. This is a bug in React.");
}
}
}
wakeable.then(retry, retry);
}
});
}
}
function commitMutationEffects(root2, finishedWork, committedLanes) {
inProgressLanes = committedLanes;
inProgressRoot = root2;
setCurrentFiber(finishedWork);
commitMutationEffectsOnFiber(finishedWork, root2);
setCurrentFiber(finishedWork);
inProgressLanes = null;
inProgressRoot = null;
}
function recursivelyTraverseMutationEffects(root2, parentFiber, lanes) {
var deletions = parentFiber.deletions;
if (deletions !== null) {
for (var i = 0; i < deletions.length; i++) {
var childToDelete = deletions[i];
try {
commitDeletionEffects(root2, parentFiber, childToDelete);
} catch (error2) {
captureCommitPhaseError(childToDelete, parentFiber, error2);
}
}
}
var prevDebugFiber = getCurrentFiber();
if (parentFiber.subtreeFlags & MutationMask) {
var child = parentFiber.child;
while (child !== null) {
setCurrentFiber(child);
commitMutationEffectsOnFiber(child, root2);
child = child.sibling;
}
}
setCurrentFiber(prevDebugFiber);
}
function commitMutationEffectsOnFiber(finishedWork, root2, lanes) {
var current2 = finishedWork.alternate;
var flags = finishedWork.flags;
switch (finishedWork.tag) {
case FunctionComponent:
case ForwardRef:
case MemoComponent:
case SimpleMemoComponent: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
if (flags & Update) {
try {
commitHookEffectListUnmount(Insertion | HasEffect, finishedWork, finishedWork.return);
commitHookEffectListMount(Insertion | HasEffect, finishedWork);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
if (finishedWork.mode & ProfileMode) {
try {
startLayoutEffectTimer();
commitHookEffectListUnmount(Layout | HasEffect, finishedWork, finishedWork.return);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
recordLayoutEffectDuration(finishedWork);
} else {
try {
commitHookEffectListUnmount(Layout | HasEffect, finishedWork, finishedWork.return);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
}
}
return;
}
case ClassComponent: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
if (flags & Ref) {
if (current2 !== null) {
safelyDetachRef(current2, current2.return);
}
}
return;
}
case HostComponent: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
if (flags & Ref) {
if (current2 !== null) {
safelyDetachRef(current2, current2.return);
}
}
{
if (finishedWork.flags & ContentReset) {
var instance = finishedWork.stateNode;
try {
resetTextContent(instance);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
}
if (flags & Update) {
var _instance4 = finishedWork.stateNode;
if (_instance4 != null) {
var newProps = finishedWork.memoizedProps;
var oldProps = current2 !== null ? current2.memoizedProps : newProps;
var type = finishedWork.type;
var updatePayload = finishedWork.updateQueue;
finishedWork.updateQueue = null;
if (updatePayload !== null) {
try {
commitUpdate(_instance4, updatePayload, type, oldProps, newProps, finishedWork);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
}
}
}
}
return;
}
case HostText: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
if (flags & Update) {
{
if (finishedWork.stateNode === null) {
throw new Error("This should have a text node initialized. This error is likely caused by a bug in React. Please file an issue.");
}
var textInstance = finishedWork.stateNode;
var newText = finishedWork.memoizedProps;
var oldText = current2 !== null ? current2.memoizedProps : newText;
try {
commitTextUpdate(textInstance, oldText, newText);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
}
}
return;
}
case HostRoot: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
if (flags & Update) {
{
if (current2 !== null) {
var prevRootState = current2.memoizedState;
if (prevRootState.isDehydrated) {
try {
commitHydratedContainer(root2.containerInfo);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
}
}
}
}
return;
}
case HostPortal: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
return;
}
case SuspenseComponent: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
var offscreenFiber = finishedWork.child;
if (offscreenFiber.flags & Visibility) {
var offscreenInstance = offscreenFiber.stateNode;
var newState = offscreenFiber.memoizedState;
var isHidden = newState !== null;
offscreenInstance.isHidden = isHidden;
if (isHidden) {
var wasHidden = offscreenFiber.alternate !== null && offscreenFiber.alternate.memoizedState !== null;
if (!wasHidden) {
markCommitTimeOfFallback();
}
}
}
if (flags & Update) {
try {
commitSuspenseCallback(finishedWork);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
attachSuspenseRetryListeners(finishedWork);
}
return;
}
case OffscreenComponent: {
var _wasHidden = current2 !== null && current2.memoizedState !== null;
if (
// TODO: Remove this dead flag
finishedWork.mode & ConcurrentMode
) {
var prevOffscreenSubtreeWasHidden = offscreenSubtreeWasHidden;
offscreenSubtreeWasHidden = prevOffscreenSubtreeWasHidden || _wasHidden;
recursivelyTraverseMutationEffects(root2, finishedWork);
offscreenSubtreeWasHidden = prevOffscreenSubtreeWasHidden;
} else {
recursivelyTraverseMutationEffects(root2, finishedWork);
}
commitReconciliationEffects(finishedWork);
if (flags & Visibility) {
var _offscreenInstance = finishedWork.stateNode;
var _newState = finishedWork.memoizedState;
var _isHidden = _newState !== null;
var offscreenBoundary = finishedWork;
_offscreenInstance.isHidden = _isHidden;
{
if (_isHidden) {
if (!_wasHidden) {
if ((offscreenBoundary.mode & ConcurrentMode) !== NoMode) {
nextEffect = offscreenBoundary;
var offscreenChild = offscreenBoundary.child;
while (offscreenChild !== null) {
nextEffect = offscreenChild;
disappearLayoutEffects_begin(offscreenChild);
offscreenChild = offscreenChild.sibling;
}
}
}
}
}
{
hideOrUnhideAllChildren(offscreenBoundary, _isHidden);
}
}
return;
}
case SuspenseListComponent: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
if (flags & Update) {
attachSuspenseRetryListeners(finishedWork);
}
return;
}
case ScopeComponent: {
return;
}
default: {
recursivelyTraverseMutationEffects(root2, finishedWork);
commitReconciliationEffects(finishedWork);
return;
}
}
}
function commitReconciliationEffects(finishedWork) {
var flags = finishedWork.flags;
if (flags & Placement) {
try {
commitPlacement(finishedWork);
} catch (error2) {
captureCommitPhaseError(finishedWork, finishedWork.return, error2);
}
finishedWork.flags &= ~Placement;
}
if (flags & Hydrating) {
finishedWork.flags &= ~Hydrating;
}
}
function commitLayoutEffects(finishedWork, root2, committedLanes) {
inProgressLanes = committedLanes;
inProgressRoot = root2;
nextEffect = finishedWork;
commitLayoutEffects_begin(finishedWork, root2, committedLanes);
inProgressLanes = null;
inProgressRoot = null;
}
function commitLayoutEffects_begin(subtreeRoot, root2, committedLanes) {
var isModernRoot = (subtreeRoot.mode & ConcurrentMode) !== NoMode;
while (nextEffect !== null) {
var fiber = nextEffect;
var firstChild = fiber.child;
if (fiber.tag === OffscreenComponent && isModernRoot) {
var isHidden = fiber.memoizedState !== null;
var newOffscreenSubtreeIsHidden = isHidden || offscreenSubtreeIsHidden;
if (newOffscreenSubtreeIsHidden) {
commitLayoutMountEffects_complete(subtreeRoot, root2, committedLanes);
continue;
} else {
var current2 = fiber.alternate;
var wasHidden = current2 !== null && current2.memoizedState !== null;
var newOffscreenSubtreeWasHidden = wasHidden || offscreenSubtreeWasHidden;
var prevOffscreenSubtreeIsHidden = offscreenSubtreeIsHidden;
var prevOffscreenSubtreeWasHidden = offscreenSubtreeWasHidden;
offscreenSubtreeIsHidden = newOffscreenSubtreeIsHidden;
offscreenSubtreeWasHidden = newOffscreenSubtreeWasHidden;
if (offscreenSubtreeWasHidden && !prevOffscreenSubtreeWasHidden) {
nextEffect = fiber;
reappearLayoutEffects_begin(fiber);
}
var child = firstChild;
while (child !== null) {
nextEffect = child;
commitLayoutEffects_begin(
child,
// New root; bubble back up to here and stop.
root2,
committedLanes
);
child = child.sibling;
}
nextEffect = fiber;
offscreenSubtreeIsHidden = prevOffscreenSubtreeIsHidden;
offscreenSubtreeWasHidden = prevOffscreenSubtreeWasHidden;
commitLayoutMountEffects_complete(subtreeRoot, root2, committedLanes);
continue;
}
}
if ((fiber.subtreeFlags & LayoutMask) !== NoFlags && firstChild !== null) {
firstChild.return = fiber;
nextEffect = firstChild;
} else {
commitLayoutMountEffects_complete(subtreeRoot, root2, committedLanes);
}
}
}
function commitLayoutMountEffects_complete(subtreeRoot, root2, committedLanes) {
while (nextEffect !== null) {
var fiber = nextEffect;
if ((fiber.flags & LayoutMask) !== NoFlags) {
var current2 = fiber.alternate;
setCurrentFiber(fiber);
try {
commitLayoutEffectOnFiber(root2, current2, fiber, committedLanes);
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
resetCurrentFiber();
}
if (fiber === subtreeRoot) {
nextEffect = null;
return;
}
var sibling = fiber.sibling;
if (sibling !== null) {
sibling.return = fiber.return;
nextEffect = sibling;
return;
}
nextEffect = fiber.return;
}
}
function disappearLayoutEffects_begin(subtreeRoot) {
while (nextEffect !== null) {
var fiber = nextEffect;
var firstChild = fiber.child;
switch (fiber.tag) {
case FunctionComponent:
case ForwardRef:
case MemoComponent:
case SimpleMemoComponent: {
if (fiber.mode & ProfileMode) {
try {
startLayoutEffectTimer();
commitHookEffectListUnmount(Layout, fiber, fiber.return);
} finally {
recordLayoutEffectDuration(fiber);
}
} else {
commitHookEffectListUnmount(Layout, fiber, fiber.return);
}
break;
}
case ClassComponent: {
safelyDetachRef(fiber, fiber.return);
var instance = fiber.stateNode;
if (typeof instance.componentWillUnmount === "function") {
safelyCallComponentWillUnmount(fiber, fiber.return, instance);
}
break;
}
case HostComponent: {
safelyDetachRef(fiber, fiber.return);
break;
}
case OffscreenComponent: {
var isHidden = fiber.memoizedState !== null;
if (isHidden) {
disappearLayoutEffects_complete(subtreeRoot);
continue;
}
break;
}
}
if (firstChild !== null) {
firstChild.return = fiber;
nextEffect = firstChild;
} else {
disappearLayoutEffects_complete(subtreeRoot);
}
}
}
function disappearLayoutEffects_complete(subtreeRoot) {
while (nextEffect !== null) {
var fiber = nextEffect;
if (fiber === subtreeRoot) {
nextEffect = null;
return;
}
var sibling = fiber.sibling;
if (sibling !== null) {
sibling.return = fiber.return;
nextEffect = sibling;
return;
}
nextEffect = fiber.return;
}
}
function reappearLayoutEffects_begin(subtreeRoot) {
while (nextEffect !== null) {
var fiber = nextEffect;
var firstChild = fiber.child;
if (fiber.tag === OffscreenComponent) {
var isHidden = fiber.memoizedState !== null;
if (isHidden) {
reappearLayoutEffects_complete(subtreeRoot);
continue;
}
}
if (firstChild !== null) {
firstChild.return = fiber;
nextEffect = firstChild;
} else {
reappearLayoutEffects_complete(subtreeRoot);
}
}
}
function reappearLayoutEffects_complete(subtreeRoot) {
while (nextEffect !== null) {
var fiber = nextEffect;
setCurrentFiber(fiber);
try {
reappearLayoutEffectsOnFiber(fiber);
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
resetCurrentFiber();
if (fiber === subtreeRoot) {
nextEffect = null;
return;
}
var sibling = fiber.sibling;
if (sibling !== null) {
sibling.return = fiber.return;
nextEffect = sibling;
return;
}
nextEffect = fiber.return;
}
}
function commitPassiveMountEffects(root2, finishedWork, committedLanes, committedTransitions) {
nextEffect = finishedWork;
commitPassiveMountEffects_begin(finishedWork, root2, committedLanes, committedTransitions);
}
function commitPassiveMountEffects_begin(subtreeRoot, root2, committedLanes, committedTransitions) {
while (nextEffect !== null) {
var fiber = nextEffect;
var firstChild = fiber.child;
if ((fiber.subtreeFlags & PassiveMask) !== NoFlags && firstChild !== null) {
firstChild.return = fiber;
nextEffect = firstChild;
} else {
commitPassiveMountEffects_complete(subtreeRoot, root2, committedLanes, committedTransitions);
}
}
}
function commitPassiveMountEffects_complete(subtreeRoot, root2, committedLanes, committedTransitions) {
while (nextEffect !== null) {
var fiber = nextEffect;
if ((fiber.flags & Passive) !== NoFlags) {
setCurrentFiber(fiber);
try {
commitPassiveMountOnFiber(root2, fiber, committedLanes, committedTransitions);
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
resetCurrentFiber();
}
if (fiber === subtreeRoot) {
nextEffect = null;
return;
}
var sibling = fiber.sibling;
if (sibling !== null) {
sibling.return = fiber.return;
nextEffect = sibling;
return;
}
nextEffect = fiber.return;
}
}
function commitPassiveMountOnFiber(finishedRoot, finishedWork, committedLanes, committedTransitions) {
switch (finishedWork.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
if (finishedWork.mode & ProfileMode) {
startPassiveEffectTimer();
try {
commitHookEffectListMount(Passive$1 | HasEffect, finishedWork);
} finally {
recordPassiveEffectDuration(finishedWork);
}
} else {
commitHookEffectListMount(Passive$1 | HasEffect, finishedWork);
}
break;
}
}
}
function commitPassiveUnmountEffects(firstChild) {
nextEffect = firstChild;
commitPassiveUnmountEffects_begin();
}
function commitPassiveUnmountEffects_begin() {
while (nextEffect !== null) {
var fiber = nextEffect;
var child = fiber.child;
if ((nextEffect.flags & ChildDeletion) !== NoFlags) {
var deletions = fiber.deletions;
if (deletions !== null) {
for (var i = 0; i < deletions.length; i++) {
var fiberToDelete = deletions[i];
nextEffect = fiberToDelete;
commitPassiveUnmountEffectsInsideOfDeletedTree_begin(fiberToDelete, fiber);
}
{
var previousFiber = fiber.alternate;
if (previousFiber !== null) {
var detachedChild = previousFiber.child;
if (detachedChild !== null) {
previousFiber.child = null;
do {
var detachedSibling = detachedChild.sibling;
detachedChild.sibling = null;
detachedChild = detachedSibling;
} while (detachedChild !== null);
}
}
}
nextEffect = fiber;
}
}
if ((fiber.subtreeFlags & PassiveMask) !== NoFlags && child !== null) {
child.return = fiber;
nextEffect = child;
} else {
commitPassiveUnmountEffects_complete();
}
}
}
function commitPassiveUnmountEffects_complete() {
while (nextEffect !== null) {
var fiber = nextEffect;
if ((fiber.flags & Passive) !== NoFlags) {
setCurrentFiber(fiber);
commitPassiveUnmountOnFiber(fiber);
resetCurrentFiber();
}
var sibling = fiber.sibling;
if (sibling !== null) {
sibling.return = fiber.return;
nextEffect = sibling;
return;
}
nextEffect = fiber.return;
}
}
function commitPassiveUnmountOnFiber(finishedWork) {
switch (finishedWork.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
if (finishedWork.mode & ProfileMode) {
startPassiveEffectTimer();
commitHookEffectListUnmount(Passive$1 | HasEffect, finishedWork, finishedWork.return);
recordPassiveEffectDuration(finishedWork);
} else {
commitHookEffectListUnmount(Passive$1 | HasEffect, finishedWork, finishedWork.return);
}
break;
}
}
}
function commitPassiveUnmountEffectsInsideOfDeletedTree_begin(deletedSubtreeRoot, nearestMountedAncestor) {
while (nextEffect !== null) {
var fiber = nextEffect;
setCurrentFiber(fiber);
commitPassiveUnmountInsideDeletedTreeOnFiber(fiber, nearestMountedAncestor);
resetCurrentFiber();
var child = fiber.child;
if (child !== null) {
child.return = fiber;
nextEffect = child;
} else {
commitPassiveUnmountEffectsInsideOfDeletedTree_complete(deletedSubtreeRoot);
}
}
}
function commitPassiveUnmountEffectsInsideOfDeletedTree_complete(deletedSubtreeRoot) {
while (nextEffect !== null) {
var fiber = nextEffect;
var sibling = fiber.sibling;
var returnFiber = fiber.return;
{
detachFiberAfterEffects(fiber);
if (fiber === deletedSubtreeRoot) {
nextEffect = null;
return;
}
}
if (sibling !== null) {
sibling.return = returnFiber;
nextEffect = sibling;
return;
}
nextEffect = returnFiber;
}
}
function commitPassiveUnmountInsideDeletedTreeOnFiber(current2, nearestMountedAncestor) {
switch (current2.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
if (current2.mode & ProfileMode) {
startPassiveEffectTimer();
commitHookEffectListUnmount(Passive$1, current2, nearestMountedAncestor);
recordPassiveEffectDuration(current2);
} else {
commitHookEffectListUnmount(Passive$1, current2, nearestMountedAncestor);
}
break;
}
}
}
function invokeLayoutEffectMountInDEV(fiber) {
{
switch (fiber.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
try {
commitHookEffectListMount(Layout | HasEffect, fiber);
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
break;
}
case ClassComponent: {
var instance = fiber.stateNode;
try {
instance.componentDidMount();
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
break;
}
}
}
}
function invokePassiveEffectMountInDEV(fiber) {
{
switch (fiber.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
try {
commitHookEffectListMount(Passive$1 | HasEffect, fiber);
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
break;
}
}
}
}
function invokeLayoutEffectUnmountInDEV(fiber) {
{
switch (fiber.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
try {
commitHookEffectListUnmount(Layout | HasEffect, fiber, fiber.return);
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
break;
}
case ClassComponent: {
var instance = fiber.stateNode;
if (typeof instance.componentWillUnmount === "function") {
safelyCallComponentWillUnmount(fiber, fiber.return, instance);
}
break;
}
}
}
}
function invokePassiveEffectUnmountInDEV(fiber) {
{
switch (fiber.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
try {
commitHookEffectListUnmount(Passive$1 | HasEffect, fiber, fiber.return);
} catch (error2) {
captureCommitPhaseError(fiber, fiber.return, error2);
}
}
}
}
}
var COMPONENT_TYPE = 0;
var HAS_PSEUDO_CLASS_TYPE = 1;
var ROLE_TYPE = 2;
var TEST_NAME_TYPE = 3;
var TEXT_TYPE = 4;
if (typeof Symbol === "function" && Symbol.for) {
var symbolFor = Symbol.for;
COMPONENT_TYPE = symbolFor("selector.component");
HAS_PSEUDO_CLASS_TYPE = symbolFor("selector.has_pseudo_class");
ROLE_TYPE = symbolFor("selector.role");
TEST_NAME_TYPE = symbolFor("selector.test_id");
TEXT_TYPE = symbolFor("selector.text");
}
var commitHooks = [];
function onCommitRoot$1() {
{
commitHooks.forEach(function(commitHook) {
return commitHook();
});
}
}
var ReactCurrentActQueue = ReactSharedInternals.ReactCurrentActQueue;
function isLegacyActEnvironment(fiber) {
{
var isReactActEnvironmentGlobal = (
// $FlowExpectedError Flow doesn't know about IS_REACT_ACT_ENVIRONMENT global
typeof IS_REACT_ACT_ENVIRONMENT !== "undefined" ? IS_REACT_ACT_ENVIRONMENT : void 0
);
var jestIsDefined = typeof jest !== "undefined";
return jestIsDefined && isReactActEnvironmentGlobal !== false;
}
}
function isConcurrentActEnvironment() {
{
var isReactActEnvironmentGlobal = (
// $FlowExpectedError Flow doesn't know about IS_REACT_ACT_ENVIRONMENT global
typeof IS_REACT_ACT_ENVIRONMENT !== "undefined" ? IS_REACT_ACT_ENVIRONMENT : void 0
);
if (!isReactActEnvironmentGlobal && ReactCurrentActQueue.current !== null) {
error("The current testing environment is not configured to support act(...)");
}
return isReactActEnvironmentGlobal;
}
}
var ceil = Math.ceil;
var ReactCurrentDispatcher$2 = ReactSharedInternals.ReactCurrentDispatcher, ReactCurrentOwner$2 = ReactSharedInternals.ReactCurrentOwner, ReactCurrentBatchConfig$3 = ReactSharedInternals.ReactCurrentBatchConfig, ReactCurrentActQueue$1 = ReactSharedInternals.ReactCurrentActQueue;
var NoContext = (
/* */
0
);
var BatchedContext = (
/* */
1
);
var RenderContext = (
/* */
2
);
var CommitContext = (
/* */
4
);
var RootInProgress = 0;
var RootFatalErrored = 1;
var RootErrored = 2;
var RootSuspended = 3;
var RootSuspendedWithDelay = 4;
var RootCompleted = 5;
var RootDidNotComplete = 6;
var executionContext = NoContext;
var workInProgressRoot = null;
var workInProgress = null;
var workInProgressRootRenderLanes = NoLanes;
var subtreeRenderLanes = NoLanes;
var subtreeRenderLanesCursor = createCursor(NoLanes);
var workInProgressRootExitStatus = RootInProgress;
var workInProgressRootFatalError = null;
var workInProgressRootIncludedLanes = NoLanes;
var workInProgressRootSkippedLanes = NoLanes;
var workInProgressRootInterleavedUpdatedLanes = NoLanes;
var workInProgressRootPingedLanes = NoLanes;
var workInProgressRootConcurrentErrors = null;
var workInProgressRootRecoverableErrors = null;
var globalMostRecentFallbackTime = 0;
var FALLBACK_THROTTLE_MS = 500;
var workInProgressRootRenderTargetTime = Infinity;
var RENDER_TIMEOUT_MS = 500;
var workInProgressTransitions = null;
function resetRenderTimer() {
workInProgressRootRenderTargetTime = now() + RENDER_TIMEOUT_MS;
}
function getRenderTargetTime() {
return workInProgressRootRenderTargetTime;
}
var hasUncaughtError = false;
var firstUncaughtError = null;
var legacyErrorBoundariesThatAlreadyFailed = null;
var rootDoesHavePassiveEffects = false;
var rootWithPendingPassiveEffects = null;
var pendingPassiveEffectsLanes = NoLanes;
var pendingPassiveProfilerEffects = [];
var pendingPassiveTransitions = null;
var NESTED_UPDATE_LIMIT = 50;
var nestedUpdateCount = 0;
var rootWithNestedUpdates = null;
var isFlushingPassiveEffects = false;
var didScheduleUpdateDuringPassiveEffects = false;
var NESTED_PASSIVE_UPDATE_LIMIT = 50;
var nestedPassiveUpdateCount = 0;
var rootWithPassiveNestedUpdates = null;
var currentEventTime = NoTimestamp;
var currentEventTransitionLane = NoLanes;
var isRunningInsertionEffect = false;
function getWorkInProgressRoot() {
return workInProgressRoot;
}
function requestEventTime() {
if ((executionContext & (RenderContext | CommitContext)) !== NoContext) {
return now();
}
if (currentEventTime !== NoTimestamp) {
return currentEventTime;
}
currentEventTime = now();
return currentEventTime;
}
function requestUpdateLane(fiber) {
var mode = fiber.mode;
if ((mode & ConcurrentMode) === NoMode) {
return SyncLane;
} else if ((executionContext & RenderContext) !== NoContext && workInProgressRootRenderLanes !== NoLanes) {
return pickArbitraryLane(workInProgressRootRenderLanes);
}
var isTransition = requestCurrentTransition() !== NoTransition;
if (isTransition) {
if (ReactCurrentBatchConfig$3.transition !== null) {
var transition = ReactCurrentBatchConfig$3.transition;
if (!transition._updatedFibers) {
transition._updatedFibers = /* @__PURE__ */ new Set();
}
transition._updatedFibers.add(fiber);
}
if (currentEventTransitionLane === NoLane) {
currentEventTransitionLane = claimNextTransitionLane();
}
return currentEventTransitionLane;
}
var updateLane = getCurrentUpdatePriority();
if (updateLane !== NoLane) {
return updateLane;
}
var eventLane = getCurrentEventPriority();
return eventLane;
}
function requestRetryLane(fiber) {
var mode = fiber.mode;
if ((mode & ConcurrentMode) === NoMode) {
return SyncLane;
}
return claimNextRetryLane();
}
function scheduleUpdateOnFiber(root2, fiber, lane, eventTime) {
checkForNestedUpdates();
{
if (isRunningInsertionEffect) {
error("useInsertionEffect must not schedule updates.");
}
}
{
if (isFlushingPassiveEffects) {
didScheduleUpdateDuringPassiveEffects = true;
}
}
markRootUpdated(root2, lane, eventTime);
if ((executionContext & RenderContext) !== NoLanes && root2 === workInProgressRoot) {
warnAboutRenderPhaseUpdatesInDEV(fiber);
} else {
{
if (isDevToolsPresent) {
addFiberToLanesMap(root2, fiber, lane);
}
}
warnIfUpdatesNotWrappedWithActDEV(fiber);
if (root2 === workInProgressRoot) {
if ((executionContext & RenderContext) === NoContext) {
workInProgressRootInterleavedUpdatedLanes = mergeLanes(workInProgressRootInterleavedUpdatedLanes, lane);
}
if (workInProgressRootExitStatus === RootSuspendedWithDelay) {
markRootSuspended$1(root2, workInProgressRootRenderLanes);
}
}
ensureRootIsScheduled(root2, eventTime);
if (lane === SyncLane && executionContext === NoContext && (fiber.mode & ConcurrentMode) === NoMode && // Treat `act` as if it's inside `batchedUpdates`, even in legacy mode.
!ReactCurrentActQueue$1.isBatchingLegacy) {
resetRenderTimer();
flushSyncCallbacksOnlyInLegacyMode();
}
}
}
function scheduleInitialHydrationOnRoot(root2, lane, eventTime) {
var current2 = root2.current;
current2.lanes = lane;
markRootUpdated(root2, lane, eventTime);
ensureRootIsScheduled(root2, eventTime);
}
function isUnsafeClassRenderPhaseUpdate(fiber) {
return (
// TODO: Remove outdated deferRenderPhaseUpdateToNextBatch experiment. We
// decided not to enable it.
(executionContext & RenderContext) !== NoContext
);
}
function ensureRootIsScheduled(root2, currentTime) {
var existingCallbackNode = root2.callbackNode;
markStarvedLanesAsExpired(root2, currentTime);
var nextLanes = getNextLanes(root2, root2 === workInProgressRoot ? workInProgressRootRenderLanes : NoLanes);
if (nextLanes === NoLanes) {
if (existingCallbackNode !== null) {
cancelCallback$1(existingCallbackNode);
}
root2.callbackNode = null;
root2.callbackPriority = NoLane;
return;
}
var newCallbackPriority = getHighestPriorityLane(nextLanes);
var existingCallbackPriority = root2.callbackPriority;
if (existingCallbackPriority === newCallbackPriority && // Special case related to `act`. If the currently scheduled task is a
// Scheduler task, rather than an `act` task, cancel it and re-scheduled
// on the `act` queue.
!(ReactCurrentActQueue$1.current !== null && existingCallbackNode !== fakeActCallbackNode)) {
{
if (existingCallbackNode == null && existingCallbackPriority !== SyncLane) {
error("Expected scheduled callback to exist. This error is likely caused by a bug in React. Please file an issue.");
}
}
return;
}
if (existingCallbackNode != null) {
cancelCallback$1(existingCallbackNode);
}
var newCallbackNode;
if (newCallbackPriority === SyncLane) {
if (root2.tag === LegacyRoot) {
if (ReactCurrentActQueue$1.isBatchingLegacy !== null) {
ReactCurrentActQueue$1.didScheduleLegacyUpdate = true;
}
scheduleLegacySyncCallback(performSyncWorkOnRoot.bind(null, root2));
} else {
scheduleSyncCallback(performSyncWorkOnRoot.bind(null, root2));
}
{
if (ReactCurrentActQueue$1.current !== null) {
ReactCurrentActQueue$1.current.push(flushSyncCallbacks);
} else {
scheduleMicrotask(function() {
if ((executionContext & (RenderContext | CommitContext)) === NoContext) {
flushSyncCallbacks();
}
});
}
}
newCallbackNode = null;
} else {
var schedulerPriorityLevel;
switch (lanesToEventPriority(nextLanes)) {
case DiscreteEventPriority:
schedulerPriorityLevel = ImmediatePriority;
break;
case ContinuousEventPriority:
schedulerPriorityLevel = UserBlockingPriority;
break;
case DefaultEventPriority:
schedulerPriorityLevel = NormalPriority;
break;
case IdleEventPriority:
schedulerPriorityLevel = IdlePriority;
break;
default:
schedulerPriorityLevel = NormalPriority;
break;
}
newCallbackNode = scheduleCallback$1(schedulerPriorityLevel, performConcurrentWorkOnRoot.bind(null, root2));
}
root2.callbackPriority = newCallbackPriority;
root2.callbackNode = newCallbackNode;
}
function performConcurrentWorkOnRoot(root2, didTimeout) {
{
resetNestedUpdateFlag();
}
currentEventTime = NoTimestamp;
currentEventTransitionLane = NoLanes;
if ((executionContext & (RenderContext | CommitContext)) !== NoContext) {
throw new Error("Should not already be working.");
}
var originalCallbackNode = root2.callbackNode;
var didFlushPassiveEffects = flushPassiveEffects();
if (didFlushPassiveEffects) {
if (root2.callbackNode !== originalCallbackNode) {
return null;
}
}
var lanes = getNextLanes(root2, root2 === workInProgressRoot ? workInProgressRootRenderLanes : NoLanes);
if (lanes === NoLanes) {
return null;
}
var shouldTimeSlice = !includesBlockingLane(root2, lanes) && !includesExpiredLane(root2, lanes) && !didTimeout;
var exitStatus = shouldTimeSlice ? renderRootConcurrent(root2, lanes) : renderRootSync(root2, lanes);
if (exitStatus !== RootInProgress) {
if (exitStatus === RootErrored) {
var errorRetryLanes = getLanesToRetrySynchronouslyOnError(root2);
if (errorRetryLanes !== NoLanes) {
lanes = errorRetryLanes;
exitStatus = recoverFromConcurrentError(root2, errorRetryLanes);
}
}
if (exitStatus === RootFatalErrored) {
var fatalError = workInProgressRootFatalError;
prepareFreshStack(root2, NoLanes);
markRootSuspended$1(root2, lanes);
ensureRootIsScheduled(root2, now());
throw fatalError;
}
if (exitStatus === RootDidNotComplete) {
markRootSuspended$1(root2, lanes);
} else {
var renderWasConcurrent = !includesBlockingLane(root2, lanes);
var finishedWork = root2.current.alternate;
if (renderWasConcurrent && !isRenderConsistentWithExternalStores(finishedWork)) {
exitStatus = renderRootSync(root2, lanes);
if (exitStatus === RootErrored) {
var _errorRetryLanes = getLanesToRetrySynchronouslyOnError(root2);
if (_errorRetryLanes !== NoLanes) {
lanes = _errorRetryLanes;
exitStatus = recoverFromConcurrentError(root2, _errorRetryLanes);
}
}
if (exitStatus === RootFatalErrored) {
var _fatalError = workInProgressRootFatalError;
prepareFreshStack(root2, NoLanes);
markRootSuspended$1(root2, lanes);
ensureRootIsScheduled(root2, now());
throw _fatalError;
}
}
root2.finishedWork = finishedWork;
root2.finishedLanes = lanes;
finishConcurrentRender(root2, exitStatus, lanes);
}
}
ensureRootIsScheduled(root2, now());
if (root2.callbackNode === originalCallbackNode) {
return performConcurrentWorkOnRoot.bind(null, root2);
}
return null;
}
function recoverFromConcurrentError(root2, errorRetryLanes) {
var errorsFromFirstAttempt = workInProgressRootConcurrentErrors;
if (isRootDehydrated(root2)) {
var rootWorkInProgress = prepareFreshStack(root2, errorRetryLanes);
rootWorkInProgress.flags |= ForceClientRender;
{
errorHydratingContainer(root2.containerInfo);
}
}
var exitStatus = renderRootSync(root2, errorRetryLanes);
if (exitStatus !== RootErrored) {
var errorsFromSecondAttempt = workInProgressRootRecoverableErrors;
workInProgressRootRecoverableErrors = errorsFromFirstAttempt;
if (errorsFromSecondAttempt !== null) {
queueRecoverableErrors(errorsFromSecondAttempt);
}
}
return exitStatus;
}
function queueRecoverableErrors(errors) {
if (workInProgressRootRecoverableErrors === null) {
workInProgressRootRecoverableErrors = errors;
} else {
workInProgressRootRecoverableErrors.push.apply(workInProgressRootRecoverableErrors, errors);
}
}
function finishConcurrentRender(root2, exitStatus, lanes) {
switch (exitStatus) {
case RootInProgress:
case RootFatalErrored: {
throw new Error("Root did not complete. This is a bug in React.");
}
case RootErrored: {
commitRoot(root2, workInProgressRootRecoverableErrors, workInProgressTransitions);
break;
}
case RootSuspended: {
markRootSuspended$1(root2, lanes);
if (includesOnlyRetries(lanes) && // do not delay if we're inside an act() scope
!shouldForceFlushFallbacksInDEV()) {
var msUntilTimeout = globalMostRecentFallbackTime + FALLBACK_THROTTLE_MS - now();
if (msUntilTimeout > 10) {
var nextLanes = getNextLanes(root2, NoLanes);
if (nextLanes !== NoLanes) {
break;
}
var suspendedLanes = root2.suspendedLanes;
if (!isSubsetOfLanes(suspendedLanes, lanes)) {
var eventTime = requestEventTime();
markRootPinged(root2, suspendedLanes);
break;
}
root2.timeoutHandle = scheduleTimeout(commitRoot.bind(null, root2, workInProgressRootRecoverableErrors, workInProgressTransitions), msUntilTimeout);
break;
}
}
commitRoot(root2, workInProgressRootRecoverableErrors, workInProgressTransitions);
break;
}
case RootSuspendedWithDelay: {
markRootSuspended$1(root2, lanes);
if (includesOnlyTransitions(lanes)) {
break;
}
if (!shouldForceFlushFallbacksInDEV()) {
var mostRecentEventTime = getMostRecentEventTime(root2, lanes);
var eventTimeMs = mostRecentEventTime;
var timeElapsedMs = now() - eventTimeMs;
var _msUntilTimeout = jnd(timeElapsedMs) - timeElapsedMs;
if (_msUntilTimeout > 10) {
root2.timeoutHandle = scheduleTimeout(commitRoot.bind(null, root2, workInProgressRootRecoverableErrors, workInProgressTransitions), _msUntilTimeout);
break;
}
}
commitRoot(root2, workInProgressRootRecoverableErrors, workInProgressTransitions);
break;
}
case RootCompleted: {
commitRoot(root2, workInProgressRootRecoverableErrors, workInProgressTransitions);
break;
}
default: {
throw new Error("Unknown root exit status.");
}
}
}
function isRenderConsistentWithExternalStores(finishedWork) {
var node = finishedWork;
while (true) {
if (node.flags & StoreConsistency) {
var updateQueue = node.updateQueue;
if (updateQueue !== null) {
var checks = updateQueue.stores;
if (checks !== null) {
for (var i = 0; i < checks.length; i++) {
var check = checks[i];
var getSnapshot = check.getSnapshot;
var renderedValue = check.value;
try {
if (!objectIs(getSnapshot(), renderedValue)) {
return false;
}
} catch (error2) {
return false;
}
}
}
}
}
var child = node.child;
if (node.subtreeFlags & StoreConsistency && child !== null) {
child.return = node;
node = child;
continue;
}
if (node === finishedWork) {
return true;
}
while (node.sibling === null) {
if (node.return === null || node.return === finishedWork) {
return true;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
return true;
}
function markRootSuspended$1(root2, suspendedLanes) {
suspendedLanes = removeLanes(suspendedLanes, workInProgressRootPingedLanes);
suspendedLanes = removeLanes(suspendedLanes, workInProgressRootInterleavedUpdatedLanes);
markRootSuspended(root2, suspendedLanes);
}
function performSyncWorkOnRoot(root2) {
{
syncNestedUpdateFlag();
}
if ((executionContext & (RenderContext | CommitContext)) !== NoContext) {
throw new Error("Should not already be working.");
}
flushPassiveEffects();
var lanes = getNextLanes(root2, NoLanes);
if (!includesSomeLane(lanes, SyncLane)) {
ensureRootIsScheduled(root2, now());
return null;
}
var exitStatus = renderRootSync(root2, lanes);
if (root2.tag !== LegacyRoot && exitStatus === RootErrored) {
var errorRetryLanes = getLanesToRetrySynchronouslyOnError(root2);
if (errorRetryLanes !== NoLanes) {
lanes = errorRetryLanes;
exitStatus = recoverFromConcurrentError(root2, errorRetryLanes);
}
}
if (exitStatus === RootFatalErrored) {
var fatalError = workInProgressRootFatalError;
prepareFreshStack(root2, NoLanes);
markRootSuspended$1(root2, lanes);
ensureRootIsScheduled(root2, now());
throw fatalError;
}
if (exitStatus === RootDidNotComplete) {
throw new Error("Root did not complete. This is a bug in React.");
}
var finishedWork = root2.current.alternate;
root2.finishedWork = finishedWork;
root2.finishedLanes = lanes;
commitRoot(root2, workInProgressRootRecoverableErrors, workInProgressTransitions);
ensureRootIsScheduled(root2, now());
return null;
}
function flushRoot(root2, lanes) {
if (lanes !== NoLanes) {
markRootEntangled(root2, mergeLanes(lanes, SyncLane));
ensureRootIsScheduled(root2, now());
if ((executionContext & (RenderContext | CommitContext)) === NoContext) {
resetRenderTimer();
flushSyncCallbacks();
}
}
}
function batchedUpdates$1(fn, a2) {
var prevExecutionContext = executionContext;
executionContext |= BatchedContext;
try {
return fn(a2);
} finally {
executionContext = prevExecutionContext;
if (executionContext === NoContext && // Treat `act` as if it's inside `batchedUpdates`, even in legacy mode.
!ReactCurrentActQueue$1.isBatchingLegacy) {
resetRenderTimer();
flushSyncCallbacksOnlyInLegacyMode();
}
}
}
function discreteUpdates(fn, a2, b2, c2, d2) {
var previousPriority = getCurrentUpdatePriority();
var prevTransition = ReactCurrentBatchConfig$3.transition;
try {
ReactCurrentBatchConfig$3.transition = null;
setCurrentUpdatePriority(DiscreteEventPriority);
return fn(a2, b2, c2, d2);
} finally {
setCurrentUpdatePriority(previousPriority);
ReactCurrentBatchConfig$3.transition = prevTransition;
if (executionContext === NoContext) {
resetRenderTimer();
}
}
}
function flushSync(fn) {
if (rootWithPendingPassiveEffects !== null && rootWithPendingPassiveEffects.tag === LegacyRoot && (executionContext & (RenderContext | CommitContext)) === NoContext) {
flushPassiveEffects();
}
var prevExecutionContext = executionContext;
executionContext |= BatchedContext;
var prevTransition = ReactCurrentBatchConfig$3.transition;
var previousPriority = getCurrentUpdatePriority();
try {
ReactCurrentBatchConfig$3.transition = null;
setCurrentUpdatePriority(DiscreteEventPriority);
if (fn) {
return fn();
} else {
return void 0;
}
} finally {
setCurrentUpdatePriority(previousPriority);
ReactCurrentBatchConfig$3.transition = prevTransition;
executionContext = prevExecutionContext;
if ((executionContext & (RenderContext | CommitContext)) === NoContext) {
flushSyncCallbacks();
}
}
}
function isAlreadyRendering() {
return (executionContext & (RenderContext | CommitContext)) !== NoContext;
}
function pushRenderLanes(fiber, lanes) {
push2(subtreeRenderLanesCursor, subtreeRenderLanes, fiber);
subtreeRenderLanes = mergeLanes(subtreeRenderLanes, lanes);
workInProgressRootIncludedLanes = mergeLanes(workInProgressRootIncludedLanes, lanes);
}
function popRenderLanes(fiber) {
subtreeRenderLanes = subtreeRenderLanesCursor.current;
pop(subtreeRenderLanesCursor, fiber);
}
function prepareFreshStack(root2, lanes) {
root2.finishedWork = null;
root2.finishedLanes = NoLanes;
var timeoutHandle = root2.timeoutHandle;
if (timeoutHandle !== noTimeout) {
root2.timeoutHandle = noTimeout;
cancelTimeout(timeoutHandle);
}
if (workInProgress !== null) {
var interruptedWork = workInProgress.return;
while (interruptedWork !== null) {
var current2 = interruptedWork.alternate;
unwindInterruptedWork(current2, interruptedWork);
interruptedWork = interruptedWork.return;
}
}
workInProgressRoot = root2;
var rootWorkInProgress = createWorkInProgress(root2.current, null);
workInProgress = rootWorkInProgress;
workInProgressRootRenderLanes = subtreeRenderLanes = workInProgressRootIncludedLanes = lanes;
workInProgressRootExitStatus = RootInProgress;
workInProgressRootFatalError = null;
workInProgressRootSkippedLanes = NoLanes;
workInProgressRootInterleavedUpdatedLanes = NoLanes;
workInProgressRootPingedLanes = NoLanes;
workInProgressRootConcurrentErrors = null;
workInProgressRootRecoverableErrors = null;
finishQueueingConcurrentUpdates();
{
ReactStrictModeWarnings.discardPendingWarnings();
}
return rootWorkInProgress;
}
function handleError(root2, thrownValue) {
do {
var erroredWork = workInProgress;
try {
resetContextDependencies();
resetHooksAfterThrow();
resetCurrentFiber();
ReactCurrentOwner$2.current = null;
if (erroredWork === null || erroredWork.return === null) {
workInProgressRootExitStatus = RootFatalErrored;
workInProgressRootFatalError = thrownValue;
workInProgress = null;
return;
}
if (enableProfilerTimer && erroredWork.mode & ProfileMode) {
stopProfilerTimerIfRunningAndRecordDelta(erroredWork, true);
}
if (enableSchedulingProfiler) {
markComponentRenderStopped();
if (thrownValue !== null && typeof thrownValue === "object" && typeof thrownValue.then === "function") {
var wakeable = thrownValue;
markComponentSuspended(erroredWork, wakeable, workInProgressRootRenderLanes);
} else {
markComponentErrored(erroredWork, thrownValue, workInProgressRootRenderLanes);
}
}
throwException(root2, erroredWork.return, erroredWork, thrownValue, workInProgressRootRenderLanes);
completeUnitOfWork(erroredWork);
} catch (yetAnotherThrownValue) {
thrownValue = yetAnotherThrownValue;
if (workInProgress === erroredWork && erroredWork !== null) {
erroredWork = erroredWork.return;
workInProgress = erroredWork;
} else {
erroredWork = workInProgress;
}
continue;
}
return;
} while (true);
}
function pushDispatcher() {
var prevDispatcher = ReactCurrentDispatcher$2.current;
ReactCurrentDispatcher$2.current = ContextOnlyDispatcher;
if (prevDispatcher === null) {
return ContextOnlyDispatcher;
} else {
return prevDispatcher;
}
}
function popDispatcher(prevDispatcher) {
ReactCurrentDispatcher$2.current = prevDispatcher;
}
function markCommitTimeOfFallback() {
globalMostRecentFallbackTime = now();
}
function markSkippedUpdateLanes(lane) {
workInProgressRootSkippedLanes = mergeLanes(lane, workInProgressRootSkippedLanes);
}
function renderDidSuspend() {
if (workInProgressRootExitStatus === RootInProgress) {
workInProgressRootExitStatus = RootSuspended;
}
}
function renderDidSuspendDelayIfPossible() {
if (workInProgressRootExitStatus === RootInProgress || workInProgressRootExitStatus === RootSuspended || workInProgressRootExitStatus === RootErrored) {
workInProgressRootExitStatus = RootSuspendedWithDelay;
}
if (workInProgressRoot !== null && (includesNonIdleWork(workInProgressRootSkippedLanes) || includesNonIdleWork(workInProgressRootInterleavedUpdatedLanes))) {
markRootSuspended$1(workInProgressRoot, workInProgressRootRenderLanes);
}
}
function renderDidError(error2) {
if (workInProgressRootExitStatus !== RootSuspendedWithDelay) {
workInProgressRootExitStatus = RootErrored;
}
if (workInProgressRootConcurrentErrors === null) {
workInProgressRootConcurrentErrors = [error2];
} else {
workInProgressRootConcurrentErrors.push(error2);
}
}
function renderHasNotSuspendedYet() {
return workInProgressRootExitStatus === RootInProgress;
}
function renderRootSync(root2, lanes) {
var prevExecutionContext = executionContext;
executionContext |= RenderContext;
var prevDispatcher = pushDispatcher();
if (workInProgressRoot !== root2 || workInProgressRootRenderLanes !== lanes) {
{
if (isDevToolsPresent) {
var memoizedUpdaters = root2.memoizedUpdaters;
if (memoizedUpdaters.size > 0) {
restorePendingUpdaters(root2, workInProgressRootRenderLanes);
memoizedUpdaters.clear();
}
movePendingFibersToMemoized(root2, lanes);
}
}
workInProgressTransitions = getTransitionsForLanes();
prepareFreshStack(root2, lanes);
}
{
markRenderStarted(lanes);
}
do {
try {
workLoopSync();
break;
} catch (thrownValue) {
handleError(root2, thrownValue);
}
} while (true);
resetContextDependencies();
executionContext = prevExecutionContext;
popDispatcher(prevDispatcher);
if (workInProgress !== null) {
throw new Error("Cannot commit an incomplete root. This error is likely caused by a bug in React. Please file an issue.");
}
{
markRenderStopped();
}
workInProgressRoot = null;
workInProgressRootRenderLanes = NoLanes;
return workInProgressRootExitStatus;
}
function workLoopSync() {
while (workInProgress !== null) {
performUnitOfWork(workInProgress);
}
}
function renderRootConcurrent(root2, lanes) {
var prevExecutionContext = executionContext;
executionContext |= RenderContext;
var prevDispatcher = pushDispatcher();
if (workInProgressRoot !== root2 || workInProgressRootRenderLanes !== lanes) {
{
if (isDevToolsPresent) {
var memoizedUpdaters = root2.memoizedUpdaters;
if (memoizedUpdaters.size > 0) {
restorePendingUpdaters(root2, workInProgressRootRenderLanes);
memoizedUpdaters.clear();
}
movePendingFibersToMemoized(root2, lanes);
}
}
workInProgressTransitions = getTransitionsForLanes();
resetRenderTimer();
prepareFreshStack(root2, lanes);
}
{
markRenderStarted(lanes);
}
do {
try {
workLoopConcurrent();
break;
} catch (thrownValue) {
handleError(root2, thrownValue);
}
} while (true);
resetContextDependencies();
popDispatcher(prevDispatcher);
executionContext = prevExecutionContext;
if (workInProgress !== null) {
{
markRenderYielded();
}
return RootInProgress;
} else {
{
markRenderStopped();
}
workInProgressRoot = null;
workInProgressRootRenderLanes = NoLanes;
return workInProgressRootExitStatus;
}
}
function workLoopConcurrent() {
while (workInProgress !== null && !shouldYield()) {
performUnitOfWork(workInProgress);
}
}
function performUnitOfWork(unitOfWork) {
var current2 = unitOfWork.alternate;
setCurrentFiber(unitOfWork);
var next;
if ((unitOfWork.mode & ProfileMode) !== NoMode) {
startProfilerTimer(unitOfWork);
next = beginWork$1(current2, unitOfWork, subtreeRenderLanes);
stopProfilerTimerIfRunningAndRecordDelta(unitOfWork, true);
} else {
next = beginWork$1(current2, unitOfWork, subtreeRenderLanes);
}
resetCurrentFiber();
unitOfWork.memoizedProps = unitOfWork.pendingProps;
if (next === null) {
completeUnitOfWork(unitOfWork);
} else {
workInProgress = next;
}
ReactCurrentOwner$2.current = null;
}
function completeUnitOfWork(unitOfWork) {
var completedWork = unitOfWork;
do {
var current2 = completedWork.alternate;
var returnFiber = completedWork.return;
if ((completedWork.flags & Incomplete) === NoFlags) {
setCurrentFiber(completedWork);
var next = void 0;
if ((completedWork.mode & ProfileMode) === NoMode) {
next = completeWork(current2, completedWork, subtreeRenderLanes);
} else {
startProfilerTimer(completedWork);
next = completeWork(current2, completedWork, subtreeRenderLanes);
stopProfilerTimerIfRunningAndRecordDelta(completedWork, false);
}
resetCurrentFiber();
if (next !== null) {
workInProgress = next;
return;
}
} else {
var _next = unwindWork(current2, completedWork);
if (_next !== null) {
_next.flags &= HostEffectMask;
workInProgress = _next;
return;
}
if ((completedWork.mode & ProfileMode) !== NoMode) {
stopProfilerTimerIfRunningAndRecordDelta(completedWork, false);
var actualDuration = completedWork.actualDuration;
var child = completedWork.child;
while (child !== null) {
actualDuration += child.actualDuration;
child = child.sibling;
}
completedWork.actualDuration = actualDuration;
}
if (returnFiber !== null) {
returnFiber.flags |= Incomplete;
returnFiber.subtreeFlags = NoFlags;
returnFiber.deletions = null;
} else {
workInProgressRootExitStatus = RootDidNotComplete;
workInProgress = null;
return;
}
}
var siblingFiber = completedWork.sibling;
if (siblingFiber !== null) {
workInProgress = siblingFiber;
return;
}
completedWork = returnFiber;
workInProgress = completedWork;
} while (completedWork !== null);
if (workInProgressRootExitStatus === RootInProgress) {
workInProgressRootExitStatus = RootCompleted;
}
}
function commitRoot(root2, recoverableErrors, transitions) {
var previousUpdateLanePriority = getCurrentUpdatePriority();
var prevTransition = ReactCurrentBatchConfig$3.transition;
try {
ReactCurrentBatchConfig$3.transition = null;
setCurrentUpdatePriority(DiscreteEventPriority);
commitRootImpl(root2, recoverableErrors, transitions, previousUpdateLanePriority);
} finally {
ReactCurrentBatchConfig$3.transition = prevTransition;
setCurrentUpdatePriority(previousUpdateLanePriority);
}
return null;
}
function commitRootImpl(root2, recoverableErrors, transitions, renderPriorityLevel) {
do {
flushPassiveEffects();
} while (rootWithPendingPassiveEffects !== null);
flushRenderPhaseStrictModeWarningsInDEV();
if ((executionContext & (RenderContext | CommitContext)) !== NoContext) {
throw new Error("Should not already be working.");
}
var finishedWork = root2.finishedWork;
var lanes = root2.finishedLanes;
{
markCommitStarted(lanes);
}
if (finishedWork === null) {
{
markCommitStopped();
}
return null;
} else {
{
if (lanes === NoLanes) {
error("root.finishedLanes should not be empty during a commit. This is a bug in React.");
}
}
}
root2.finishedWork = null;
root2.finishedLanes = NoLanes;
if (finishedWork === root2.current) {
throw new Error("Cannot commit the same tree as before. This error is likely caused by a bug in React. Please file an issue.");
}
root2.callbackNode = null;
root2.callbackPriority = NoLane;
var remainingLanes = mergeLanes(finishedWork.lanes, finishedWork.childLanes);
markRootFinished(root2, remainingLanes);
if (root2 === workInProgressRoot) {
workInProgressRoot = null;
workInProgress = null;
workInProgressRootRenderLanes = NoLanes;
}
if ((finishedWork.subtreeFlags & PassiveMask) !== NoFlags || (finishedWork.flags & PassiveMask) !== NoFlags) {
if (!rootDoesHavePassiveEffects) {
rootDoesHavePassiveEffects = true;
pendingPassiveTransitions = transitions;
scheduleCallback$1(NormalPriority, function() {
flushPassiveEffects();
return null;
});
}
}
var subtreeHasEffects = (finishedWork.subtreeFlags & (BeforeMutationMask | MutationMask | LayoutMask | PassiveMask)) !== NoFlags;
var rootHasEffect = (finishedWork.flags & (BeforeMutationMask | MutationMask | LayoutMask | PassiveMask)) !== NoFlags;
if (subtreeHasEffects || rootHasEffect) {
var prevTransition = ReactCurrentBatchConfig$3.transition;
ReactCurrentBatchConfig$3.transition = null;
var previousPriority = getCurrentUpdatePriority();
setCurrentUpdatePriority(DiscreteEventPriority);
var prevExecutionContext = executionContext;
executionContext |= CommitContext;
ReactCurrentOwner$2.current = null;
var shouldFireAfterActiveInstanceBlur2 = commitBeforeMutationEffects(root2, finishedWork);
{
recordCommitTime();
}
commitMutationEffects(root2, finishedWork, lanes);
resetAfterCommit(root2.containerInfo);
root2.current = finishedWork;
{
markLayoutEffectsStarted(lanes);
}
commitLayoutEffects(finishedWork, root2, lanes);
{
markLayoutEffectsStopped();
}
requestPaint();
executionContext = prevExecutionContext;
setCurrentUpdatePriority(previousPriority);
ReactCurrentBatchConfig$3.transition = prevTransition;
} else {
root2.current = finishedWork;
{
recordCommitTime();
}
}
var rootDidHavePassiveEffects = rootDoesHavePassiveEffects;
if (rootDoesHavePassiveEffects) {
rootDoesHavePassiveEffects = false;
rootWithPendingPassiveEffects = root2;
pendingPassiveEffectsLanes = lanes;
} else {
{
nestedPassiveUpdateCount = 0;
rootWithPassiveNestedUpdates = null;
}
}
remainingLanes = root2.pendingLanes;
if (remainingLanes === NoLanes) {
legacyErrorBoundariesThatAlreadyFailed = null;
}
{
if (!rootDidHavePassiveEffects) {
commitDoubleInvokeEffectsInDEV(root2.current, false);
}
}
onCommitRoot(finishedWork.stateNode, renderPriorityLevel);
{
if (isDevToolsPresent) {
root2.memoizedUpdaters.clear();
}
}
{
onCommitRoot$1();
}
ensureRootIsScheduled(root2, now());
if (recoverableErrors !== null) {
var onRecoverableError = root2.onRecoverableError;
for (var i = 0; i < recoverableErrors.length; i++) {
var recoverableError = recoverableErrors[i];
var componentStack = recoverableError.stack;
var digest = recoverableError.digest;
onRecoverableError(recoverableError.value, {
componentStack,
digest
});
}
}
if (hasUncaughtError) {
hasUncaughtError = false;
var error$1 = firstUncaughtError;
firstUncaughtError = null;
throw error$1;
}
if (includesSomeLane(pendingPassiveEffectsLanes, SyncLane) && root2.tag !== LegacyRoot) {
flushPassiveEffects();
}
remainingLanes = root2.pendingLanes;
if (includesSomeLane(remainingLanes, SyncLane)) {
{
markNestedUpdateScheduled();
}
if (root2 === rootWithNestedUpdates) {
nestedUpdateCount++;
} else {
nestedUpdateCount = 0;
rootWithNestedUpdates = root2;
}
} else {
nestedUpdateCount = 0;
}
flushSyncCallbacks();
{
markCommitStopped();
}
return null;
}
function flushPassiveEffects() {
if (rootWithPendingPassiveEffects !== null) {
var renderPriority = lanesToEventPriority(pendingPassiveEffectsLanes);
var priority = lowerEventPriority(DefaultEventPriority, renderPriority);
var prevTransition = ReactCurrentBatchConfig$3.transition;
var previousPriority = getCurrentUpdatePriority();
try {
ReactCurrentBatchConfig$3.transition = null;
setCurrentUpdatePriority(priority);
return flushPassiveEffectsImpl();
} finally {
setCurrentUpdatePriority(previousPriority);
ReactCurrentBatchConfig$3.transition = prevTransition;
}
}
return false;
}
function enqueuePendingPassiveProfilerEffect(fiber) {
{
pendingPassiveProfilerEffects.push(fiber);
if (!rootDoesHavePassiveEffects) {
rootDoesHavePassiveEffects = true;
scheduleCallback$1(NormalPriority, function() {
flushPassiveEffects();
return null;
});
}
}
}
function flushPassiveEffectsImpl() {
if (rootWithPendingPassiveEffects === null) {
return false;
}
var transitions = pendingPassiveTransitions;
pendingPassiveTransitions = null;
var root2 = rootWithPendingPassiveEffects;
var lanes = pendingPassiveEffectsLanes;
rootWithPendingPassiveEffects = null;
pendingPassiveEffectsLanes = NoLanes;
if ((executionContext & (RenderContext | CommitContext)) !== NoContext) {
throw new Error("Cannot flush passive effects while already rendering.");
}
{
isFlushingPassiveEffects = true;
didScheduleUpdateDuringPassiveEffects = false;
}
{
markPassiveEffectsStarted(lanes);
}
var prevExecutionContext = executionContext;
executionContext |= CommitContext;
commitPassiveUnmountEffects(root2.current);
commitPassiveMountEffects(root2, root2.current, lanes, transitions);
{
var profilerEffects = pendingPassiveProfilerEffects;
pendingPassiveProfilerEffects = [];
for (var i = 0; i < profilerEffects.length; i++) {
var _fiber = profilerEffects[i];
commitPassiveEffectDurations(root2, _fiber);
}
}
{
markPassiveEffectsStopped();
}
{
commitDoubleInvokeEffectsInDEV(root2.current, true);
}
executionContext = prevExecutionContext;
flushSyncCallbacks();
{
if (didScheduleUpdateDuringPassiveEffects) {
if (root2 === rootWithPassiveNestedUpdates) {
nestedPassiveUpdateCount++;
} else {
nestedPassiveUpdateCount = 0;
rootWithPassiveNestedUpdates = root2;
}
} else {
nestedPassiveUpdateCount = 0;
}
isFlushingPassiveEffects = false;
didScheduleUpdateDuringPassiveEffects = false;
}
onPostCommitRoot(root2);
{
var stateNode = root2.current.stateNode;
stateNode.effectDuration = 0;
stateNode.passiveEffectDuration = 0;
}
return true;
}
function isAlreadyFailedLegacyErrorBoundary(instance) {
return legacyErrorBoundariesThatAlreadyFailed !== null && legacyErrorBoundariesThatAlreadyFailed.has(instance);
}
function markLegacyErrorBoundaryAsFailed(instance) {
if (legacyErrorBoundariesThatAlreadyFailed === null) {
legacyErrorBoundariesThatAlreadyFailed = /* @__PURE__ */ new Set([instance]);
} else {
legacyErrorBoundariesThatAlreadyFailed.add(instance);
}
}
function prepareToThrowUncaughtError(error2) {
if (!hasUncaughtError) {
hasUncaughtError = true;
firstUncaughtError = error2;
}
}
var onUncaughtError = prepareToThrowUncaughtError;
function captureCommitPhaseErrorOnRoot(rootFiber, sourceFiber, error2) {
var errorInfo = createCapturedValueAtFiber(error2, sourceFiber);
var update = createRootErrorUpdate(rootFiber, errorInfo, SyncLane);
var root2 = enqueueUpdate(rootFiber, update, SyncLane);
var eventTime = requestEventTime();
if (root2 !== null) {
markRootUpdated(root2, SyncLane, eventTime);
ensureRootIsScheduled(root2, eventTime);
}
}
function captureCommitPhaseError(sourceFiber, nearestMountedAncestor, error$1) {
{
reportUncaughtErrorInDEV(error$1);
setIsRunningInsertionEffect(false);
}
if (sourceFiber.tag === HostRoot) {
captureCommitPhaseErrorOnRoot(sourceFiber, sourceFiber, error$1);
return;
}
var fiber = null;
{
fiber = nearestMountedAncestor;
}
while (fiber !== null) {
if (fiber.tag === HostRoot) {
captureCommitPhaseErrorOnRoot(fiber, sourceFiber, error$1);
return;
} else if (fiber.tag === ClassComponent) {
var ctor = fiber.type;
var instance = fiber.stateNode;
if (typeof ctor.getDerivedStateFromError === "function" || typeof instance.componentDidCatch === "function" && !isAlreadyFailedLegacyErrorBoundary(instance)) {
var errorInfo = createCapturedValueAtFiber(error$1, sourceFiber);
var update = createClassErrorUpdate(fiber, errorInfo, SyncLane);
var root2 = enqueueUpdate(fiber, update, SyncLane);
var eventTime = requestEventTime();
if (root2 !== null) {
markRootUpdated(root2, SyncLane, eventTime);
ensureRootIsScheduled(root2, eventTime);
}
return;
}
}
fiber = fiber.return;
}
{
error("Internal React error: Attempted to capture a commit phase error inside a detached tree. This indicates a bug in React. Likely causes include deleting the same fiber more than once, committing an already-finished tree, or an inconsistent return pointer.\n\nError message:\n\n%s", error$1);
}
}
function pingSuspendedRoot(root2, wakeable, pingedLanes) {
var pingCache = root2.pingCache;
if (pingCache !== null) {
pingCache.delete(wakeable);
}
var eventTime = requestEventTime();
markRootPinged(root2, pingedLanes);
warnIfSuspenseResolutionNotWrappedWithActDEV(root2);
if (workInProgressRoot === root2 && isSubsetOfLanes(workInProgressRootRenderLanes, pingedLanes)) {
if (workInProgressRootExitStatus === RootSuspendedWithDelay || workInProgressRootExitStatus === RootSuspended && includesOnlyRetries(workInProgressRootRenderLanes) && now() - globalMostRecentFallbackTime < FALLBACK_THROTTLE_MS) {
prepareFreshStack(root2, NoLanes);
} else {
workInProgressRootPingedLanes = mergeLanes(workInProgressRootPingedLanes, pingedLanes);
}
}
ensureRootIsScheduled(root2, eventTime);
}
function retryTimedOutBoundary(boundaryFiber, retryLane) {
if (retryLane === NoLane) {
retryLane = requestRetryLane(boundaryFiber);
}
var eventTime = requestEventTime();
var root2 = enqueueConcurrentRenderForLane(boundaryFiber, retryLane);
if (root2 !== null) {
markRootUpdated(root2, retryLane, eventTime);
ensureRootIsScheduled(root2, eventTime);
}
}
function retryDehydratedSuspenseBoundary(boundaryFiber) {
var suspenseState = boundaryFiber.memoizedState;
var retryLane = NoLane;
if (suspenseState !== null) {
retryLane = suspenseState.retryLane;
}
retryTimedOutBoundary(boundaryFiber, retryLane);
}
function resolveRetryWakeable(boundaryFiber, wakeable) {
var retryLane = NoLane;
var retryCache;
switch (boundaryFiber.tag) {
case SuspenseComponent:
retryCache = boundaryFiber.stateNode;
var suspenseState = boundaryFiber.memoizedState;
if (suspenseState !== null) {
retryLane = suspenseState.retryLane;
}
break;
case SuspenseListComponent:
retryCache = boundaryFiber.stateNode;
break;
default:
throw new Error("Pinged unknown suspense boundary type. This is probably a bug in React.");
}
if (retryCache !== null) {
retryCache.delete(wakeable);
}
retryTimedOutBoundary(boundaryFiber, retryLane);
}
function jnd(timeElapsed) {
return timeElapsed < 120 ? 120 : timeElapsed < 480 ? 480 : timeElapsed < 1080 ? 1080 : timeElapsed < 1920 ? 1920 : timeElapsed < 3e3 ? 3e3 : timeElapsed < 4320 ? 4320 : ceil(timeElapsed / 1960) * 1960;
}
function checkForNestedUpdates() {
if (nestedUpdateCount > NESTED_UPDATE_LIMIT) {
nestedUpdateCount = 0;
rootWithNestedUpdates = null;
throw new Error("Maximum update depth exceeded. This can happen when a component repeatedly calls setState inside componentWillUpdate or componentDidUpdate. React limits the number of nested updates to prevent infinite loops.");
}
{
if (nestedPassiveUpdateCount > NESTED_PASSIVE_UPDATE_LIMIT) {
nestedPassiveUpdateCount = 0;
rootWithPassiveNestedUpdates = null;
error("Maximum update depth exceeded. This can happen when a component calls setState inside useEffect, but useEffect either doesn't have a dependency array, or one of the dependencies changes on every render.");
}
}
}
function flushRenderPhaseStrictModeWarningsInDEV() {
{
ReactStrictModeWarnings.flushLegacyContextWarning();
{
ReactStrictModeWarnings.flushPendingUnsafeLifecycleWarnings();
}
}
}
function commitDoubleInvokeEffectsInDEV(fiber, hasPassiveEffects) {
{
setCurrentFiber(fiber);
invokeEffectsInDev(fiber, MountLayoutDev, invokeLayoutEffectUnmountInDEV);
if (hasPassiveEffects) {
invokeEffectsInDev(fiber, MountPassiveDev, invokePassiveEffectUnmountInDEV);
}
invokeEffectsInDev(fiber, MountLayoutDev, invokeLayoutEffectMountInDEV);
if (hasPassiveEffects) {
invokeEffectsInDev(fiber, MountPassiveDev, invokePassiveEffectMountInDEV);
}
resetCurrentFiber();
}
}
function invokeEffectsInDev(firstChild, fiberFlags, invokeEffectFn) {
{
var current2 = firstChild;
var subtreeRoot = null;
while (current2 !== null) {
var primarySubtreeFlag = current2.subtreeFlags & fiberFlags;
if (current2 !== subtreeRoot && current2.child !== null && primarySubtreeFlag !== NoFlags) {
current2 = current2.child;
} else {
if ((current2.flags & fiberFlags) !== NoFlags) {
invokeEffectFn(current2);
}
if (current2.sibling !== null) {
current2 = current2.sibling;
} else {
current2 = subtreeRoot = current2.return;
}
}
}
}
}
var didWarnStateUpdateForNotYetMountedComponent = null;
function warnAboutUpdateOnNotYetMountedFiberInDEV(fiber) {
{
if ((executionContext & RenderContext) !== NoContext) {
return;
}
if (!(fiber.mode & ConcurrentMode)) {
return;
}
var tag = fiber.tag;
if (tag !== IndeterminateComponent && tag !== HostRoot && tag !== ClassComponent && tag !== FunctionComponent && tag !== ForwardRef && tag !== MemoComponent && tag !== SimpleMemoComponent) {
return;
}
var componentName = getComponentNameFromFiber(fiber) || "ReactComponent";
if (didWarnStateUpdateForNotYetMountedComponent !== null) {
if (didWarnStateUpdateForNotYetMountedComponent.has(componentName)) {
return;
}
didWarnStateUpdateForNotYetMountedComponent.add(componentName);
} else {
didWarnStateUpdateForNotYetMountedComponent = /* @__PURE__ */ new Set([componentName]);
}
var previousFiber = current;
try {
setCurrentFiber(fiber);
error("Can't perform a React state update on a component that hasn't mounted yet. This indicates that you have a side-effect in your render function that asynchronously later calls tries to update the component. Move this work to useEffect instead.");
} finally {
if (previousFiber) {
setCurrentFiber(fiber);
} else {
resetCurrentFiber();
}
}
}
}
var beginWork$1;
{
var dummyFiber = null;
beginWork$1 = function(current2, unitOfWork, lanes) {
var originalWorkInProgressCopy = assignFiberPropertiesInDEV(dummyFiber, unitOfWork);
try {
return beginWork(current2, unitOfWork, lanes);
} catch (originalError) {
if (didSuspendOrErrorWhileHydratingDEV() || originalError !== null && typeof originalError === "object" && typeof originalError.then === "function") {
throw originalError;
}
resetContextDependencies();
resetHooksAfterThrow();
unwindInterruptedWork(current2, unitOfWork);
assignFiberPropertiesInDEV(unitOfWork, originalWorkInProgressCopy);
if (unitOfWork.mode & ProfileMode) {
startProfilerTimer(unitOfWork);
}
invokeGuardedCallback(null, beginWork, null, current2, unitOfWork, lanes);
if (hasCaughtError()) {
var replayError = clearCaughtError();
if (typeof replayError === "object" && replayError !== null && replayError._suppressLogging && typeof originalError === "object" && originalError !== null && !originalError._suppressLogging) {
originalError._suppressLogging = true;
}
}
throw originalError;
}
};
}
var didWarnAboutUpdateInRender = false;
var didWarnAboutUpdateInRenderForAnotherComponent;
{
didWarnAboutUpdateInRenderForAnotherComponent = /* @__PURE__ */ new Set();
}
function warnAboutRenderPhaseUpdatesInDEV(fiber) {
{
if (isRendering && !getIsUpdatingOpaqueValueInRenderPhaseInDEV()) {
switch (fiber.tag) {
case FunctionComponent:
case ForwardRef:
case SimpleMemoComponent: {
var renderingComponentName = workInProgress && getComponentNameFromFiber(workInProgress) || "Unknown";
var dedupeKey = renderingComponentName;
if (!didWarnAboutUpdateInRenderForAnotherComponent.has(dedupeKey)) {
didWarnAboutUpdateInRenderForAnotherComponent.add(dedupeKey);
var setStateComponentName = getComponentNameFromFiber(fiber) || "Unknown";
error("Cannot update a component (`%s`) while rendering a different component (`%s`). To locate the bad setState() call inside `%s`, follow the stack trace as described in https://reactjs.org/link/setstate-in-render", setStateComponentName, renderingComponentName, renderingComponentName);
}
break;
}
case ClassComponent: {
if (!didWarnAboutUpdateInRender) {
error("Cannot update during an existing state transition (such as within `render`). Render methods should be a pure function of props and state.");
didWarnAboutUpdateInRender = true;
}
break;
}
}
}
}
}
function restorePendingUpdaters(root2, lanes) {
{
if (isDevToolsPresent) {
var memoizedUpdaters = root2.memoizedUpdaters;
memoizedUpdaters.forEach(function(schedulingFiber) {
addFiberToLanesMap(root2, schedulingFiber, lanes);
});
}
}
}
var fakeActCallbackNode = {};
function scheduleCallback$1(priorityLevel, callback) {
{
var actQueue = ReactCurrentActQueue$1.current;
if (actQueue !== null) {
actQueue.push(callback);
return fakeActCallbackNode;
} else {
return scheduleCallback(priorityLevel, callback);
}
}
}
function cancelCallback$1(callbackNode) {
if (callbackNode === fakeActCallbackNode) {
return;
}
return cancelCallback(callbackNode);
}
function shouldForceFlushFallbacksInDEV() {
return ReactCurrentActQueue$1.current !== null;
}
function warnIfUpdatesNotWrappedWithActDEV(fiber) {
{
if (fiber.mode & ConcurrentMode) {
if (!isConcurrentActEnvironment()) {
return;
}
} else {
if (!isLegacyActEnvironment()) {
return;
}
if (executionContext !== NoContext) {
return;
}
if (fiber.tag !== FunctionComponent && fiber.tag !== ForwardRef && fiber.tag !== SimpleMemoComponent) {
return;
}
}
if (ReactCurrentActQueue$1.current === null) {
var previousFiber = current;
try {
setCurrentFiber(fiber);
error("An update to %s inside a test was not wrapped in act(...).\n\nWhen testing, code that causes React state updates should be wrapped into act(...):\n\nact(() => {\n /* fire events that update state */\n});\n/* assert on the output */\n\nThis ensures that you're testing the behavior the user would see in the browser. Learn more at https://reactjs.org/link/wrap-tests-with-act", getComponentNameFromFiber(fiber));
} finally {
if (previousFiber) {
setCurrentFiber(fiber);
} else {
resetCurrentFiber();
}
}
}
}
}
function warnIfSuspenseResolutionNotWrappedWithActDEV(root2) {
{
if (root2.tag !== LegacyRoot && isConcurrentActEnvironment() && ReactCurrentActQueue$1.current === null) {
error("A suspended resource finished loading inside a test, but the event was not wrapped in act(...).\n\nWhen testing, code that resolves suspended data should be wrapped into act(...):\n\nact(() => {\n /* finish loading suspended data */\n});\n/* assert on the output */\n\nThis ensures that you're testing the behavior the user would see in the browser. Learn more at https://reactjs.org/link/wrap-tests-with-act");
}
}
}
function setIsRunningInsertionEffect(isRunning) {
{
isRunningInsertionEffect = isRunning;
}
}
var resolveFamily = null;
var failedBoundaries = null;
var setRefreshHandler = function(handler) {
{
resolveFamily = handler;
}
};
function resolveFunctionForHotReloading(type) {
{
if (resolveFamily === null) {
return type;
}
var family = resolveFamily(type);
if (family === void 0) {
return type;
}
return family.current;
}
}
function resolveClassForHotReloading(type) {
return resolveFunctionForHotReloading(type);
}
function resolveForwardRefForHotReloading(type) {
{
if (resolveFamily === null) {
return type;
}
var family = resolveFamily(type);
if (family === void 0) {
if (type !== null && type !== void 0 && typeof type.render === "function") {
var currentRender = resolveFunctionForHotReloading(type.render);
if (type.render !== currentRender) {
var syntheticType = {
$$typeof: REACT_FORWARD_REF_TYPE,
render: currentRender
};
if (type.displayName !== void 0) {
syntheticType.displayName = type.displayName;
}
return syntheticType;
}
}
return type;
}
return family.current;
}
}
function isCompatibleFamilyForHotReloading(fiber, element) {
{
if (resolveFamily === null) {
return false;
}
var prevType = fiber.elementType;
var nextType = element.type;
var needsCompareFamilies = false;
var $$typeofNextType = typeof nextType === "object" && nextType !== null ? nextType.$$typeof : null;
switch (fiber.tag) {
case ClassComponent: {
if (typeof nextType === "function") {
needsCompareFamilies = true;
}
break;
}
case FunctionComponent: {
if (typeof nextType === "function") {
needsCompareFamilies = true;
} else if ($$typeofNextType === REACT_LAZY_TYPE) {
needsCompareFamilies = true;
}
break;
}
case ForwardRef: {
if ($$typeofNextType === REACT_FORWARD_REF_TYPE) {
needsCompareFamilies = true;
} else if ($$typeofNextType === REACT_LAZY_TYPE) {
needsCompareFamilies = true;
}
break;
}
case MemoComponent:
case SimpleMemoComponent: {
if ($$typeofNextType === REACT_MEMO_TYPE) {
needsCompareFamilies = true;
} else if ($$typeofNextType === REACT_LAZY_TYPE) {
needsCompareFamilies = true;
}
break;
}
default:
return false;
}
if (needsCompareFamilies) {
var prevFamily = resolveFamily(prevType);
if (prevFamily !== void 0 && prevFamily === resolveFamily(nextType)) {
return true;
}
}
return false;
}
}
function markFailedErrorBoundaryForHotReloading(fiber) {
{
if (resolveFamily === null) {
return;
}
if (typeof WeakSet !== "function") {
return;
}
if (failedBoundaries === null) {
failedBoundaries = /* @__PURE__ */ new WeakSet();
}
failedBoundaries.add(fiber);
}
}
var scheduleRefresh = function(root2, update) {
{
if (resolveFamily === null) {
return;
}
var staleFamilies = update.staleFamilies, updatedFamilies = update.updatedFamilies;
flushPassiveEffects();
flushSync(function() {
scheduleFibersWithFamiliesRecursively(root2.current, updatedFamilies, staleFamilies);
});
}
};
var scheduleRoot = function(root2, element) {
{
if (root2.context !== emptyContextObject) {
return;
}
flushPassiveEffects();
flushSync(function() {
updateContainer(element, root2, null, null);
});
}
};
function scheduleFibersWithFamiliesRecursively(fiber, updatedFamilies, staleFamilies) {
{
var alternate = fiber.alternate, child = fiber.child, sibling = fiber.sibling, tag = fiber.tag, type = fiber.type;
var candidateType = null;
switch (tag) {
case FunctionComponent:
case SimpleMemoComponent:
case ClassComponent:
candidateType = type;
break;
case ForwardRef:
candidateType = type.render;
break;
}
if (resolveFamily === null) {
throw new Error("Expected resolveFamily to be set during hot reload.");
}
var needsRender = false;
var needsRemount = false;
if (candidateType !== null) {
var family = resolveFamily(candidateType);
if (family !== void 0) {
if (staleFamilies.has(family)) {
needsRemount = true;
} else if (updatedFamilies.has(family)) {
if (tag === ClassComponent) {
needsRemount = true;
} else {
needsRender = true;
}
}
}
}
if (failedBoundaries !== null) {
if (failedBoundaries.has(fiber) || alternate !== null && failedBoundaries.has(alternate)) {
needsRemount = true;
}
}
if (needsRemount) {
fiber._debugNeedsRemount = true;
}
if (needsRemount || needsRender) {
var _root = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (_root !== null) {
scheduleUpdateOnFiber(_root, fiber, SyncLane, NoTimestamp);
}
}
if (child !== null && !needsRemount) {
scheduleFibersWithFamiliesRecursively(child, updatedFamilies, staleFamilies);
}
if (sibling !== null) {
scheduleFibersWithFamiliesRecursively(sibling, updatedFamilies, staleFamilies);
}
}
}
var findHostInstancesForRefresh = function(root2, families) {
{
var hostInstances = /* @__PURE__ */ new Set();
var types = new Set(families.map(function(family) {
return family.current;
}));
findHostInstancesForMatchingFibersRecursively(root2.current, types, hostInstances);
return hostInstances;
}
};
function findHostInstancesForMatchingFibersRecursively(fiber, types, hostInstances) {
{
var child = fiber.child, sibling = fiber.sibling, tag = fiber.tag, type = fiber.type;
var candidateType = null;
switch (tag) {
case FunctionComponent:
case SimpleMemoComponent:
case ClassComponent:
candidateType = type;
break;
case ForwardRef:
candidateType = type.render;
break;
}
var didMatch = false;
if (candidateType !== null) {
if (types.has(candidateType)) {
didMatch = true;
}
}
if (didMatch) {
findHostInstancesForFiberShallowly(fiber, hostInstances);
} else {
if (child !== null) {
findHostInstancesForMatchingFibersRecursively(child, types, hostInstances);
}
}
if (sibling !== null) {
findHostInstancesForMatchingFibersRecursively(sibling, types, hostInstances);
}
}
}
function findHostInstancesForFiberShallowly(fiber, hostInstances) {
{
var foundHostInstances = findChildHostInstancesForFiberShallowly(fiber, hostInstances);
if (foundHostInstances) {
return;
}
var node = fiber;
while (true) {
switch (node.tag) {
case HostComponent:
hostInstances.add(node.stateNode);
return;
case HostPortal:
hostInstances.add(node.stateNode.containerInfo);
return;
case HostRoot:
hostInstances.add(node.stateNode.containerInfo);
return;
}
if (node.return === null) {
throw new Error("Expected to reach root first.");
}
node = node.return;
}
}
}
function findChildHostInstancesForFiberShallowly(fiber, hostInstances) {
{
var node = fiber;
var foundHostInstances = false;
while (true) {
if (node.tag === HostComponent) {
foundHostInstances = true;
hostInstances.add(node.stateNode);
} else if (node.child !== null) {
node.child.return = node;
node = node.child;
continue;
}
if (node === fiber) {
return foundHostInstances;
}
while (node.sibling === null) {
if (node.return === null || node.return === fiber) {
return foundHostInstances;
}
node = node.return;
}
node.sibling.return = node.return;
node = node.sibling;
}
}
return false;
}
var hasBadMapPolyfill;
{
hasBadMapPolyfill = false;
try {
var nonExtensibleObject = Object.preventExtensions({});
/* @__PURE__ */ new Map([[nonExtensibleObject, null]]);
/* @__PURE__ */ new Set([nonExtensibleObject]);
} catch (e) {
hasBadMapPolyfill = true;
}
}
function FiberNode(tag, pendingProps, key, mode) {
this.tag = tag;
this.key = key;
this.elementType = null;
this.type = null;
this.stateNode = null;
this.return = null;
this.child = null;
this.sibling = null;
this.index = 0;
this.ref = null;
this.pendingProps = pendingProps;
this.memoizedProps = null;
this.updateQueue = null;
this.memoizedState = null;
this.dependencies = null;
this.mode = mode;
this.flags = NoFlags;
this.subtreeFlags = NoFlags;
this.deletions = null;
this.lanes = NoLanes;
this.childLanes = NoLanes;
this.alternate = null;
{
this.actualDuration = Number.NaN;
this.actualStartTime = Number.NaN;
this.selfBaseDuration = Number.NaN;
this.treeBaseDuration = Number.NaN;
this.actualDuration = 0;
this.actualStartTime = -1;
this.selfBaseDuration = 0;
this.treeBaseDuration = 0;
}
{
this._debugSource = null;
this._debugOwner = null;
this._debugNeedsRemount = false;
this._debugHookTypes = null;
if (!hasBadMapPolyfill && typeof Object.preventExtensions === "function") {
Object.preventExtensions(this);
}
}
}
var createFiber = function(tag, pendingProps, key, mode) {
return new FiberNode(tag, pendingProps, key, mode);
};
function shouldConstruct$1(Component) {
var prototype = Component.prototype;
return !!(prototype && prototype.isReactComponent);
}
function isSimpleFunctionComponent(type) {
return typeof type === "function" && !shouldConstruct$1(type) && type.defaultProps === void 0;
}
function resolveLazyComponentTag(Component) {
if (typeof Component === "function") {
return shouldConstruct$1(Component) ? ClassComponent : FunctionComponent;
} else if (Component !== void 0 && Component !== null) {
var $$typeof = Component.$$typeof;
if ($$typeof === REACT_FORWARD_REF_TYPE) {
return ForwardRef;
}
if ($$typeof === REACT_MEMO_TYPE) {
return MemoComponent;
}
}
return IndeterminateComponent;
}
function createWorkInProgress(current2, pendingProps) {
var workInProgress2 = current2.alternate;
if (workInProgress2 === null) {
workInProgress2 = createFiber(current2.tag, pendingProps, current2.key, current2.mode);
workInProgress2.elementType = current2.elementType;
workInProgress2.type = current2.type;
workInProgress2.stateNode = current2.stateNode;
{
workInProgress2._debugSource = current2._debugSource;
workInProgress2._debugOwner = current2._debugOwner;
workInProgress2._debugHookTypes = current2._debugHookTypes;
}
workInProgress2.alternate = current2;
current2.alternate = workInProgress2;
} else {
workInProgress2.pendingProps = pendingProps;
workInProgress2.type = current2.type;
workInProgress2.flags = NoFlags;
workInProgress2.subtreeFlags = NoFlags;
workInProgress2.deletions = null;
{
workInProgress2.actualDuration = 0;
workInProgress2.actualStartTime = -1;
}
}
workInProgress2.flags = current2.flags & StaticMask;
workInProgress2.childLanes = current2.childLanes;
workInProgress2.lanes = current2.lanes;
workInProgress2.child = current2.child;
workInProgress2.memoizedProps = current2.memoizedProps;
workInProgress2.memoizedState = current2.memoizedState;
workInProgress2.updateQueue = current2.updateQueue;
var currentDependencies = current2.dependencies;
workInProgress2.dependencies = currentDependencies === null ? null : {
lanes: currentDependencies.lanes,
firstContext: currentDependencies.firstContext
};
workInProgress2.sibling = current2.sibling;
workInProgress2.index = current2.index;
workInProgress2.ref = current2.ref;
{
workInProgress2.selfBaseDuration = current2.selfBaseDuration;
workInProgress2.treeBaseDuration = current2.treeBaseDuration;
}
{
workInProgress2._debugNeedsRemount = current2._debugNeedsRemount;
switch (workInProgress2.tag) {
case IndeterminateComponent:
case FunctionComponent:
case SimpleMemoComponent:
workInProgress2.type = resolveFunctionForHotReloading(current2.type);
break;
case ClassComponent:
workInProgress2.type = resolveClassForHotReloading(current2.type);
break;
case ForwardRef:
workInProgress2.type = resolveForwardRefForHotReloading(current2.type);
break;
}
}
return workInProgress2;
}
function resetWorkInProgress(workInProgress2, renderLanes2) {
workInProgress2.flags &= StaticMask | Placement;
var current2 = workInProgress2.alternate;
if (current2 === null) {
workInProgress2.childLanes = NoLanes;
workInProgress2.lanes = renderLanes2;
workInProgress2.child = null;
workInProgress2.subtreeFlags = NoFlags;
workInProgress2.memoizedProps = null;
workInProgress2.memoizedState = null;
workInProgress2.updateQueue = null;
workInProgress2.dependencies = null;
workInProgress2.stateNode = null;
{
workInProgress2.selfBaseDuration = 0;
workInProgress2.treeBaseDuration = 0;
}
} else {
workInProgress2.childLanes = current2.childLanes;
workInProgress2.lanes = current2.lanes;
workInProgress2.child = current2.child;
workInProgress2.subtreeFlags = NoFlags;
workInProgress2.deletions = null;
workInProgress2.memoizedProps = current2.memoizedProps;
workInProgress2.memoizedState = current2.memoizedState;
workInProgress2.updateQueue = current2.updateQueue;
workInProgress2.type = current2.type;
var currentDependencies = current2.dependencies;
workInProgress2.dependencies = currentDependencies === null ? null : {
lanes: currentDependencies.lanes,
firstContext: currentDependencies.firstContext
};
{
workInProgress2.selfBaseDuration = current2.selfBaseDuration;
workInProgress2.treeBaseDuration = current2.treeBaseDuration;
}
}
return workInProgress2;
}
function createHostRootFiber(tag, isStrictMode, concurrentUpdatesByDefaultOverride) {
var mode;
if (tag === ConcurrentRoot) {
mode = ConcurrentMode;
if (isStrictMode === true) {
mode |= StrictLegacyMode;
{
mode |= StrictEffectsMode;
}
}
} else {
mode = NoMode;
}
if (isDevToolsPresent) {
mode |= ProfileMode;
}
return createFiber(HostRoot, null, null, mode);
}
function createFiberFromTypeAndProps(type, key, pendingProps, owner, mode, lanes) {
var fiberTag = IndeterminateComponent;
var resolvedType = type;
if (typeof type === "function") {
if (shouldConstruct$1(type)) {
fiberTag = ClassComponent;
{
resolvedType = resolveClassForHotReloading(resolvedType);
}
} else {
{
resolvedType = resolveFunctionForHotReloading(resolvedType);
}
}
} else if (typeof type === "string") {
fiberTag = HostComponent;
} else {
getTag:
switch (type) {
case REACT_FRAGMENT_TYPE:
return createFiberFromFragment(pendingProps.children, mode, lanes, key);
case REACT_STRICT_MODE_TYPE:
fiberTag = Mode;
mode |= StrictLegacyMode;
if ((mode & ConcurrentMode) !== NoMode) {
mode |= StrictEffectsMode;
}
break;
case REACT_PROFILER_TYPE:
return createFiberFromProfiler(pendingProps, mode, lanes, key);
case REACT_SUSPENSE_TYPE:
return createFiberFromSuspense(pendingProps, mode, lanes, key);
case REACT_SUSPENSE_LIST_TYPE:
return createFiberFromSuspenseList(pendingProps, mode, lanes, key);
case REACT_OFFSCREEN_TYPE:
return createFiberFromOffscreen(pendingProps, mode, lanes, key);
case REACT_LEGACY_HIDDEN_TYPE:
case REACT_SCOPE_TYPE:
case REACT_CACHE_TYPE:
case REACT_TRACING_MARKER_TYPE:
case REACT_DEBUG_TRACING_MODE_TYPE:
default: {
if (typeof type === "object" && type !== null) {
switch (type.$$typeof) {
case REACT_PROVIDER_TYPE:
fiberTag = ContextProvider;
break getTag;
case REACT_CONTEXT_TYPE:
fiberTag = ContextConsumer;
break getTag;
case REACT_FORWARD_REF_TYPE:
fiberTag = ForwardRef;
{
resolvedType = resolveForwardRefForHotReloading(resolvedType);
}
break getTag;
case REACT_MEMO_TYPE:
fiberTag = MemoComponent;
break getTag;
case REACT_LAZY_TYPE:
fiberTag = LazyComponent;
resolvedType = null;
break getTag;
}
}
var info = "";
{
if (type === void 0 || typeof type === "object" && type !== null && Object.keys(type).length === 0) {
info += " You likely forgot to export your component from the file it's defined in, or you might have mixed up default and named imports.";
}
var ownerName = owner ? getComponentNameFromFiber(owner) : null;
if (ownerName) {
info += "\n\nCheck the render method of `" + ownerName + "`.";
}
}
throw new Error("Element type is invalid: expected a string (for built-in components) or a class/function (for composite components) " + ("but got: " + (type == null ? type : typeof type) + "." + info));
}
}
}
var fiber = createFiber(fiberTag, pendingProps, key, mode);
fiber.elementType = type;
fiber.type = resolvedType;
fiber.lanes = lanes;
{
fiber._debugOwner = owner;
}
return fiber;
}
function createFiberFromElement(element, mode, lanes) {
var owner = null;
{
owner = element._owner;
}
var type = element.type;
var key = element.key;
var pendingProps = element.props;
var fiber = createFiberFromTypeAndProps(type, key, pendingProps, owner, mode, lanes);
{
fiber._debugSource = element._source;
fiber._debugOwner = element._owner;
}
return fiber;
}
function createFiberFromFragment(elements, mode, lanes, key) {
var fiber = createFiber(Fragment12, elements, key, mode);
fiber.lanes = lanes;
return fiber;
}
function createFiberFromProfiler(pendingProps, mode, lanes, key) {
{
if (typeof pendingProps.id !== "string") {
error('Profiler must specify an "id" of type `string` as a prop. Received the type `%s` instead.', typeof pendingProps.id);
}
}
var fiber = createFiber(Profiler, pendingProps, key, mode | ProfileMode);
fiber.elementType = REACT_PROFILER_TYPE;
fiber.lanes = lanes;
{
fiber.stateNode = {
effectDuration: 0,
passiveEffectDuration: 0
};
}
return fiber;
}
function createFiberFromSuspense(pendingProps, mode, lanes, key) {
var fiber = createFiber(SuspenseComponent, pendingProps, key, mode);
fiber.elementType = REACT_SUSPENSE_TYPE;
fiber.lanes = lanes;
return fiber;
}
function createFiberFromSuspenseList(pendingProps, mode, lanes, key) {
var fiber = createFiber(SuspenseListComponent, pendingProps, key, mode);
fiber.elementType = REACT_SUSPENSE_LIST_TYPE;
fiber.lanes = lanes;
return fiber;
}
function createFiberFromOffscreen(pendingProps, mode, lanes, key) {
var fiber = createFiber(OffscreenComponent, pendingProps, key, mode);
fiber.elementType = REACT_OFFSCREEN_TYPE;
fiber.lanes = lanes;
var primaryChildInstance = {
isHidden: false
};
fiber.stateNode = primaryChildInstance;
return fiber;
}
function createFiberFromText(content, mode, lanes) {
var fiber = createFiber(HostText, content, null, mode);
fiber.lanes = lanes;
return fiber;
}
function createFiberFromHostInstanceForDeletion() {
var fiber = createFiber(HostComponent, null, null, NoMode);
fiber.elementType = "DELETED";
return fiber;
}
function createFiberFromDehydratedFragment(dehydratedNode) {
var fiber = createFiber(DehydratedFragment, null, null, NoMode);
fiber.stateNode = dehydratedNode;
return fiber;
}
function createFiberFromPortal(portal, mode, lanes) {
var pendingProps = portal.children !== null ? portal.children : [];
var fiber = createFiber(HostPortal, pendingProps, portal.key, mode);
fiber.lanes = lanes;
fiber.stateNode = {
containerInfo: portal.containerInfo,
pendingChildren: null,
// Used by persistent updates
implementation: portal.implementation
};
return fiber;
}
function assignFiberPropertiesInDEV(target, source) {
if (target === null) {
target = createFiber(IndeterminateComponent, null, null, NoMode);
}
target.tag = source.tag;
target.key = source.key;
target.elementType = source.elementType;
target.type = source.type;
target.stateNode = source.stateNode;
target.return = source.return;
target.child = source.child;
target.sibling = source.sibling;
target.index = source.index;
target.ref = source.ref;
target.pendingProps = source.pendingProps;
target.memoizedProps = source.memoizedProps;
target.updateQueue = source.updateQueue;
target.memoizedState = source.memoizedState;
target.dependencies = source.dependencies;
target.mode = source.mode;
target.flags = source.flags;
target.subtreeFlags = source.subtreeFlags;
target.deletions = source.deletions;
target.lanes = source.lanes;
target.childLanes = source.childLanes;
target.alternate = source.alternate;
{
target.actualDuration = source.actualDuration;
target.actualStartTime = source.actualStartTime;
target.selfBaseDuration = source.selfBaseDuration;
target.treeBaseDuration = source.treeBaseDuration;
}
target._debugSource = source._debugSource;
target._debugOwner = source._debugOwner;
target._debugNeedsRemount = source._debugNeedsRemount;
target._debugHookTypes = source._debugHookTypes;
return target;
}
function FiberRootNode(containerInfo, tag, hydrate2, identifierPrefix, onRecoverableError) {
this.tag = tag;
this.containerInfo = containerInfo;
this.pendingChildren = null;
this.current = null;
this.pingCache = null;
this.finishedWork = null;
this.timeoutHandle = noTimeout;
this.context = null;
this.pendingContext = null;
this.callbackNode = null;
this.callbackPriority = NoLane;
this.eventTimes = createLaneMap(NoLanes);
this.expirationTimes = createLaneMap(NoTimestamp);
this.pendingLanes = NoLanes;
this.suspendedLanes = NoLanes;
this.pingedLanes = NoLanes;
this.expiredLanes = NoLanes;
this.mutableReadLanes = NoLanes;
this.finishedLanes = NoLanes;
this.entangledLanes = NoLanes;
this.entanglements = createLaneMap(NoLanes);
this.identifierPrefix = identifierPrefix;
this.onRecoverableError = onRecoverableError;
{
this.mutableSourceEagerHydrationData = null;
}
{
this.effectDuration = 0;
this.passiveEffectDuration = 0;
}
{
this.memoizedUpdaters = /* @__PURE__ */ new Set();
var pendingUpdatersLaneMap = this.pendingUpdatersLaneMap = [];
for (var _i = 0; _i < TotalLanes; _i++) {
pendingUpdatersLaneMap.push(/* @__PURE__ */ new Set());
}
}
{
switch (tag) {
case ConcurrentRoot:
this._debugRootType = hydrate2 ? "hydrateRoot()" : "createRoot()";
break;
case LegacyRoot:
this._debugRootType = hydrate2 ? "hydrate()" : "render()";
break;
}
}
}
function createFiberRoot(containerInfo, tag, hydrate2, initialChildren, hydrationCallbacks, isStrictMode, concurrentUpdatesByDefaultOverride, identifierPrefix, onRecoverableError, transitionCallbacks) {
var root2 = new FiberRootNode(containerInfo, tag, hydrate2, identifierPrefix, onRecoverableError);
var uninitializedFiber = createHostRootFiber(tag, isStrictMode);
root2.current = uninitializedFiber;
uninitializedFiber.stateNode = root2;
{
var _initialState = {
element: initialChildren,
isDehydrated: hydrate2,
cache: null,
// not enabled yet
transitions: null,
pendingSuspenseBoundaries: null
};
uninitializedFiber.memoizedState = _initialState;
}
initializeUpdateQueue(uninitializedFiber);
return root2;
}
var ReactVersion = "18.2.0";
function createPortal(children, containerInfo, implementation) {
var key = arguments.length > 3 && arguments[3] !== void 0 ? arguments[3] : null;
{
checkKeyStringCoercion(key);
}
return {
// This tag allow us to uniquely identify this as a React Portal
$$typeof: REACT_PORTAL_TYPE,
key: key == null ? null : "" + key,
children,
containerInfo,
implementation
};
}
var didWarnAboutNestedUpdates;
var didWarnAboutFindNodeInStrictMode;
{
didWarnAboutNestedUpdates = false;
didWarnAboutFindNodeInStrictMode = {};
}
function getContextForSubtree(parentComponent) {
if (!parentComponent) {
return emptyContextObject;
}
var fiber = get(parentComponent);
var parentContext = findCurrentUnmaskedContext(fiber);
if (fiber.tag === ClassComponent) {
var Component = fiber.type;
if (isContextProvider(Component)) {
return processChildContext(fiber, Component, parentContext);
}
}
return parentContext;
}
function findHostInstanceWithWarning(component, methodName) {
{
var fiber = get(component);
if (fiber === void 0) {
if (typeof component.render === "function") {
throw new Error("Unable to find node on an unmounted component.");
} else {
var keys = Object.keys(component).join(",");
throw new Error("Argument appears to not be a ReactComponent. Keys: " + keys);
}
}
var hostFiber = findCurrentHostFiber(fiber);
if (hostFiber === null) {
return null;
}
if (hostFiber.mode & StrictLegacyMode) {
var componentName = getComponentNameFromFiber(fiber) || "Component";
if (!didWarnAboutFindNodeInStrictMode[componentName]) {
didWarnAboutFindNodeInStrictMode[componentName] = true;
var previousFiber = current;
try {
setCurrentFiber(hostFiber);
if (fiber.mode & StrictLegacyMode) {
error("%s is deprecated in StrictMode. %s was passed an instance of %s which is inside StrictMode. Instead, add a ref directly to the element you want to reference. Learn more about using refs safely here: https://reactjs.org/link/strict-mode-find-node", methodName, methodName, componentName);
} else {
error("%s is deprecated in StrictMode. %s was passed an instance of %s which renders StrictMode children. Instead, add a ref directly to the element you want to reference. Learn more about using refs safely here: https://reactjs.org/link/strict-mode-find-node", methodName, methodName, componentName);
}
} finally {
if (previousFiber) {
setCurrentFiber(previousFiber);
} else {
resetCurrentFiber();
}
}
}
}
return hostFiber.stateNode;
}
}
function createContainer(containerInfo, tag, hydrationCallbacks, isStrictMode, concurrentUpdatesByDefaultOverride, identifierPrefix, onRecoverableError, transitionCallbacks) {
var hydrate2 = false;
var initialChildren = null;
return createFiberRoot(containerInfo, tag, hydrate2, initialChildren, hydrationCallbacks, isStrictMode, concurrentUpdatesByDefaultOverride, identifierPrefix, onRecoverableError);
}
function createHydrationContainer(initialChildren, callback, containerInfo, tag, hydrationCallbacks, isStrictMode, concurrentUpdatesByDefaultOverride, identifierPrefix, onRecoverableError, transitionCallbacks) {
var hydrate2 = true;
var root2 = createFiberRoot(containerInfo, tag, hydrate2, initialChildren, hydrationCallbacks, isStrictMode, concurrentUpdatesByDefaultOverride, identifierPrefix, onRecoverableError);
root2.context = getContextForSubtree(null);
var current2 = root2.current;
var eventTime = requestEventTime();
var lane = requestUpdateLane(current2);
var update = createUpdate(eventTime, lane);
update.callback = callback !== void 0 && callback !== null ? callback : null;
enqueueUpdate(current2, update, lane);
scheduleInitialHydrationOnRoot(root2, lane, eventTime);
return root2;
}
function updateContainer(element, container, parentComponent, callback) {
{
onScheduleRoot(container, element);
}
var current$1 = container.current;
var eventTime = requestEventTime();
var lane = requestUpdateLane(current$1);
{
markRenderScheduled(lane);
}
var context = getContextForSubtree(parentComponent);
if (container.context === null) {
container.context = context;
} else {
container.pendingContext = context;
}
{
if (isRendering && current !== null && !didWarnAboutNestedUpdates) {
didWarnAboutNestedUpdates = true;
error("Render methods should be a pure function of props and state; triggering nested component updates from render is not allowed. If necessary, trigger nested updates in componentDidUpdate.\n\nCheck the render method of %s.", getComponentNameFromFiber(current) || "Unknown");
}
}
var update = createUpdate(eventTime, lane);
update.payload = {
element
};
callback = callback === void 0 ? null : callback;
if (callback !== null) {
{
if (typeof callback !== "function") {
error("render(...): Expected the last optional `callback` argument to be a function. Instead received: %s.", callback);
}
}
update.callback = callback;
}
var root2 = enqueueUpdate(current$1, update, lane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, current$1, lane, eventTime);
entangleTransitions(root2, current$1, lane);
}
return lane;
}
function getPublicRootInstance(container) {
var containerFiber = container.current;
if (!containerFiber.child) {
return null;
}
switch (containerFiber.child.tag) {
case HostComponent:
return getPublicInstance(containerFiber.child.stateNode);
default:
return containerFiber.child.stateNode;
}
}
function attemptSynchronousHydration$1(fiber) {
switch (fiber.tag) {
case HostRoot: {
var root2 = fiber.stateNode;
if (isRootDehydrated(root2)) {
var lanes = getHighestPriorityPendingLanes(root2);
flushRoot(root2, lanes);
}
break;
}
case SuspenseComponent: {
flushSync(function() {
var root3 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root3 !== null) {
var eventTime = requestEventTime();
scheduleUpdateOnFiber(root3, fiber, SyncLane, eventTime);
}
});
var retryLane = SyncLane;
markRetryLaneIfNotHydrated(fiber, retryLane);
break;
}
}
}
function markRetryLaneImpl(fiber, retryLane) {
var suspenseState = fiber.memoizedState;
if (suspenseState !== null && suspenseState.dehydrated !== null) {
suspenseState.retryLane = higherPriorityLane(suspenseState.retryLane, retryLane);
}
}
function markRetryLaneIfNotHydrated(fiber, retryLane) {
markRetryLaneImpl(fiber, retryLane);
var alternate = fiber.alternate;
if (alternate) {
markRetryLaneImpl(alternate, retryLane);
}
}
function attemptContinuousHydration$1(fiber) {
if (fiber.tag !== SuspenseComponent) {
return;
}
var lane = SelectiveHydrationLane;
var root2 = enqueueConcurrentRenderForLane(fiber, lane);
if (root2 !== null) {
var eventTime = requestEventTime();
scheduleUpdateOnFiber(root2, fiber, lane, eventTime);
}
markRetryLaneIfNotHydrated(fiber, lane);
}
function attemptHydrationAtCurrentPriority$1(fiber) {
if (fiber.tag !== SuspenseComponent) {
return;
}
var lane = requestUpdateLane(fiber);
var root2 = enqueueConcurrentRenderForLane(fiber, lane);
if (root2 !== null) {
var eventTime = requestEventTime();
scheduleUpdateOnFiber(root2, fiber, lane, eventTime);
}
markRetryLaneIfNotHydrated(fiber, lane);
}
function findHostInstanceWithNoPortals(fiber) {
var hostFiber = findCurrentHostFiberWithNoPortals(fiber);
if (hostFiber === null) {
return null;
}
return hostFiber.stateNode;
}
var shouldErrorImpl = function(fiber) {
return null;
};
function shouldError(fiber) {
return shouldErrorImpl(fiber);
}
var shouldSuspendImpl = function(fiber) {
return false;
};
function shouldSuspend(fiber) {
return shouldSuspendImpl(fiber);
}
var overrideHookState = null;
var overrideHookStateDeletePath = null;
var overrideHookStateRenamePath = null;
var overrideProps = null;
var overridePropsDeletePath = null;
var overridePropsRenamePath = null;
var scheduleUpdate = null;
var setErrorHandler = null;
var setSuspenseHandler = null;
{
var copyWithDeleteImpl = function(obj, path, index2) {
var key = path[index2];
var updated = isArray2(obj) ? obj.slice() : assign({}, obj);
if (index2 + 1 === path.length) {
if (isArray2(updated)) {
updated.splice(key, 1);
} else {
delete updated[key];
}
return updated;
}
updated[key] = copyWithDeleteImpl(obj[key], path, index2 + 1);
return updated;
};
var copyWithDelete = function(obj, path) {
return copyWithDeleteImpl(obj, path, 0);
};
var copyWithRenameImpl = function(obj, oldPath, newPath, index2) {
var oldKey = oldPath[index2];
var updated = isArray2(obj) ? obj.slice() : assign({}, obj);
if (index2 + 1 === oldPath.length) {
var newKey = newPath[index2];
updated[newKey] = updated[oldKey];
if (isArray2(updated)) {
updated.splice(oldKey, 1);
} else {
delete updated[oldKey];
}
} else {
updated[oldKey] = copyWithRenameImpl(
// $FlowFixMe number or string is fine here
obj[oldKey],
oldPath,
newPath,
index2 + 1
);
}
return updated;
};
var copyWithRename = function(obj, oldPath, newPath) {
if (oldPath.length !== newPath.length) {
warn("copyWithRename() expects paths of the same length");
return;
} else {
for (var i = 0; i < newPath.length - 1; i++) {
if (oldPath[i] !== newPath[i]) {
warn("copyWithRename() expects paths to be the same except for the deepest key");
return;
}
}
}
return copyWithRenameImpl(obj, oldPath, newPath, 0);
};
var copyWithSetImpl = function(obj, path, index2, value) {
if (index2 >= path.length) {
return value;
}
var key = path[index2];
var updated = isArray2(obj) ? obj.slice() : assign({}, obj);
updated[key] = copyWithSetImpl(obj[key], path, index2 + 1, value);
return updated;
};
var copyWithSet = function(obj, path, value) {
return copyWithSetImpl(obj, path, 0, value);
};
var findHook = function(fiber, id) {
var currentHook2 = fiber.memoizedState;
while (currentHook2 !== null && id > 0) {
currentHook2 = currentHook2.next;
id--;
}
return currentHook2;
};
overrideHookState = function(fiber, id, path, value) {
var hook = findHook(fiber, id);
if (hook !== null) {
var newState = copyWithSet(hook.memoizedState, path, value);
hook.memoizedState = newState;
hook.baseState = newState;
fiber.memoizedProps = assign({}, fiber.memoizedProps);
var root2 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, SyncLane, NoTimestamp);
}
}
};
overrideHookStateDeletePath = function(fiber, id, path) {
var hook = findHook(fiber, id);
if (hook !== null) {
var newState = copyWithDelete(hook.memoizedState, path);
hook.memoizedState = newState;
hook.baseState = newState;
fiber.memoizedProps = assign({}, fiber.memoizedProps);
var root2 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, SyncLane, NoTimestamp);
}
}
};
overrideHookStateRenamePath = function(fiber, id, oldPath, newPath) {
var hook = findHook(fiber, id);
if (hook !== null) {
var newState = copyWithRename(hook.memoizedState, oldPath, newPath);
hook.memoizedState = newState;
hook.baseState = newState;
fiber.memoizedProps = assign({}, fiber.memoizedProps);
var root2 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, SyncLane, NoTimestamp);
}
}
};
overrideProps = function(fiber, path, value) {
fiber.pendingProps = copyWithSet(fiber.memoizedProps, path, value);
if (fiber.alternate) {
fiber.alternate.pendingProps = fiber.pendingProps;
}
var root2 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, SyncLane, NoTimestamp);
}
};
overridePropsDeletePath = function(fiber, path) {
fiber.pendingProps = copyWithDelete(fiber.memoizedProps, path);
if (fiber.alternate) {
fiber.alternate.pendingProps = fiber.pendingProps;
}
var root2 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, SyncLane, NoTimestamp);
}
};
overridePropsRenamePath = function(fiber, oldPath, newPath) {
fiber.pendingProps = copyWithRename(fiber.memoizedProps, oldPath, newPath);
if (fiber.alternate) {
fiber.alternate.pendingProps = fiber.pendingProps;
}
var root2 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, SyncLane, NoTimestamp);
}
};
scheduleUpdate = function(fiber) {
var root2 = enqueueConcurrentRenderForLane(fiber, SyncLane);
if (root2 !== null) {
scheduleUpdateOnFiber(root2, fiber, SyncLane, NoTimestamp);
}
};
setErrorHandler = function(newShouldErrorImpl) {
shouldErrorImpl = newShouldErrorImpl;
};
setSuspenseHandler = function(newShouldSuspendImpl) {
shouldSuspendImpl = newShouldSuspendImpl;
};
}
function findHostInstanceByFiber(fiber) {
var hostFiber = findCurrentHostFiber(fiber);
if (hostFiber === null) {
return null;
}
return hostFiber.stateNode;
}
function emptyFindFiberByHostInstance(instance) {
return null;
}
function getCurrentFiberForDevTools() {
return current;
}
function injectIntoDevTools(devToolsConfig) {
var findFiberByHostInstance = devToolsConfig.findFiberByHostInstance;
var ReactCurrentDispatcher2 = ReactSharedInternals.ReactCurrentDispatcher;
return injectInternals({
bundleType: devToolsConfig.bundleType,
version: devToolsConfig.version,
rendererPackageName: devToolsConfig.rendererPackageName,
rendererConfig: devToolsConfig.rendererConfig,
overrideHookState,
overrideHookStateDeletePath,
overrideHookStateRenamePath,
overrideProps,
overridePropsDeletePath,
overridePropsRenamePath,
setErrorHandler,
setSuspenseHandler,
scheduleUpdate,
currentDispatcherRef: ReactCurrentDispatcher2,
findHostInstanceByFiber,
findFiberByHostInstance: findFiberByHostInstance || emptyFindFiberByHostInstance,
// React Refresh
findHostInstancesForRefresh,
scheduleRefresh,
scheduleRoot,
setRefreshHandler,
// Enables DevTools to append owner stacks to error messages in DEV mode.
getCurrentFiber: getCurrentFiberForDevTools,
// Enables DevTools to detect reconciler version rather than renderer version
// which may not match for third party renderers.
reconcilerVersion: ReactVersion
});
}
var defaultOnRecoverableError = typeof reportError === "function" ? (
// In modern browsers, reportError will dispatch an error event,
// emulating an uncaught JavaScript error.
reportError
) : function(error2) {
console["error"](error2);
};
function ReactDOMRoot(internalRoot) {
this._internalRoot = internalRoot;
}
ReactDOMHydrationRoot.prototype.render = ReactDOMRoot.prototype.render = function(children) {
var root2 = this._internalRoot;
if (root2 === null) {
throw new Error("Cannot update an unmounted root.");
}
{
if (typeof arguments[1] === "function") {
error("render(...): does not support the second callback argument. To execute a side effect after rendering, declare it in a component body with useEffect().");
} else if (isValidContainer(arguments[1])) {
error("You passed a container to the second argument of root.render(...). You don't need to pass it again since you already passed it to create the root.");
} else if (typeof arguments[1] !== "undefined") {
error("You passed a second argument to root.render(...) but it only accepts one argument.");
}
var container = root2.containerInfo;
if (container.nodeType !== COMMENT_NODE) {
var hostInstance = findHostInstanceWithNoPortals(root2.current);
if (hostInstance) {
if (hostInstance.parentNode !== container) {
error("render(...): It looks like the React-rendered content of the root container was removed without using React. This is not supported and will cause errors. Instead, call root.unmount() to empty a root's container.");
}
}
}
}
updateContainer(children, root2, null, null);
};
ReactDOMHydrationRoot.prototype.unmount = ReactDOMRoot.prototype.unmount = function() {
{
if (typeof arguments[0] === "function") {
error("unmount(...): does not support a callback argument. To execute a side effect after rendering, declare it in a component body with useEffect().");
}
}
var root2 = this._internalRoot;
if (root2 !== null) {
this._internalRoot = null;
var container = root2.containerInfo;
{
if (isAlreadyRendering()) {
error("Attempted to synchronously unmount a root while React was already rendering. React cannot finish unmounting the root until the current render has completed, which may lead to a race condition.");
}
}
flushSync(function() {
updateContainer(null, root2, null, null);
});
unmarkContainerAsRoot(container);
}
};
function createRoot2(container, options2) {
if (!isValidContainer(container)) {
throw new Error("createRoot(...): Target container is not a DOM element.");
}
warnIfReactDOMContainerInDEV(container);
var isStrictMode = false;
var concurrentUpdatesByDefaultOverride = false;
var identifierPrefix = "";
var onRecoverableError = defaultOnRecoverableError;
var transitionCallbacks = null;
if (options2 !== null && options2 !== void 0) {
{
if (options2.hydrate) {
warn("hydrate through createRoot is deprecated. Use ReactDOMClient.hydrateRoot(container, <App />) instead.");
} else {
if (typeof options2 === "object" && options2 !== null && options2.$$typeof === REACT_ELEMENT_TYPE) {
error("You passed a JSX element to createRoot. You probably meant to call root.render instead. Example usage:\n\n let root = createRoot(domContainer);\n root.render(<App />);");
}
}
}
if (options2.unstable_strictMode === true) {
isStrictMode = true;
}
if (options2.identifierPrefix !== void 0) {
identifierPrefix = options2.identifierPrefix;
}
if (options2.onRecoverableError !== void 0) {
onRecoverableError = options2.onRecoverableError;
}
if (options2.transitionCallbacks !== void 0) {
transitionCallbacks = options2.transitionCallbacks;
}
}
var root2 = createContainer(container, ConcurrentRoot, null, isStrictMode, concurrentUpdatesByDefaultOverride, identifierPrefix, onRecoverableError);
markContainerAsRoot(root2.current, container);
var rootContainerElement = container.nodeType === COMMENT_NODE ? container.parentNode : container;
listenToAllSupportedEvents(rootContainerElement);
return new ReactDOMRoot(root2);
}
function ReactDOMHydrationRoot(internalRoot) {
this._internalRoot = internalRoot;
}
function scheduleHydration(target) {
if (target) {
queueExplicitHydrationTarget(target);
}
}
ReactDOMHydrationRoot.prototype.unstable_scheduleHydration = scheduleHydration;
function hydrateRoot(container, initialChildren, options2) {
if (!isValidContainer(container)) {
throw new Error("hydrateRoot(...): Target container is not a DOM element.");
}
warnIfReactDOMContainerInDEV(container);
{
if (initialChildren === void 0) {
error("Must provide initial children as second argument to hydrateRoot. Example usage: hydrateRoot(domContainer, <App />)");
}
}
var hydrationCallbacks = options2 != null ? options2 : null;
var mutableSources = options2 != null && options2.hydratedSources || null;
var isStrictMode = false;
var concurrentUpdatesByDefaultOverride = false;
var identifierPrefix = "";
var onRecoverableError = defaultOnRecoverableError;
if (options2 !== null && options2 !== void 0) {
if (options2.unstable_strictMode === true) {
isStrictMode = true;
}
if (options2.identifierPrefix !== void 0) {
identifierPrefix = options2.identifierPrefix;
}
if (options2.onRecoverableError !== void 0) {
onRecoverableError = options2.onRecoverableError;
}
}
var root2 = createHydrationContainer(initialChildren, null, container, ConcurrentRoot, hydrationCallbacks, isStrictMode, concurrentUpdatesByDefaultOverride, identifierPrefix, onRecoverableError);
markContainerAsRoot(root2.current, container);
listenToAllSupportedEvents(container);
if (mutableSources) {
for (var i = 0; i < mutableSources.length; i++) {
var mutableSource = mutableSources[i];
registerMutableSourceForHydration(root2, mutableSource);
}
}
return new ReactDOMHydrationRoot(root2);
}
function isValidContainer(node) {
return !!(node && (node.nodeType === ELEMENT_NODE || node.nodeType === DOCUMENT_NODE || node.nodeType === DOCUMENT_FRAGMENT_NODE || !disableCommentsAsDOMContainers));
}
function isValidContainerLegacy(node) {
return !!(node && (node.nodeType === ELEMENT_NODE || node.nodeType === DOCUMENT_NODE || node.nodeType === DOCUMENT_FRAGMENT_NODE || node.nodeType === COMMENT_NODE && node.nodeValue === " react-mount-point-unstable "));
}
function warnIfReactDOMContainerInDEV(container) {
{
if (container.nodeType === ELEMENT_NODE && container.tagName && container.tagName.toUpperCase() === "BODY") {
error("createRoot(): Creating roots directly with document.body is discouraged, since its children are often manipulated by third-party scripts and browser extensions. This may lead to subtle reconciliation issues. Try using a container element created for your app.");
}
if (isContainerMarkedAsRoot(container)) {
if (container._reactRootContainer) {
error("You are calling ReactDOMClient.createRoot() on a container that was previously passed to ReactDOM.render(). This is not supported.");
} else {
error("You are calling ReactDOMClient.createRoot() on a container that has already been passed to createRoot() before. Instead, call root.render() on the existing root instead if you want to update it.");
}
}
}
}
var ReactCurrentOwner$3 = ReactSharedInternals.ReactCurrentOwner;
var topLevelUpdateWarnings;
{
topLevelUpdateWarnings = function(container) {
if (container._reactRootContainer && container.nodeType !== COMMENT_NODE) {
var hostInstance = findHostInstanceWithNoPortals(container._reactRootContainer.current);
if (hostInstance) {
if (hostInstance.parentNode !== container) {
error("render(...): It looks like the React-rendered content of this container was removed without using React. This is not supported and will cause errors. Instead, call ReactDOM.unmountComponentAtNode to empty a container.");
}
}
}
var isRootRenderedBySomeReact = !!container._reactRootContainer;
var rootEl = getReactRootElementInContainer(container);
var hasNonRootReactChild = !!(rootEl && getInstanceFromNode(rootEl));
if (hasNonRootReactChild && !isRootRenderedBySomeReact) {
error("render(...): Replacing React-rendered children with a new root component. If you intended to update the children of this node, you should instead have the existing children update their state and render the new components instead of calling ReactDOM.render.");
}
if (container.nodeType === ELEMENT_NODE && container.tagName && container.tagName.toUpperCase() === "BODY") {
error("render(): Rendering components directly into document.body is discouraged, since its children are often manipulated by third-party scripts and browser extensions. This may lead to subtle reconciliation issues. Try rendering into a container element created for your app.");
}
};
}
function getReactRootElementInContainer(container) {
if (!container) {
return null;
}
if (container.nodeType === DOCUMENT_NODE) {
return container.documentElement;
} else {
return container.firstChild;
}
}
function noopOnRecoverableError() {
}
function legacyCreateRootFromDOMContainer(container, initialChildren, parentComponent, callback, isHydrationContainer) {
if (isHydrationContainer) {
if (typeof callback === "function") {
var originalCallback = callback;
callback = function() {
var instance = getPublicRootInstance(root2);
originalCallback.call(instance);
};
}
var root2 = createHydrationContainer(
initialChildren,
callback,
container,
LegacyRoot,
null,
// hydrationCallbacks
false,
// isStrictMode
false,
// concurrentUpdatesByDefaultOverride,
"",
// identifierPrefix
noopOnRecoverableError
);
container._reactRootContainer = root2;
markContainerAsRoot(root2.current, container);
var rootContainerElement = container.nodeType === COMMENT_NODE ? container.parentNode : container;
listenToAllSupportedEvents(rootContainerElement);
flushSync();
return root2;
} else {
var rootSibling;
while (rootSibling = container.lastChild) {
container.removeChild(rootSibling);
}
if (typeof callback === "function") {
var _originalCallback = callback;
callback = function() {
var instance = getPublicRootInstance(_root);
_originalCallback.call(instance);
};
}
var _root = createContainer(
container,
LegacyRoot,
null,
// hydrationCallbacks
false,
// isStrictMode
false,
// concurrentUpdatesByDefaultOverride,
"",
// identifierPrefix
noopOnRecoverableError
);
container._reactRootContainer = _root;
markContainerAsRoot(_root.current, container);
var _rootContainerElement = container.nodeType === COMMENT_NODE ? container.parentNode : container;
listenToAllSupportedEvents(_rootContainerElement);
flushSync(function() {
updateContainer(initialChildren, _root, parentComponent, callback);
});
return _root;
}
}
function warnOnInvalidCallback$1(callback, callerName) {
{
if (callback !== null && typeof callback !== "function") {
error("%s(...): Expected the last optional `callback` argument to be a function. Instead received: %s.", callerName, callback);
}
}
}
function legacyRenderSubtreeIntoContainer(parentComponent, children, container, forceHydrate, callback) {
{
topLevelUpdateWarnings(container);
warnOnInvalidCallback$1(callback === void 0 ? null : callback, "render");
}
var maybeRoot = container._reactRootContainer;
var root2;
if (!maybeRoot) {
root2 = legacyCreateRootFromDOMContainer(container, children, parentComponent, callback, forceHydrate);
} else {
root2 = maybeRoot;
if (typeof callback === "function") {
var originalCallback = callback;
callback = function() {
var instance = getPublicRootInstance(root2);
originalCallback.call(instance);
};
}
updateContainer(children, root2, parentComponent, callback);
}
return getPublicRootInstance(root2);
}
function findDOMNode(componentOrElement) {
{
var owner = ReactCurrentOwner$3.current;
if (owner !== null && owner.stateNode !== null) {
var warnedAboutRefsInRender = owner.stateNode._warnedAboutRefsInRender;
if (!warnedAboutRefsInRender) {
error("%s is accessing findDOMNode inside its render(). render() should be a pure function of props and state. It should never access something that requires stale data from the previous render, such as refs. Move this logic to componentDidMount and componentDidUpdate instead.", getComponentNameFromType(owner.type) || "A component");
}
owner.stateNode._warnedAboutRefsInRender = true;
}
}
if (componentOrElement == null) {
return null;
}
if (componentOrElement.nodeType === ELEMENT_NODE) {
return componentOrElement;
}
{
return findHostInstanceWithWarning(componentOrElement, "findDOMNode");
}
}
function hydrate(element, container, callback) {
{
error("ReactDOM.hydrate is no longer supported in React 18. Use hydrateRoot instead. Until you switch to the new API, your app will behave as if it's running React 17. Learn more: https://reactjs.org/link/switch-to-createroot");
}
if (!isValidContainerLegacy(container)) {
throw new Error("Target container is not a DOM element.");
}
{
var isModernRoot = isContainerMarkedAsRoot(container) && container._reactRootContainer === void 0;
if (isModernRoot) {
error("You are calling ReactDOM.hydrate() on a container that was previously passed to ReactDOMClient.createRoot(). This is not supported. Did you mean to call hydrateRoot(container, element)?");
}
}
return legacyRenderSubtreeIntoContainer(null, element, container, true, callback);
}
function render3(element, container, callback) {
{
error("ReactDOM.render is no longer supported in React 18. Use createRoot instead. Until you switch to the new API, your app will behave as if it's running React 17. Learn more: https://reactjs.org/link/switch-to-createroot");
}
if (!isValidContainerLegacy(container)) {
throw new Error("Target container is not a DOM element.");
}
{
var isModernRoot = isContainerMarkedAsRoot(container) && container._reactRootContainer === void 0;
if (isModernRoot) {
error("You are calling ReactDOM.render() on a container that was previously passed to ReactDOMClient.createRoot(). This is not supported. Did you mean to call root.render(element)?");
}
}
return legacyRenderSubtreeIntoContainer(null, element, container, false, callback);
}
function unstable_renderSubtreeIntoContainer(parentComponent, element, containerNode, callback) {
{
error("ReactDOM.unstable_renderSubtreeIntoContainer() is no longer supported in React 18. Consider using a portal instead. Until you switch to the createRoot API, your app will behave as if it's running React 17. Learn more: https://reactjs.org/link/switch-to-createroot");
}
if (!isValidContainerLegacy(containerNode)) {
throw new Error("Target container is not a DOM element.");
}
if (parentComponent == null || !has(parentComponent)) {
throw new Error("parentComponent must be a valid React Component");
}
return legacyRenderSubtreeIntoContainer(parentComponent, element, containerNode, false, callback);
}
function unmountComponentAtNode(container) {
if (!isValidContainerLegacy(container)) {
throw new Error("unmountComponentAtNode(...): Target container is not a DOM element.");
}
{
var isModernRoot = isContainerMarkedAsRoot(container) && container._reactRootContainer === void 0;
if (isModernRoot) {
error("You are calling ReactDOM.unmountComponentAtNode() on a container that was previously passed to ReactDOMClient.createRoot(). This is not supported. Did you mean to call root.unmount()?");
}
}
if (container._reactRootContainer) {
{
var rootEl = getReactRootElementInContainer(container);
var renderedByDifferentReact = rootEl && !getInstanceFromNode(rootEl);
if (renderedByDifferentReact) {
error("unmountComponentAtNode(): The node you're attempting to unmount was rendered by another copy of React.");
}
}
flushSync(function() {
legacyRenderSubtreeIntoContainer(null, null, container, false, function() {
container._reactRootContainer = null;
unmarkContainerAsRoot(container);
});
});
return true;
} else {
{
var _rootEl = getReactRootElementInContainer(container);
var hasNonRootReactChild = !!(_rootEl && getInstanceFromNode(_rootEl));
var isContainerReactRoot = container.nodeType === ELEMENT_NODE && isValidContainerLegacy(container.parentNode) && !!container.parentNode._reactRootContainer;
if (hasNonRootReactChild) {
error("unmountComponentAtNode(): The node you're attempting to unmount was rendered by React and is not a top-level container. %s", isContainerReactRoot ? "You may have accidentally passed in a React root node instead of its container." : "Instead, have the parent component update its state and rerender in order to remove this component.");
}
}
return false;
}
}
setAttemptSynchronousHydration(attemptSynchronousHydration$1);
setAttemptContinuousHydration(attemptContinuousHydration$1);
setAttemptHydrationAtCurrentPriority(attemptHydrationAtCurrentPriority$1);
setGetCurrentUpdatePriority(getCurrentUpdatePriority);
setAttemptHydrationAtPriority(runWithPriority);
{
if (typeof Map !== "function" || // $FlowIssue Flow incorrectly thinks Map has no prototype
Map.prototype == null || typeof Map.prototype.forEach !== "function" || typeof Set !== "function" || // $FlowIssue Flow incorrectly thinks Set has no prototype
Set.prototype == null || typeof Set.prototype.clear !== "function" || typeof Set.prototype.forEach !== "function") {
error("React depends on Map and Set built-in types. Make sure that you load a polyfill in older browsers. https://reactjs.org/link/react-polyfills");
}
}
setRestoreImplementation(restoreControlledState$3);
setBatchingImplementation(batchedUpdates$1, discreteUpdates, flushSync);
function createPortal$1(children, container) {
var key = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : null;
if (!isValidContainer(container)) {
throw new Error("Target container is not a DOM element.");
}
return createPortal(children, container, null, key);
}
function renderSubtreeIntoContainer(parentComponent, element, containerNode, callback) {
return unstable_renderSubtreeIntoContainer(parentComponent, element, containerNode, callback);
}
var Internals = {
usingClientEntryPoint: false,
// Keep in sync with ReactTestUtils.js.
// This is an array for better minification.
Events: [getInstanceFromNode, getNodeFromInstance, getFiberCurrentPropsFromNode, enqueueStateRestore, restoreStateIfNeeded, batchedUpdates$1]
};
function createRoot$1(container, options2) {
{
if (!Internals.usingClientEntryPoint && true) {
error('You are importing createRoot from "react-dom" which is not supported. You should instead import it from "react-dom/client".');
}
}
return createRoot2(container, options2);
}
function hydrateRoot$1(container, initialChildren, options2) {
{
if (!Internals.usingClientEntryPoint && true) {
error('You are importing hydrateRoot from "react-dom" which is not supported. You should instead import it from "react-dom/client".');
}
}
return hydrateRoot(container, initialChildren, options2);
}
function flushSync$1(fn) {
{
if (isAlreadyRendering()) {
error("flushSync was called from inside a lifecycle method. React cannot flush when React is already rendering. Consider moving this call to a scheduler task or micro task.");
}
}
return flushSync(fn);
}
var foundDevTools = injectIntoDevTools({
findFiberByHostInstance: getClosestInstanceFromNode,
bundleType: 1,
version: ReactVersion,
rendererPackageName: "react-dom"
});
{
if (!foundDevTools && canUseDOM && window.top === window.self) {
if (navigator.userAgent.indexOf("Chrome") > -1 && navigator.userAgent.indexOf("Edge") === -1 || navigator.userAgent.indexOf("Firefox") > -1) {
var protocol = window.location.protocol;
if (/^(https?|file):$/.test(protocol)) {
console.info("%cDownload the React DevTools for a better development experience: https://reactjs.org/link/react-devtools" + (protocol === "file:" ? "\nYou might need to use a local HTTP server (instead of file://): https://reactjs.org/link/react-devtools-faq" : ""), "font-weight:bold");
}
}
}
}
exports.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED = Internals;
exports.createPortal = createPortal$1;
exports.createRoot = createRoot$1;
exports.findDOMNode = findDOMNode;
exports.flushSync = flushSync$1;
exports.hydrate = hydrate;
exports.hydrateRoot = hydrateRoot$1;
exports.render = render3;
exports.unmountComponentAtNode = unmountComponentAtNode;
exports.unstable_batchedUpdates = batchedUpdates$1;
exports.unstable_renderSubtreeIntoContainer = renderSubtreeIntoContainer;
exports.version = ReactVersion;
if (typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ !== "undefined" && typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStop === "function") {
__REACT_DEVTOOLS_GLOBAL_HOOK__.registerInternalModuleStop(new Error());
}
})();
}
}
});
// node_modules/react-dom/index.js
var require_react_dom = __commonJS({
"node_modules/react-dom/index.js"(exports, module2) {
"use strict";
if (false) {
checkDCE();
module2.exports = null;
} else {
module2.exports = require_react_dom_development();
}
}
});
// node_modules/react-dom/client.js
var require_client = __commonJS({
"node_modules/react-dom/client.js"(exports) {
"use strict";
var m2 = require_react_dom();
if (false) {
exports.createRoot = m2.createRoot;
exports.hydrateRoot = m2.hydrateRoot;
} else {
i = m2.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED;
exports.createRoot = function(c2, o) {
i.usingClientEntryPoint = true;
try {
return m2.createRoot(c2, o);
} finally {
i.usingClientEntryPoint = false;
}
};
exports.hydrateRoot = function(c2, h2, o) {
i.usingClientEntryPoint = true;
try {
return m2.hydrateRoot(c2, h2, o);
} finally {
i.usingClientEntryPoint = false;
}
};
}
var i;
}
});
// src/main.tsx
var main_exports = {};
__export(main_exports, {
default: () => Companion
});
module.exports = __toCommonJS(main_exports);
var import_obsidian4 = require("obsidian");
var import_client = __toESM(require_client());
var import_react6 = __toESM(require_react());
// node_modules/codemirror-companion-extension/dist/extension.js
var import_view = require("@codemirror/view");
var import_state = require("@codemirror/state");
// node_modules/codemirror-companion-extension/dist/lib/utils.js
function a(n, i, t = void 0) {
const c2 = {
force: () => {
}
};
let e = null;
async function* f(...u2) {
e && clearTimeout(e);
let r2 = null;
try {
await new Promise((o) => {
r2 = e = setTimeout(() => o(), i), c2.force = () => {
e && clearTimeout(e), o();
};
});
} catch (e2) {
if (t !== void 0)
throw t;
}
for await (const o of n(...u2)) {
if (r2 !== e)
break;
yield o;
}
}
return { debounced: f, force: () => c2.force() };
}
// node_modules/codemirror-companion-extension/dist/extension.js
var F = Object.defineProperty;
var I = (n, t, e) => t in n ? F(n, t, { enumerable: true, configurable: true, writable: true, value: e }) : n[t] = e;
var c = (n, t, e) => (I(n, typeof t != "symbol" ? t + "" : t, e), e);
var r = import_state.StateField.define({
create() {
return { suggestion: null };
},
update(n, t) {
const e = t.effects.find(
(s) => s.is(d)
);
return t.state.doc && e && (e.value.doc == null || t.state.doc == e.value.doc) ? { suggestion: e.value.suggestion } : { suggestion: null };
}
});
var d = import_state.StateEffect.define();
function E(n, t) {
const e = n.state.selection.main.head, s = [], o = import_view.Decoration.widget({
widget: new P(t),
side: 1
});
return s.push(o.range(e)), import_view.Decoration.set(s);
}
var P = class extends import_view.WidgetType {
constructor(e) {
super();
c(this, "suggestion");
this.suggestion = e;
}
toDOM() {
const e = document.createElement("span");
return e.style.opacity = "0.4", e.className = "cm-inline-suggestion", e.textContent = this.suggestion, e;
}
};
var g = (n) => {
let t = 0;
return import_view.ViewPlugin.fromClass(
class {
async update(s) {
const o = s.state.doc;
if (!s.docChanged)
return;
const i = ++t;
for await (const a2 of n(s.state)) {
if (i != t)
return;
s.view.dispatch({
effects: d.of({
suggestion: a2,
doc: o
})
});
}
}
}
);
};
var T = class {
constructor() {
c(this, "decorations");
this.decorations = import_view.Decoration.none;
}
update(t) {
var s;
const e = (s = t.state.field(
r
)) == null ? void 0 : s.suggestion;
if (!e) {
this.decorations = import_view.Decoration.none;
return;
}
this.decorations = E(
t.view,
e.display_suggestion
);
}
};
var l = import_view.ViewPlugin.fromClass(T, {
decorations: (n) => n.decorations
});
var _ = class {
constructor(t, e) {
c(this, "suggestFn");
c(this, "keymap");
c(this, "completionId");
c(this, "run", (t2) => {
var o, i;
const e2 = (o = t2.state.field(
r
)) == null ? void 0 : o.suggestion;
return e2 ? (t2.dispatch({
...x(
t2.state,
e2.complete_suggestion,
t2.state.selection.main.head,
t2.state.selection.main.head
)
}), (i = e2.accept_hook) == null || i.call(e2), (async () => {
if (this.suggestFn == null)
return;
const a2 = ++this.completionId;
for await (const f of this.suggestFn(t2.state)) {
if (a2 != this.completionId)
return;
t2.dispatch({
effects: d.of({
suggestion: {
complete_suggestion: f.complete_suggestion,
display_suggestion: f.display_suggestion,
accept_hook: f.accept_hook
},
doc: null
})
});
}
})(), true) : false;
});
this.suggestFn = t, this.keymap = import_state.Prec.highest(
import_view.keymap.of([
{
key: e,
run: (s) => this.run(s)
}
])
), this.completionId = 0;
}
};
function x(n, t, e, s) {
return {
...n.changeByRange((o) => {
if (o == n.selection.main)
return {
changes: { from: e, to: s, insert: t },
range: import_state.EditorSelection.cursor(e + t.length)
};
const i = s - e;
return !o.empty || i && n.sliceDoc(o.from - i, o.from) != n.sliceDoc(e, s) ? { range: o } : {
changes: { from: o.from - i, to: o.from, insert: t },
range: import_state.EditorSelection.cursor(o.from - i + t.length)
};
}),
userEvent: "input.complete"
};
}
function p(n) {
return typeof n == "string" ? {
complete_suggestion: n,
display_suggestion: n
} : n;
}
function S(n) {
return async function* (t) {
const e = await n(t);
if (typeof e == "string" || "complete_suggestion" in e) {
yield p(e);
return;
}
for await (const s of e)
yield p(s);
};
}
function K(n) {
const { delay: t = 500, accept_shortcut: e = "Tab" } = n, s = S(n.fetchFn), { debounced: o, force: i } = a(s, t);
return {
extension: e ? [
r,
g(o),
l,
new _(
n.continue_suggesting ? s : null,
e
).keymap
] : [
r,
g(o),
l
],
force_fetch: i
};
}
// src/settings/settings.tsx
var React15 = __toESM(require_react());
// src/complete/completers/openai/openai.tsx
var import_react = __toESM(require_react());
var import_obsidian = require("obsidian");
// src/complete/completers/openai/models.json
var models_default = [
{
id: "text-davinci-003",
name: "Davinci-003",
description: "Can do any language task with better quality, longer output, and consistent instruction-following than the curie, babbage, or ada models. Also supports inserting completions within text."
},
{
id: "text-davinci-002",
name: "Davinci-002",
description: "Similar capabilities to text-davinci-003 but trained with supervised fine-tuning instead of reinforcement learning"
},
{
id: "curie",
name: "Curie",
description: "Very capable, but faster and lower cost than Davinci."
},
{
id: "babbage",
name: "Babbage",
description: "Capable of straightforward tasks, very fast, and lower cost."
},
{
id: "ada",
name: "Ada",
description: "Capable of very simple tasks, usually the fastest model in the GPT-3 series, and lowest cost."
}
];
// src/complete/completers/openai/provider_settings.tsx
var React2 = __toESM(require_react());
// src/components/SettingsItem.tsx
var React = __toESM(require_react());
function SettingsItem({
name,
description,
children
}) {
return /* @__PURE__ */ React.createElement("div", { className: "setting-item" }, (name || description) && /* @__PURE__ */ React.createElement("div", { className: "setting-item-info" }, name && /* @__PURE__ */ React.createElement("div", { className: "setting-item-name" }, name), description && /* @__PURE__ */ React.createElement("div", { className: "setting-item-description" }, description)), children && /* @__PURE__ */ React.createElement("div", { className: "setting-item-control" }, children));
}
// src/complete/completers/openai/provider_settings.tsx
var parse_settings = (data) => {
if (data === null) {
return { api_key: "" };
}
try {
const settings = JSON.parse(data);
if (typeof settings.api_key !== "string") {
return { api_key: "" };
}
return settings;
} catch (e) {
return { api_key: "" };
}
};
function SettingsUI({
settings,
saveSettings
}) {
return /* @__PURE__ */ React2.createElement(
SettingsItem,
{
name: "API key",
description: /* @__PURE__ */ React2.createElement(React2.Fragment, null, "Your OpenAI", " ", /* @__PURE__ */ React2.createElement("a", { href: "https://platform.openai.com/account/api-keys" }, "API key"))
},
/* @__PURE__ */ React2.createElement(
"input",
{
type: "text",
value: parse_settings(settings).api_key,
onChange: (e) => saveSettings(JSON.stringify({ api_key: e.target.value }))
}
)
);
}
// node_modules/openai/version.mjs
var VERSION = "4.17.0";
// node_modules/openai/_shims/registry.mjs
var auto = false;
var kind = void 0;
var fetch2 = void 0;
var Request2 = void 0;
var Response2 = void 0;
var Headers2 = void 0;
var FormData2 = void 0;
var Blob2 = void 0;
var File2 = void 0;
var ReadableStream2 = void 0;
var getMultipartRequestOptions = void 0;
var getDefaultAgent = void 0;
var fileFromPath = void 0;
var isFsReadStream = void 0;
function setShims(shims, options = { auto: false }) {
if (auto) {
throw new Error(`you must \`import 'openai/shims/${shims.kind}'\` before importing anything else from openai`);
}
if (kind) {
throw new Error(`can't \`import 'openai/shims/${shims.kind}'\` after \`import 'openai/shims/${kind}'\``);
}
auto = options.auto;
kind = shims.kind;
fetch2 = shims.fetch;
Request2 = shims.Request;
Response2 = shims.Response;
Headers2 = shims.Headers;
FormData2 = shims.FormData;
Blob2 = shims.Blob;
File2 = shims.File;
ReadableStream2 = shims.ReadableStream;
getMultipartRequestOptions = shims.getMultipartRequestOptions;
getDefaultAgent = shims.getDefaultAgent;
fileFromPath = shims.fileFromPath;
isFsReadStream = shims.isFsReadStream;
}
// node_modules/openai/_shims/MultipartBody.mjs
var MultipartBody = class {
constructor(body) {
this.body = body;
}
get [Symbol.toStringTag]() {
return "MultipartBody";
}
};
// node_modules/openai/_shims/web-runtime.mjs
function getRuntime({ manuallyImported } = {}) {
const recommendation = manuallyImported ? `You may need to use polyfills` : `Add one of these imports before your first \`import \u2026 from 'openai'\`:
- \`import 'openai/shims/node'\` (if you're running on Node)
- \`import 'openai/shims/web'\` (otherwise)
`;
let _fetch, _Request, _Response, _Headers;
try {
_fetch = fetch;
_Request = Request;
_Response = Response;
_Headers = Headers;
} catch (error) {
throw new Error(`this environment is missing the following Web Fetch API type: ${error.message}. ${recommendation}`);
}
return {
kind: "web",
fetch: _fetch,
Request: _Request,
Response: _Response,
Headers: _Headers,
FormData: (
// @ts-ignore
typeof FormData !== "undefined" ? FormData : class FormData {
// @ts-ignore
constructor() {
throw new Error(`file uploads aren't supported in this environment yet as 'FormData' is undefined. ${recommendation}`);
}
}
),
Blob: typeof Blob !== "undefined" ? Blob : class Blob {
constructor() {
throw new Error(`file uploads aren't supported in this environment yet as 'Blob' is undefined. ${recommendation}`);
}
},
File: (
// @ts-ignore
typeof File !== "undefined" ? File : class File {
// @ts-ignore
constructor() {
throw new Error(`file uploads aren't supported in this environment yet as 'File' is undefined. ${recommendation}`);
}
}
),
ReadableStream: (
// @ts-ignore
typeof ReadableStream !== "undefined" ? ReadableStream : class ReadableStream {
// @ts-ignore
constructor() {
throw new Error(`streaming isn't supported in this environment yet as 'ReadableStream' is undefined. ${recommendation}`);
}
}
),
getMultipartRequestOptions: async (form, opts) => ({
...opts,
body: new MultipartBody(form)
}),
getDefaultAgent: (url) => void 0,
fileFromPath: () => {
throw new Error("The `fileFromPath` function is only supported in Node. See the README for more details: https://www.github.com/openai/openai-node#file-uploads");
},
isFsReadStream: (value) => false
};
}
// node_modules/openai/_shims/index.mjs
if (!kind)
setShims(getRuntime(), { auto: true });
// node_modules/openai/error.mjs
var error_exports = {};
__export(error_exports, {
APIConnectionError: () => APIConnectionError,
APIConnectionTimeoutError: () => APIConnectionTimeoutError,
APIError: () => APIError,
APIUserAbortError: () => APIUserAbortError,
AuthenticationError: () => AuthenticationError,
BadRequestError: () => BadRequestError,
ConflictError: () => ConflictError,
InternalServerError: () => InternalServerError,
NotFoundError: () => NotFoundError,
OpenAIError: () => OpenAIError,
PermissionDeniedError: () => PermissionDeniedError,
RateLimitError: () => RateLimitError,
UnprocessableEntityError: () => UnprocessableEntityError
});
var OpenAIError = class extends Error {
};
var APIError = class extends OpenAIError {
constructor(status, error, message, headers) {
super(`${APIError.makeMessage(status, error, message)}`);
this.status = status;
this.headers = headers;
const data = error;
this.error = data;
this.code = data == null ? void 0 : data["code"];
this.param = data == null ? void 0 : data["param"];
this.type = data == null ? void 0 : data["type"];
}
static makeMessage(status, error, message) {
const msg = (error == null ? void 0 : error.message) ? typeof error.message === "string" ? error.message : JSON.stringify(error.message) : error ? JSON.stringify(error) : message;
if (status && msg) {
return `${status} ${msg}`;
}
if (status) {
return `${status} status code (no body)`;
}
if (msg) {
return msg;
}
return "(no status code or body)";
}
static generate(status, errorResponse, message, headers) {
if (!status) {
return new APIConnectionError({ cause: castToError(errorResponse) });
}
const error = errorResponse == null ? void 0 : errorResponse["error"];
if (status === 400) {
return new BadRequestError(status, error, message, headers);
}
if (status === 401) {
return new AuthenticationError(status, error, message, headers);
}
if (status === 403) {
return new PermissionDeniedError(status, error, message, headers);
}
if (status === 404) {
return new NotFoundError(status, error, message, headers);
}
if (status === 409) {
return new ConflictError(status, error, message, headers);
}
if (status === 422) {
return new UnprocessableEntityError(status, error, message, headers);
}
if (status === 429) {
return new RateLimitError(status, error, message, headers);
}
if (status >= 500) {
return new InternalServerError(status, error, message, headers);
}
return new APIError(status, error, message, headers);
}
};
var APIUserAbortError = class extends APIError {
constructor({ message } = {}) {
super(void 0, void 0, message || "Request was aborted.", void 0);
this.status = void 0;
}
};
var APIConnectionError = class extends APIError {
constructor({ message, cause }) {
super(void 0, void 0, message || "Connection error.", void 0);
this.status = void 0;
if (cause)
this.cause = cause;
}
};
var APIConnectionTimeoutError = class extends APIConnectionError {
constructor({ message } = {}) {
super({ message: message != null ? message : "Request timed out." });
}
};
var BadRequestError = class extends APIError {
constructor() {
super(...arguments);
this.status = 400;
}
};
var AuthenticationError = class extends APIError {
constructor() {
super(...arguments);
this.status = 401;
}
};
var PermissionDeniedError = class extends APIError {
constructor() {
super(...arguments);
this.status = 403;
}
};
var NotFoundError = class extends APIError {
constructor() {
super(...arguments);
this.status = 404;
}
};
var ConflictError = class extends APIError {
constructor() {
super(...arguments);
this.status = 409;
}
};
var UnprocessableEntityError = class extends APIError {
constructor() {
super(...arguments);
this.status = 422;
}
};
var RateLimitError = class extends APIError {
constructor() {
super(...arguments);
this.status = 429;
}
};
var InternalServerError = class extends APIError {
};
// node_modules/openai/streaming.mjs
var Stream = class {
constructor(iterator, controller) {
this.iterator = iterator;
this.controller = controller;
}
static fromSSEResponse(response, controller) {
let consumed = false;
const decoder = new SSEDecoder();
async function* iterMessages() {
if (!response.body) {
controller.abort();
throw new OpenAIError(`Attempted to iterate over a response with no body`);
}
const lineDecoder = new LineDecoder();
const iter = readableStreamAsyncIterable(response.body);
for await (const chunk of iter) {
for (const line of lineDecoder.decode(chunk)) {
const sse = decoder.decode(line);
if (sse)
yield sse;
}
}
for (const line of lineDecoder.flush()) {
const sse = decoder.decode(line);
if (sse)
yield sse;
}
}
async function* iterator() {
if (consumed) {
throw new Error("Cannot iterate over a consumed stream, use `.tee()` to split the stream.");
}
consumed = true;
let done = false;
try {
for await (const sse of iterMessages()) {
if (done)
continue;
if (sse.data.startsWith("[DONE]")) {
done = true;
continue;
}
if (sse.event === null) {
let data;
try {
data = JSON.parse(sse.data);
} catch (e) {
console.error(`Could not parse message into JSON:`, sse.data);
console.error(`From chunk:`, sse.raw);
throw e;
}
if (data && data.error) {
throw new APIError(void 0, data.error, void 0, void 0);
}
yield data;
}
}
done = true;
} catch (e) {
if (e instanceof Error && e.name === "AbortError")
return;
throw e;
} finally {
if (!done)
controller.abort();
}
}
return new Stream(iterator, controller);
}
/**
* Generates a Stream from a newline-separated ReadableStream
* where each item is a JSON value.
*/
static fromReadableStream(readableStream, controller) {
let consumed = false;
async function* iterLines() {
const lineDecoder = new LineDecoder();
const iter = readableStreamAsyncIterable(readableStream);
for await (const chunk of iter) {
for (const line of lineDecoder.decode(chunk)) {
yield line;
}
}
for (const line of lineDecoder.flush()) {
yield line;
}
}
async function* iterator() {
if (consumed) {
throw new Error("Cannot iterate over a consumed stream, use `.tee()` to split the stream.");
}
consumed = true;
let done = false;
try {
for await (const line of iterLines()) {
if (done)
continue;
if (line)
yield JSON.parse(line);
}
done = true;
} catch (e) {
if (e instanceof Error && e.name === "AbortError")
return;
throw e;
} finally {
if (!done)
controller.abort();
}
}
return new Stream(iterator, controller);
}
[Symbol.asyncIterator]() {
return this.iterator();
}
/**
* Splits the stream into two streams which can be
* independently read from at different speeds.
*/
tee() {
const left = [];
const right = [];
const iterator = this.iterator();
const teeIterator = (queue) => {
return {
next: () => {
if (queue.length === 0) {
const result = iterator.next();
left.push(result);
right.push(result);
}
return queue.shift();
}
};
};
return [
new Stream(() => teeIterator(left), this.controller),
new Stream(() => teeIterator(right), this.controller)
];
}
/**
* Converts this stream to a newline-separated ReadableStream of
* JSON stringified values in the stream
* which can be turned back into a Stream with `Stream.fromReadableStream()`.
*/
toReadableStream() {
const self = this;
let iter;
const encoder = new TextEncoder();
return new ReadableStream2({
async start() {
iter = self[Symbol.asyncIterator]();
},
async pull(ctrl) {
try {
const { value, done } = await iter.next();
if (done)
return ctrl.close();
const bytes = encoder.encode(JSON.stringify(value) + "\n");
ctrl.enqueue(bytes);
} catch (err) {
ctrl.error(err);
}
},
async cancel() {
var _a3;
await ((_a3 = iter.return) == null ? void 0 : _a3.call(iter));
}
});
}
};
var SSEDecoder = class {
constructor() {
this.event = null;
this.data = [];
this.chunks = [];
}
decode(line) {
if (line.endsWith("\r")) {
line = line.substring(0, line.length - 1);
}
if (!line) {
if (!this.event && !this.data.length)
return null;
const sse = {
event: this.event,
data: this.data.join("\n"),
raw: this.chunks
};
this.event = null;
this.data = [];
this.chunks = [];
return sse;
}
this.chunks.push(line);
if (line.startsWith(":")) {
return null;
}
let [fieldname, _2, value] = partition(line, ":");
if (value.startsWith(" ")) {
value = value.substring(1);
}
if (fieldname === "event") {
this.event = value;
} else if (fieldname === "data") {
this.data.push(value);
}
return null;
}
};
var LineDecoder = class {
constructor() {
this.buffer = [];
this.trailingCR = false;
}
decode(chunk) {
let text = this.decodeText(chunk);
if (this.trailingCR) {
text = "\r" + text;
this.trailingCR = false;
}
if (text.endsWith("\r")) {
this.trailingCR = true;
text = text.slice(0, -1);
}
if (!text) {
return [];
}
const trailingNewline = LineDecoder.NEWLINE_CHARS.has(text[text.length - 1] || "");
let lines = text.split(LineDecoder.NEWLINE_REGEXP);
if (lines.length === 1 && !trailingNewline) {
this.buffer.push(lines[0]);
return [];
}
if (this.buffer.length > 0) {
lines = [this.buffer.join("") + lines[0], ...lines.slice(1)];
this.buffer = [];
}
if (!trailingNewline) {
this.buffer = [lines.pop() || ""];
}
return lines;
}
decodeText(bytes) {
var _a3;
if (bytes == null)
return "";
if (typeof bytes === "string")
return bytes;
if (typeof Buffer !== "undefined") {
if (bytes instanceof Buffer) {
return bytes.toString();
}
if (bytes instanceof Uint8Array) {
return Buffer.from(bytes).toString();
}
throw new OpenAIError(`Unexpected: received non-Uint8Array (${bytes.constructor.name}) stream chunk in an environment with a global "Buffer" defined, which this library assumes to be Node. Please report this error.`);
}
if (typeof TextDecoder !== "undefined") {
if (bytes instanceof Uint8Array || bytes instanceof ArrayBuffer) {
(_a3 = this.textDecoder) != null ? _a3 : this.textDecoder = new TextDecoder("utf8");
return this.textDecoder.decode(bytes);
}
throw new OpenAIError(`Unexpected: received non-Uint8Array/ArrayBuffer (${bytes.constructor.name}) in a web platform. Please report this error.`);
}
throw new OpenAIError(`Unexpected: neither Buffer nor TextDecoder are available as globals. Please report this error.`);
}
flush() {
if (!this.buffer.length && !this.trailingCR) {
return [];
}
const lines = [this.buffer.join("")];
this.buffer = [];
this.trailingCR = false;
return lines;
}
};
LineDecoder.NEWLINE_CHARS = /* @__PURE__ */ new Set(["\n", "\r", "\v", "\f", "", "", "", "\x85", "\u2028", "\u2029"]);
LineDecoder.NEWLINE_REGEXP = /\r\n|[\n\r\x0b\x0c\x1c\x1d\x1e\x85\u2028\u2029]/g;
function partition(str2, delimiter) {
const index = str2.indexOf(delimiter);
if (index !== -1) {
return [str2.substring(0, index), delimiter, str2.substring(index + delimiter.length)];
}
return [str2, "", ""];
}
function readableStreamAsyncIterable(stream) {
if (stream[Symbol.asyncIterator])
return stream;
const reader = stream.getReader();
return {
async next() {
try {
const result = await reader.read();
if (result == null ? void 0 : result.done)
reader.releaseLock();
return result;
} catch (e) {
reader.releaseLock();
throw e;
}
},
async return() {
const cancelPromise = reader.cancel();
reader.releaseLock();
await cancelPromise;
return { done: true, value: void 0 };
},
[Symbol.asyncIterator]() {
return this;
}
};
}
// node_modules/openai/uploads.mjs
var isResponseLike = (value) => value != null && typeof value === "object" && typeof value.url === "string" && typeof value.blob === "function";
var isFileLike = (value) => value != null && typeof value === "object" && typeof value.name === "string" && typeof value.lastModified === "number" && isBlobLike(value);
var isBlobLike = (value) => value != null && typeof value === "object" && typeof value.size === "number" && typeof value.type === "string" && typeof value.text === "function" && typeof value.slice === "function" && typeof value.arrayBuffer === "function";
var isUploadable = (value) => {
return isFileLike(value) || isResponseLike(value) || isFsReadStream(value);
};
async function toFile(value, name, options = {}) {
var _a3, _b, _c;
value = await value;
if (isResponseLike(value)) {
const blob = await value.blob();
name || (name = (_a3 = new URL(value.url).pathname.split(/[\\/]/).pop()) != null ? _a3 : "unknown_file");
return new File2([blob], name, options);
}
const bits = await getBytes(value);
name || (name = (_b = getName(value)) != null ? _b : "unknown_file");
if (!options.type) {
const type = (_c = bits[0]) == null ? void 0 : _c.type;
if (typeof type === "string") {
options = { ...options, type };
}
}
return new File2(bits, name, options);
}
async function getBytes(value) {
var _a3;
let parts = [];
if (typeof value === "string" || ArrayBuffer.isView(value) || // includes Uint8Array, Buffer, etc.
value instanceof ArrayBuffer) {
parts.push(value);
} else if (isBlobLike(value)) {
parts.push(await value.arrayBuffer());
} else if (isAsyncIterableIterator(value)) {
for await (const chunk of value) {
parts.push(chunk);
}
} else {
throw new Error(`Unexpected data type: ${typeof value}; constructor: ${(_a3 = value == null ? void 0 : value.constructor) == null ? void 0 : _a3.name}; props: ${propsForError(value)}`);
}
return parts;
}
function propsForError(value) {
const props = Object.getOwnPropertyNames(value);
return `[${props.map((p2) => `"${p2}"`).join(", ")}]`;
}
function getName(value) {
var _a3;
return getStringFromMaybeBuffer(value.name) || getStringFromMaybeBuffer(value.filename) || // For fs.ReadStream
((_a3 = getStringFromMaybeBuffer(value.path)) == null ? void 0 : _a3.split(/[\\/]/).pop());
}
var getStringFromMaybeBuffer = (x2) => {
if (typeof x2 === "string")
return x2;
if (typeof Buffer !== "undefined" && x2 instanceof Buffer)
return String(x2);
return void 0;
};
var isAsyncIterableIterator = (value) => value != null && typeof value === "object" && typeof value[Symbol.asyncIterator] === "function";
var isMultipartBody = (body) => body && typeof body === "object" && body.body && body[Symbol.toStringTag] === "MultipartBody";
var multipartFormRequestOptions = async (opts) => {
const form = await createForm(opts.body);
return getMultipartRequestOptions(form, opts);
};
var createForm = async (body) => {
const form = new FormData2();
await Promise.all(Object.entries(body || {}).map(([key, value]) => addFormValue(form, key, value)));
return form;
};
var addFormValue = async (form, key, value) => {
if (value === void 0)
return;
if (value == null) {
throw new TypeError(`Received null for "${key}"; to pass null in FormData, you must use the string 'null'`);
}
if (typeof value === "string" || typeof value === "number" || typeof value === "boolean") {
form.append(key, String(value));
} else if (isUploadable(value)) {
const file = await toFile(value);
form.append(key, file);
} else if (Array.isArray(value)) {
await Promise.all(value.map((entry) => addFormValue(form, key + "[]", entry)));
} else if (typeof value === "object") {
await Promise.all(Object.entries(value).map(([name, prop]) => addFormValue(form, `${key}[${name}]`, prop)));
} else {
throw new TypeError(`Invalid value given to form, expected a string, number, boolean, object, Array, File or Blob but got ${value} instead`);
}
};
// node_modules/openai/core.mjs
var __classPrivateFieldSet = function(receiver, state, value, kind3, f) {
if (kind3 === "m")
throw new TypeError("Private method is not writable");
if (kind3 === "a" && !f)
throw new TypeError("Private accessor was defined without a setter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot write private member to an object whose class did not declare it");
return kind3 === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value), value;
};
var __classPrivateFieldGet = function(receiver, state, kind3, f) {
if (kind3 === "a" && !f)
throw new TypeError("Private accessor was defined without a getter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot read private member from an object whose class did not declare it");
return kind3 === "m" ? f : kind3 === "a" ? f.call(receiver) : f ? f.value : state.get(receiver);
};
var _AbstractPage_client;
async function defaultParseResponse(props) {
const { response } = props;
if (props.options.stream) {
debug("response", response.status, response.url, response.headers, response.body);
return Stream.fromSSEResponse(response, props.controller);
}
if (response.status === 204) {
return null;
}
if (props.options.__binaryResponse) {
return response;
}
const contentType = response.headers.get("content-type");
if (contentType == null ? void 0 : contentType.includes("application/json")) {
const json = await response.json();
debug("response", response.status, response.url, response.headers, json);
return json;
}
const text = await response.text();
debug("response", response.status, response.url, response.headers, text);
return text;
}
var APIPromise = class extends Promise {
constructor(responsePromise, parseResponse = defaultParseResponse) {
super((resolve) => {
resolve(null);
});
this.responsePromise = responsePromise;
this.parseResponse = parseResponse;
}
_thenUnwrap(transform) {
return new APIPromise(this.responsePromise, async (props) => transform(await this.parseResponse(props)));
}
/**
* Gets the raw `Response` instance instead of parsing the response
* data.
*
* If you want to parse the response body but still get the `Response`
* instance, you can use {@link withResponse()}.
*
* 👋 Getting the wrong TypeScript type for `Response`?
* Try setting `"moduleResolution": "NodeNext"` if you can,
* or add one of these imports before your first `import … from 'openai'`:
* - `import 'openai/shims/node'` (if you're running on Node)
* - `import 'openai/shims/web'` (otherwise)
*/
asResponse() {
return this.responsePromise.then((p2) => p2.response);
}
/**
* Gets the parsed response data and the raw `Response` instance.
*
* If you just want to get the raw `Response` instance without parsing it,
* you can use {@link asResponse()}.
*
*
* 👋 Getting the wrong TypeScript type for `Response`?
* Try setting `"moduleResolution": "NodeNext"` if you can,
* or add one of these imports before your first `import … from 'openai'`:
* - `import 'openai/shims/node'` (if you're running on Node)
* - `import 'openai/shims/web'` (otherwise)
*/
async withResponse() {
const [data, response] = await Promise.all([this.parse(), this.asResponse()]);
return { data, response };
}
parse() {
if (!this.parsedPromise) {
this.parsedPromise = this.responsePromise.then(this.parseResponse);
}
return this.parsedPromise;
}
then(onfulfilled, onrejected) {
return this.parse().then(onfulfilled, onrejected);
}
catch(onrejected) {
return this.parse().catch(onrejected);
}
finally(onfinally) {
return this.parse().finally(onfinally);
}
};
var APIClient = class {
constructor({
baseURL,
maxRetries = 2,
timeout = 6e5,
// 10 minutes
httpAgent,
fetch: overridenFetch
}) {
this.baseURL = baseURL;
this.maxRetries = validatePositiveInteger("maxRetries", maxRetries);
this.timeout = validatePositiveInteger("timeout", timeout);
this.httpAgent = httpAgent;
this.fetch = overridenFetch != null ? overridenFetch : fetch2;
}
authHeaders(opts) {
return {};
}
/**
* Override this to add your own default headers, for example:
*
* {
* ...super.defaultHeaders(),
* Authorization: 'Bearer 123',
* }
*/
defaultHeaders(opts) {
return {
Accept: "application/json",
"Content-Type": "application/json",
"User-Agent": this.getUserAgent(),
...getPlatformHeaders(),
...this.authHeaders(opts)
};
}
/**
* Override this to add your own headers validation:
*/
validateHeaders(headers, customHeaders) {
}
defaultIdempotencyKey() {
return `stainless-node-retry-${uuid4()}`;
}
get(path, opts) {
return this.methodRequest("get", path, opts);
}
post(path, opts) {
return this.methodRequest("post", path, opts);
}
patch(path, opts) {
return this.methodRequest("patch", path, opts);
}
put(path, opts) {
return this.methodRequest("put", path, opts);
}
delete(path, opts) {
return this.methodRequest("delete", path, opts);
}
methodRequest(method, path, opts) {
return this.request(Promise.resolve(opts).then((opts2) => ({ method, path, ...opts2 })));
}
getAPIList(path, Page2, opts) {
return this.requestAPIList(Page2, { method: "get", path, ...opts });
}
calculateContentLength(body) {
if (typeof body === "string") {
if (typeof Buffer !== "undefined") {
return Buffer.byteLength(body, "utf8").toString();
}
if (typeof TextEncoder !== "undefined") {
const encoder = new TextEncoder();
const encoded = encoder.encode(body);
return encoded.length.toString();
}
}
return null;
}
buildRequest(options) {
var _a3, _b, _c, _d, _e, _f;
const { method, path, query, headers = {} } = options;
const body = isMultipartBody(options.body) ? options.body.body : options.body ? JSON.stringify(options.body, null, 2) : null;
const contentLength = this.calculateContentLength(body);
const url = this.buildURL(path, query);
if ("timeout" in options)
validatePositiveInteger("timeout", options.timeout);
const timeout = (_a3 = options.timeout) != null ? _a3 : this.timeout;
const httpAgent = (_c = (_b = options.httpAgent) != null ? _b : this.httpAgent) != null ? _c : getDefaultAgent(url);
const minAgentTimeout = timeout + 1e3;
if (typeof ((_d = httpAgent == null ? void 0 : httpAgent.options) == null ? void 0 : _d.timeout) === "number" && minAgentTimeout > ((_e = httpAgent.options.timeout) != null ? _e : 0)) {
httpAgent.options.timeout = minAgentTimeout;
}
if (this.idempotencyHeader && method !== "get") {
if (!options.idempotencyKey)
options.idempotencyKey = this.defaultIdempotencyKey();
headers[this.idempotencyHeader] = options.idempotencyKey;
}
const reqHeaders = {
...contentLength && { "Content-Length": contentLength },
...this.defaultHeaders(options),
...headers
};
if (isMultipartBody(options.body) && kind !== "node") {
delete reqHeaders["Content-Type"];
}
Object.keys(reqHeaders).forEach((key) => reqHeaders[key] === null && delete reqHeaders[key]);
const req = {
method,
...body && { body },
headers: reqHeaders,
...httpAgent && { agent: httpAgent },
// @ts-ignore node-fetch uses a custom AbortSignal type that is
// not compatible with standard web types
signal: (_f = options.signal) != null ? _f : null
};
this.validateHeaders(reqHeaders, headers);
return { req, url, timeout };
}
/**
* Used as a callback for mutating the given `RequestInit` object.
*
* This is useful for cases where you want to add certain headers based off of
* the request properties, e.g. `method` or `url`.
*/
async prepareRequest(request, { url, options }) {
}
parseHeaders(headers) {
return !headers ? {} : Symbol.iterator in headers ? Object.fromEntries(Array.from(headers).map((header) => [...header])) : { ...headers };
}
makeStatusError(status, error, message, headers) {
return APIError.generate(status, error, message, headers);
}
request(options, remainingRetries = null) {
return new APIPromise(this.makeRequest(options, remainingRetries));
}
async makeRequest(optionsInput, retriesRemaining) {
var _a3, _b, _c;
const options = await optionsInput;
if (retriesRemaining == null) {
retriesRemaining = (_a3 = options.maxRetries) != null ? _a3 : this.maxRetries;
}
const { req, url, timeout } = this.buildRequest(options);
await this.prepareRequest(req, { url, options });
debug("request", url, options, req.headers);
if ((_b = options.signal) == null ? void 0 : _b.aborted) {
throw new APIUserAbortError();
}
const controller = new AbortController();
const response = await this.fetchWithTimeout(url, req, timeout, controller).catch(castToError);
if (response instanceof Error) {
if ((_c = options.signal) == null ? void 0 : _c.aborted) {
throw new APIUserAbortError();
}
if (retriesRemaining) {
return this.retryRequest(options, retriesRemaining);
}
if (response.name === "AbortError") {
throw new APIConnectionTimeoutError();
}
throw new APIConnectionError({ cause: response });
}
const responseHeaders = createResponseHeaders(response.headers);
if (!response.ok) {
if (retriesRemaining && this.shouldRetry(response)) {
return this.retryRequest(options, retriesRemaining, responseHeaders);
}
const errText = await response.text().catch((e) => castToError(e).message);
const errJSON = safeJSON(errText);
const errMessage = errJSON ? void 0 : errText;
debug("response", response.status, url, responseHeaders, errMessage);
const err = this.makeStatusError(response.status, errJSON, errMessage, responseHeaders);
throw err;
}
return { response, options, controller };
}
requestAPIList(Page2, options) {
const request = this.makeRequest(options, null);
return new PagePromise(this, request, Page2);
}
buildURL(path, query) {
const url = isAbsoluteURL(path) ? new URL(path) : new URL(this.baseURL + (this.baseURL.endsWith("/") && path.startsWith("/") ? path.slice(1) : path));
const defaultQuery = this.defaultQuery();
if (!isEmptyObj(defaultQuery)) {
query = { ...defaultQuery, ...query };
}
if (query) {
url.search = this.stringifyQuery(query);
}
return url.toString();
}
stringifyQuery(query) {
return Object.entries(query).filter(([_2, value]) => typeof value !== "undefined").map(([key, value]) => {
if (typeof value === "string" || typeof value === "number" || typeof value === "boolean") {
return `${encodeURIComponent(key)}=${encodeURIComponent(value)}`;
}
if (value === null) {
return `${encodeURIComponent(key)}=`;
}
throw new OpenAIError(`Cannot stringify type ${typeof value}; Expected string, number, boolean, or null. If you need to pass nested query parameters, you can manually encode them, e.g. { query: { 'foo[key1]': value1, 'foo[key2]': value2 } }, and please open a GitHub issue requesting better support for your use case.`);
}).join("&");
}
async fetchWithTimeout(url, init, ms, controller) {
const { signal, ...options } = init || {};
if (signal)
signal.addEventListener("abort", () => controller.abort());
const timeout = setTimeout(() => controller.abort(), ms);
return this.getRequestClient().fetch.call(void 0, url, { signal: controller.signal, ...options }).finally(() => {
clearTimeout(timeout);
});
}
getRequestClient() {
return { fetch: this.fetch };
}
shouldRetry(response) {
const shouldRetryHeader = response.headers.get("x-should-retry");
if (shouldRetryHeader === "true")
return true;
if (shouldRetryHeader === "false")
return false;
if (response.status === 408)
return true;
if (response.status === 409)
return true;
if (response.status === 429)
return true;
if (response.status >= 500)
return true;
return false;
}
async retryRequest(options, retriesRemaining, responseHeaders) {
var _a3;
let timeoutMillis;
const retryAfterHeader = responseHeaders == null ? void 0 : responseHeaders["retry-after"];
if (retryAfterHeader) {
const timeoutSeconds = parseInt(retryAfterHeader);
if (!Number.isNaN(timeoutSeconds)) {
timeoutMillis = timeoutSeconds * 1e3;
} else {
timeoutMillis = Date.parse(retryAfterHeader) - Date.now();
}
}
if (!timeoutMillis || !Number.isInteger(timeoutMillis) || timeoutMillis <= 0 || timeoutMillis > 60 * 1e3) {
const maxRetries = (_a3 = options.maxRetries) != null ? _a3 : this.maxRetries;
timeoutMillis = this.calculateDefaultRetryTimeoutMillis(retriesRemaining, maxRetries);
}
await sleep(timeoutMillis);
return this.makeRequest(options, retriesRemaining - 1);
}
calculateDefaultRetryTimeoutMillis(retriesRemaining, maxRetries) {
const initialRetryDelay = 0.5;
const maxRetryDelay = 8;
const numRetries = maxRetries - retriesRemaining;
const sleepSeconds = Math.min(initialRetryDelay * Math.pow(2, numRetries), maxRetryDelay);
const jitter = 1 - Math.random() * 0.25;
return sleepSeconds * jitter * 1e3;
}
getUserAgent() {
return `${this.constructor.name}/JS ${VERSION}`;
}
};
var AbstractPage = class {
constructor(client, response, body, options) {
_AbstractPage_client.set(this, void 0);
__classPrivateFieldSet(this, _AbstractPage_client, client, "f");
this.options = options;
this.response = response;
this.body = body;
}
hasNextPage() {
const items = this.getPaginatedItems();
if (!items.length)
return false;
return this.nextPageInfo() != null;
}
async getNextPage() {
const nextInfo = this.nextPageInfo();
if (!nextInfo) {
throw new OpenAIError("No next page expected; please check `.hasNextPage()` before calling `.getNextPage()`.");
}
const nextOptions = { ...this.options };
if ("params" in nextInfo) {
nextOptions.query = { ...nextOptions.query, ...nextInfo.params };
} else if ("url" in nextInfo) {
const params = [...Object.entries(nextOptions.query || {}), ...nextInfo.url.searchParams.entries()];
for (const [key, value] of params) {
nextInfo.url.searchParams.set(key, value);
}
nextOptions.query = void 0;
nextOptions.path = nextInfo.url.toString();
}
return await __classPrivateFieldGet(this, _AbstractPage_client, "f").requestAPIList(this.constructor, nextOptions);
}
async *iterPages() {
let page = this;
yield page;
while (page.hasNextPage()) {
page = await page.getNextPage();
yield page;
}
}
async *[(_AbstractPage_client = /* @__PURE__ */ new WeakMap(), Symbol.asyncIterator)]() {
for await (const page of this.iterPages()) {
for (const item of page.getPaginatedItems()) {
yield item;
}
}
}
};
var PagePromise = class extends APIPromise {
constructor(client, request, Page2) {
super(request, async (props) => new Page2(client, props.response, await defaultParseResponse(props), props.options));
}
/**
* Allow auto-paginating iteration on an unawaited list call, eg:
*
* for await (const item of client.items.list()) {
* console.log(item)
* }
*/
async *[Symbol.asyncIterator]() {
const page = await this;
for await (const item of page) {
yield item;
}
}
};
var createResponseHeaders = (headers) => {
return new Proxy(Object.fromEntries(
// @ts-ignore
headers.entries()
), {
get(target, name) {
const key = name.toString();
return target[key.toLowerCase()] || target[key];
}
});
};
var requestOptionsKeys = {
method: true,
path: true,
query: true,
body: true,
headers: true,
maxRetries: true,
stream: true,
timeout: true,
httpAgent: true,
signal: true,
idempotencyKey: true,
__binaryResponse: true
};
var isRequestOptions = (obj) => {
return typeof obj === "object" && obj !== null && !isEmptyObj(obj) && Object.keys(obj).every((k2) => hasOwn(requestOptionsKeys, k2));
};
var getPlatformProperties = () => {
if (typeof Deno !== "undefined" && Deno.build != null) {
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION,
"X-Stainless-OS": normalizePlatform(Deno.build.os),
"X-Stainless-Arch": normalizeArch(Deno.build.arch),
"X-Stainless-Runtime": "deno",
"X-Stainless-Runtime-Version": Deno.version
};
}
if (typeof EdgeRuntime !== "undefined") {
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION,
"X-Stainless-OS": "Unknown",
"X-Stainless-Arch": `other:${EdgeRuntime}`,
"X-Stainless-Runtime": "edge",
"X-Stainless-Runtime-Version": process.version
};
}
if (Object.prototype.toString.call(typeof process !== "undefined" ? process : 0) === "[object process]") {
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION,
"X-Stainless-OS": normalizePlatform(process.platform),
"X-Stainless-Arch": normalizeArch(process.arch),
"X-Stainless-Runtime": "node",
"X-Stainless-Runtime-Version": process.version
};
}
const browserInfo = getBrowserInfo();
if (browserInfo) {
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION,
"X-Stainless-OS": "Unknown",
"X-Stainless-Arch": "unknown",
"X-Stainless-Runtime": `browser:${browserInfo.browser}`,
"X-Stainless-Runtime-Version": browserInfo.version
};
}
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION,
"X-Stainless-OS": "Unknown",
"X-Stainless-Arch": "unknown",
"X-Stainless-Runtime": "unknown",
"X-Stainless-Runtime-Version": "unknown"
};
};
function getBrowserInfo() {
if (typeof navigator === "undefined" || !navigator) {
return null;
}
const browserPatterns = [
{ key: "edge", pattern: /Edge(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "ie", pattern: /MSIE(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "ie", pattern: /Trident(?:.*rv\:(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "chrome", pattern: /Chrome(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "firefox", pattern: /Firefox(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "safari", pattern: /(?:Version\W+(\d+)\.(\d+)(?:\.(\d+))?)?(?:\W+Mobile\S*)?\W+Safari/ }
];
for (const { key, pattern } of browserPatterns) {
const match = pattern.exec(navigator.userAgent);
if (match) {
const major = match[1] || 0;
const minor = match[2] || 0;
const patch = match[3] || 0;
return { browser: key, version: `${major}.${minor}.${patch}` };
}
}
return null;
}
var normalizeArch = (arch) => {
if (arch === "x32")
return "x32";
if (arch === "x86_64" || arch === "x64")
return "x64";
if (arch === "arm")
return "arm";
if (arch === "aarch64" || arch === "arm64")
return "arm64";
if (arch)
return `other:${arch}`;
return "unknown";
};
var normalizePlatform = (platform) => {
platform = platform.toLowerCase();
if (platform.includes("ios"))
return "iOS";
if (platform === "android")
return "Android";
if (platform === "darwin")
return "MacOS";
if (platform === "win32")
return "Windows";
if (platform === "freebsd")
return "FreeBSD";
if (platform === "openbsd")
return "OpenBSD";
if (platform === "linux")
return "Linux";
if (platform)
return `Other:${platform}`;
return "Unknown";
};
var _platformHeaders;
var getPlatformHeaders = () => {
return _platformHeaders != null ? _platformHeaders : _platformHeaders = getPlatformProperties();
};
var safeJSON = (text) => {
try {
return JSON.parse(text);
} catch (err) {
return void 0;
}
};
var startsWithSchemeRegexp = new RegExp("^(?:[a-z]+:)?//", "i");
var isAbsoluteURL = (url) => {
return startsWithSchemeRegexp.test(url);
};
var sleep = (ms) => new Promise((resolve) => setTimeout(resolve, ms));
var validatePositiveInteger = (name, n) => {
if (typeof n !== "number" || !Number.isInteger(n)) {
throw new OpenAIError(`${name} must be an integer`);
}
if (n < 0) {
throw new OpenAIError(`${name} must be a positive integer`);
}
return n;
};
var castToError = (err) => {
if (err instanceof Error)
return err;
return new Error(err);
};
var readEnv = (env) => {
var _a3, _b, _c, _d;
if (typeof process !== "undefined") {
return (_b = (_a3 = process.env) == null ? void 0 : _a3[env]) != null ? _b : void 0;
}
if (typeof Deno !== "undefined") {
return (_d = (_c = Deno.env) == null ? void 0 : _c.get) == null ? void 0 : _d.call(_c, env);
}
return void 0;
};
function isEmptyObj(obj) {
if (!obj)
return true;
for (const _k in obj)
return false;
return true;
}
function hasOwn(obj, key) {
return Object.prototype.hasOwnProperty.call(obj, key);
}
function debug(action, ...args) {
if (typeof process !== "undefined" && process.env["DEBUG"] === "true") {
console.log(`OpenAI:DEBUG:${action}`, ...args);
}
}
var uuid4 = () => {
return "xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx".replace(/[xy]/g, (c2) => {
const r2 = Math.random() * 16 | 0;
const v = c2 === "x" ? r2 : r2 & 3 | 8;
return v.toString(16);
});
};
var isRunningInBrowser = () => {
return (
// @ts-ignore
typeof window !== "undefined" && // @ts-ignore
typeof window.document !== "undefined" && // @ts-ignore
typeof navigator !== "undefined"
);
};
// node_modules/openai/pagination.mjs
var Page = class extends AbstractPage {
constructor(client, response, body, options) {
super(client, response, body, options);
this.data = body.data;
this.object = body.object;
}
getPaginatedItems() {
return this.data;
}
// @deprecated Please use `nextPageInfo()` instead
/**
* This page represents a response that isn't actually paginated at the API level
* so there will never be any next page params.
*/
nextPageParams() {
return null;
}
nextPageInfo() {
return null;
}
};
var CursorPage = class extends AbstractPage {
constructor(client, response, body, options) {
super(client, response, body, options);
this.data = body.data;
}
getPaginatedItems() {
return this.data;
}
// @deprecated Please use `nextPageInfo()` instead
nextPageParams() {
const info = this.nextPageInfo();
if (!info)
return null;
if ("params" in info)
return info.params;
const params = Object.fromEntries(info.url.searchParams);
if (!Object.keys(params).length)
return null;
return params;
}
nextPageInfo() {
var _a3, _b;
if (!((_a3 = this.data) == null ? void 0 : _a3.length)) {
return null;
}
const next = (_b = this.data[this.data.length - 1]) == null ? void 0 : _b.id;
if (!next)
return null;
return { params: { after: next } };
}
};
// node_modules/openai/resource.mjs
var APIResource = class {
constructor(client) {
this.client = client;
this.get = client.get.bind(client);
this.post = client.post.bind(client);
this.patch = client.patch.bind(client);
this.put = client.put.bind(client);
this.delete = client.delete.bind(client);
this.getAPIList = client.getAPIList.bind(client);
}
};
// node_modules/openai/resources/chat/completions.mjs
var Completions = class extends APIResource {
create(body, options) {
var _a3;
return this.post("/chat/completions", { body, ...options, stream: (_a3 = body.stream) != null ? _a3 : false });
}
};
(function(Completions6) {
})(Completions || (Completions = {}));
// node_modules/openai/resources/chat/chat.mjs
var Chat = class extends APIResource {
constructor() {
super(...arguments);
this.completions = new Completions(this.client);
}
};
(function(Chat4) {
Chat4.Completions = Completions;
})(Chat || (Chat = {}));
// node_modules/openai/resources/audio/speech.mjs
var Speech = class extends APIResource {
/**
* Generates audio from the input text.
*/
create(body, options) {
return this.post("/audio/speech", { body, ...options, __binaryResponse: true });
}
};
(function(Speech2) {
})(Speech || (Speech = {}));
// node_modules/openai/resources/audio/transcriptions.mjs
var Transcriptions = class extends APIResource {
/**
* Transcribes audio into the input language.
*/
create(body, options) {
return this.post("/audio/transcriptions", multipartFormRequestOptions({ body, ...options }));
}
};
(function(Transcriptions3) {
})(Transcriptions || (Transcriptions = {}));
// node_modules/openai/resources/audio/translations.mjs
var Translations = class extends APIResource {
/**
* Translates audio into English.
*/
create(body, options) {
return this.post("/audio/translations", multipartFormRequestOptions({ body, ...options }));
}
};
(function(Translations3) {
})(Translations || (Translations = {}));
// node_modules/openai/resources/audio/audio.mjs
var Audio = class extends APIResource {
constructor() {
super(...arguments);
this.transcriptions = new Transcriptions(this.client);
this.translations = new Translations(this.client);
this.speech = new Speech(this.client);
}
};
(function(Audio3) {
Audio3.Transcriptions = Transcriptions;
Audio3.Translations = Translations;
Audio3.Speech = Speech;
})(Audio || (Audio = {}));
// node_modules/openai/resources/beta/assistants/files.mjs
var Files = class extends APIResource {
/**
* Create an assistant file by attaching a
* [File](https://platform.openai.com/docs/api-reference/files) to an
* [assistant](https://platform.openai.com/docs/api-reference/assistants).
*/
create(assistantId, body, options) {
return this.post(`/assistants/${assistantId}/files`, {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Retrieves an AssistantFile.
*/
retrieve(assistantId, fileId, options) {
return this.get(`/assistants/${assistantId}/files/${fileId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
list(assistantId, query = {}, options) {
if (isRequestOptions(query)) {
return this.list(assistantId, {}, query);
}
return this.getAPIList(`/assistants/${assistantId}/files`, AssistantFilesPage, {
query,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Delete an assistant file.
*/
del(assistantId, fileId, options) {
return this.delete(`/assistants/${assistantId}/files/${fileId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
};
var AssistantFilesPage = class extends CursorPage {
};
(function(Files4) {
Files4.AssistantFilesPage = AssistantFilesPage;
})(Files || (Files = {}));
// node_modules/openai/resources/beta/assistants/assistants.mjs
var Assistants = class extends APIResource {
constructor() {
super(...arguments);
this.files = new Files(this.client);
}
/**
* Create an assistant with a model and instructions.
*/
create(body, options) {
return this.post("/assistants", {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Retrieves an assistant.
*/
retrieve(assistantId, options) {
return this.get(`/assistants/${assistantId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Modifies an assistant.
*/
update(assistantId, body, options) {
return this.post(`/assistants/${assistantId}`, {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
list(query = {}, options) {
if (isRequestOptions(query)) {
return this.list({}, query);
}
return this.getAPIList("/assistants", AssistantsPage, {
query,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Delete an assistant.
*/
del(assistantId, options) {
return this.delete(`/assistants/${assistantId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
};
var AssistantsPage = class extends CursorPage {
};
(function(Assistants2) {
Assistants2.AssistantsPage = AssistantsPage;
Assistants2.Files = Files;
Assistants2.AssistantFilesPage = AssistantFilesPage;
})(Assistants || (Assistants = {}));
// node_modules/openai/lib/RunnableFunction.mjs
function isRunnableFunctionWithParse(fn) {
return typeof fn.parse === "function";
}
// node_modules/openai/lib/chatCompletionUtils.mjs
var isAssistantMessage = (message) => {
return (message == null ? void 0 : message.role) === "assistant";
};
var isFunctionMessage = (message) => {
return (message == null ? void 0 : message.role) === "function";
};
var isToolMessage = (message) => {
return (message == null ? void 0 : message.role) === "tool";
};
// node_modules/openai/lib/AbstractChatCompletionRunner.mjs
var __classPrivateFieldSet2 = function(receiver, state, value, kind3, f) {
if (kind3 === "m")
throw new TypeError("Private method is not writable");
if (kind3 === "a" && !f)
throw new TypeError("Private accessor was defined without a setter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot write private member to an object whose class did not declare it");
return kind3 === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value), value;
};
var __classPrivateFieldGet2 = function(receiver, state, kind3, f) {
if (kind3 === "a" && !f)
throw new TypeError("Private accessor was defined without a getter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot read private member from an object whose class did not declare it");
return kind3 === "m" ? f : kind3 === "a" ? f.call(receiver) : f ? f.value : state.get(receiver);
};
var _AbstractChatCompletionRunner_instances;
var _AbstractChatCompletionRunner_connectedPromise;
var _AbstractChatCompletionRunner_resolveConnectedPromise;
var _AbstractChatCompletionRunner_rejectConnectedPromise;
var _AbstractChatCompletionRunner_endPromise;
var _AbstractChatCompletionRunner_resolveEndPromise;
var _AbstractChatCompletionRunner_rejectEndPromise;
var _AbstractChatCompletionRunner_listeners;
var _AbstractChatCompletionRunner_ended;
var _AbstractChatCompletionRunner_errored;
var _AbstractChatCompletionRunner_aborted;
var _AbstractChatCompletionRunner_catchingPromiseCreated;
var _AbstractChatCompletionRunner_getFinalContent;
var _AbstractChatCompletionRunner_getFinalMessage;
var _AbstractChatCompletionRunner_getFinalFunctionCall;
var _AbstractChatCompletionRunner_getFinalFunctionCallResult;
var _AbstractChatCompletionRunner_calculateTotalUsage;
var _AbstractChatCompletionRunner_handleError;
var _AbstractChatCompletionRunner_validateParams;
var _AbstractChatCompletionRunner_stringifyFunctionCallResult;
var DEFAULT_MAX_CHAT_COMPLETIONS = 10;
var AbstractChatCompletionRunner = class {
constructor() {
_AbstractChatCompletionRunner_instances.add(this);
this.controller = new AbortController();
_AbstractChatCompletionRunner_connectedPromise.set(this, void 0);
_AbstractChatCompletionRunner_resolveConnectedPromise.set(this, () => {
});
_AbstractChatCompletionRunner_rejectConnectedPromise.set(this, () => {
});
_AbstractChatCompletionRunner_endPromise.set(this, void 0);
_AbstractChatCompletionRunner_resolveEndPromise.set(this, () => {
});
_AbstractChatCompletionRunner_rejectEndPromise.set(this, () => {
});
_AbstractChatCompletionRunner_listeners.set(this, {});
this._chatCompletions = [];
this.messages = [];
_AbstractChatCompletionRunner_ended.set(this, false);
_AbstractChatCompletionRunner_errored.set(this, false);
_AbstractChatCompletionRunner_aborted.set(this, false);
_AbstractChatCompletionRunner_catchingPromiseCreated.set(this, false);
_AbstractChatCompletionRunner_handleError.set(this, (error) => {
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_errored, true, "f");
if (error instanceof Error && error.name === "AbortError") {
error = new APIUserAbortError();
}
if (error instanceof APIUserAbortError) {
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_aborted, true, "f");
return this._emit("abort", error);
}
if (error instanceof OpenAIError) {
return this._emit("error", error);
}
if (error instanceof Error) {
const openAIError = new OpenAIError(error.message);
openAIError.cause = error;
return this._emit("error", openAIError);
}
return this._emit("error", new OpenAIError(String(error)));
});
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_connectedPromise, new Promise((resolve, reject) => {
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_resolveConnectedPromise, resolve, "f");
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_rejectConnectedPromise, reject, "f");
}), "f");
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_endPromise, new Promise((resolve, reject) => {
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_resolveEndPromise, resolve, "f");
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_rejectEndPromise, reject, "f");
}), "f");
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_connectedPromise, "f").catch(() => {
});
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_endPromise, "f").catch(() => {
});
}
_run(executor) {
setTimeout(() => {
executor().then(() => {
this._emitFinal();
this._emit("end");
}, __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_handleError, "f"));
}, 0);
}
_addChatCompletion(chatCompletion) {
var _a3;
this._chatCompletions.push(chatCompletion);
this._emit("chatCompletion", chatCompletion);
const message = (_a3 = chatCompletion.choices[0]) == null ? void 0 : _a3.message;
if (message)
this._addMessage(message);
return chatCompletion;
}
_addMessage(message, emit = true) {
this.messages.push(message);
if (emit) {
this._emit("message", message);
if ((isFunctionMessage(message) || isToolMessage(message)) && message.content) {
this._emit("functionCallResult", message.content);
} else if (isAssistantMessage(message) && message.function_call) {
this._emit("functionCall", message.function_call);
} else if (isAssistantMessage(message) && message.tool_calls) {
for (const tool_call of message.tool_calls) {
if (tool_call.type === "function") {
this._emit("functionCall", tool_call.function);
}
}
}
}
}
_connected() {
if (this.ended)
return;
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_resolveConnectedPromise, "f").call(this);
this._emit("connect");
}
get ended() {
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_ended, "f");
}
get errored() {
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_errored, "f");
}
get aborted() {
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_aborted, "f");
}
abort() {
this.controller.abort();
}
/**
* Adds the listener function to the end of the listeners array for the event.
* No checks are made to see if the listener has already been added. Multiple calls passing
* the same combination of event and listener will result in the listener being added, and
* called, multiple times.
* @returns this ChatCompletionStream, so that calls can be chained
*/
on(event, listener) {
const listeners = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_listeners, "f")[event] || (__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_listeners, "f")[event] = []);
listeners.push({ listener });
return this;
}
/**
* Removes the specified listener from the listener array for the event.
* off() will remove, at most, one instance of a listener from the listener array. If any single
* listener has been added multiple times to the listener array for the specified event, then
* off() must be called multiple times to remove each instance.
* @returns this ChatCompletionStream, so that calls can be chained
*/
off(event, listener) {
const listeners = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_listeners, "f")[event];
if (!listeners)
return this;
const index = listeners.findIndex((l2) => l2.listener === listener);
if (index >= 0)
listeners.splice(index, 1);
return this;
}
/**
* Adds a one-time listener function for the event. The next time the event is triggered,
* this listener is removed and then invoked.
* @returns this ChatCompletionStream, so that calls can be chained
*/
once(event, listener) {
const listeners = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_listeners, "f")[event] || (__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_listeners, "f")[event] = []);
listeners.push({ listener, once: true });
return this;
}
/**
* This is similar to `.once()`, but returns a Promise that resolves the next time
* the event is triggered, instead of calling a listener callback.
* @returns a Promise that resolves the next time given event is triggered,
* or rejects if an error is emitted. (If you request the 'error' event,
* returns a promise that resolves with the error).
*
* Example:
*
* const message = await stream.emitted('message') // rejects if the stream errors
*/
emitted(event) {
return new Promise((resolve, reject) => {
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_catchingPromiseCreated, true, "f");
if (event !== "error")
this.once("error", reject);
this.once(event, resolve);
});
}
async done() {
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_catchingPromiseCreated, true, "f");
await __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_endPromise, "f");
}
/**
* @returns a promise that resolves with the final ChatCompletion, or rejects
* if an error occurred or the stream ended prematurely without producing a ChatCompletion.
*/
async finalChatCompletion() {
await this.done();
const completion = this._chatCompletions[this._chatCompletions.length - 1];
if (!completion)
throw new OpenAIError("stream ended without producing a ChatCompletion");
return completion;
}
/**
* @returns a promise that resolves with the content of the final ChatCompletionMessage, or rejects
* if an error occurred or the stream ended prematurely without producing a ChatCompletionMessage.
*/
async finalContent() {
await this.done();
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_getFinalContent).call(this);
}
/**
* @returns a promise that resolves with the the final assistant ChatCompletionMessage response,
* or rejects if an error occurred or the stream ended prematurely without producing a ChatCompletionMessage.
*/
async finalMessage() {
await this.done();
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_getFinalMessage).call(this);
}
/**
* @returns a promise that resolves with the content of the final FunctionCall, or rejects
* if an error occurred or the stream ended prematurely without producing a ChatCompletionMessage.
*/
async finalFunctionCall() {
await this.done();
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_getFinalFunctionCall).call(this);
}
async finalFunctionCallResult() {
await this.done();
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_getFinalFunctionCallResult).call(this);
}
async totalUsage() {
await this.done();
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_calculateTotalUsage).call(this);
}
allChatCompletions() {
return [...this._chatCompletions];
}
_emit(event, ...args) {
if (__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_ended, "f"))
return;
if (event === "end") {
__classPrivateFieldSet2(this, _AbstractChatCompletionRunner_ended, true, "f");
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_resolveEndPromise, "f").call(this);
}
const listeners = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_listeners, "f")[event];
if (listeners) {
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_listeners, "f")[event] = listeners.filter((l2) => !l2.once);
listeners.forEach(({ listener }) => listener(...args));
}
if (event === "abort") {
const error = args[0];
if (!__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_catchingPromiseCreated, "f") && !(listeners == null ? void 0 : listeners.length)) {
Promise.reject(error);
}
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_rejectConnectedPromise, "f").call(this, error);
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_rejectEndPromise, "f").call(this, error);
this._emit("end");
return;
}
if (event === "error") {
const error = args[0];
if (!__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_catchingPromiseCreated, "f") && !(listeners == null ? void 0 : listeners.length)) {
Promise.reject(error);
}
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_rejectConnectedPromise, "f").call(this, error);
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_rejectEndPromise, "f").call(this, error);
this._emit("end");
}
}
_emitFinal() {
const completion = this._chatCompletions[this._chatCompletions.length - 1];
if (completion)
this._emit("finalChatCompletion", completion);
const finalMessage = this.messages[this.messages.length - 1];
if (finalMessage)
this._emit("finalMessage", finalMessage);
const finalContent = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_getFinalContent).call(this);
if (finalContent)
this._emit("finalContent", finalContent);
const finalFunctionCall = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_getFinalFunctionCall).call(this);
if (finalFunctionCall)
this._emit("finalFunctionCall", finalFunctionCall);
const finalFunctionCallResult = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_getFinalFunctionCallResult).call(this);
if (finalFunctionCallResult != null)
this._emit("finalFunctionCallResult", finalFunctionCallResult);
if (this._chatCompletions.some((c2) => c2.usage)) {
this._emit("totalUsage", __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_calculateTotalUsage).call(this));
}
}
async _createChatCompletion(completions, params, options) {
const signal = options == null ? void 0 : options.signal;
if (signal) {
if (signal.aborted)
this.controller.abort();
signal.addEventListener("abort", () => this.controller.abort());
}
__classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_validateParams).call(this, params);
const chatCompletion = await completions.create({ ...params, stream: false }, { ...options, signal: this.controller.signal });
this._connected();
return this._addChatCompletion(chatCompletion);
}
async _runChatCompletion(completions, params, options) {
for (const message of params.messages) {
this._addMessage(message, false);
}
return await this._createChatCompletion(completions, params, options);
}
async _runFunctions(completions, params, options) {
var _a3;
const role = "function";
const { function_call = "auto", stream, ...restParams } = params;
const singleFunctionToCall = typeof function_call !== "string" && (function_call == null ? void 0 : function_call.name);
const { maxChatCompletions = DEFAULT_MAX_CHAT_COMPLETIONS } = options || {};
const functionsByName = {};
for (const f of params.functions) {
functionsByName[f.name || f.function.name] = f;
}
const functions = params.functions.map((f) => ({
name: f.name || f.function.name,
parameters: f.parameters,
description: f.description
}));
for (const message of params.messages) {
this._addMessage(message, false);
}
for (let i = 0; i < maxChatCompletions; ++i) {
const chatCompletion = await this._createChatCompletion(completions, {
...restParams,
function_call,
functions,
messages: [...this.messages]
}, options);
const message = (_a3 = chatCompletion.choices[0]) == null ? void 0 : _a3.message;
if (!message) {
throw new OpenAIError(`missing message in ChatCompletion response`);
}
if (!message.function_call)
return;
const { name, arguments: args } = message.function_call;
const fn = functionsByName[name];
if (!fn) {
const content2 = `Invalid function_call: ${JSON.stringify(name)}. Available options are: ${functions.map((f) => JSON.stringify(f.name)).join(", ")}. Please try again`;
this._addMessage({ role, name, content: content2 });
continue;
} else if (singleFunctionToCall && singleFunctionToCall !== name) {
const content2 = `Invalid function_call: ${JSON.stringify(name)}. ${JSON.stringify(singleFunctionToCall)} requested. Please try again`;
this._addMessage({ role, name, content: content2 });
continue;
}
let parsed;
try {
parsed = isRunnableFunctionWithParse(fn) ? await fn.parse(args) : args;
} catch (error) {
this._addMessage({
role,
name,
content: error instanceof Error ? error.message : String(error)
});
continue;
}
const rawContent = await fn.function(parsed, this);
const content = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_stringifyFunctionCallResult).call(this, rawContent);
this._addMessage({ role, name, content });
if (singleFunctionToCall)
return;
}
}
async _runTools(completions, params, options) {
var _a3, _b;
const role = "tool";
const { tool_choice = "auto", stream, ...restParams } = params;
const singleFunctionToCall = typeof tool_choice !== "string" && ((_a3 = tool_choice == null ? void 0 : tool_choice.function) == null ? void 0 : _a3.name);
const { maxChatCompletions = DEFAULT_MAX_CHAT_COMPLETIONS } = options || {};
const functionsByName = {};
for (const f of params.tools) {
if (f.type === "function") {
functionsByName[f.function.name || f.function.function.name] = f.function;
}
}
const tools = "tools" in params ? params.tools.map((t) => t.type === "function" ? {
type: "function",
function: {
name: t.function.name || t.function.function.name,
parameters: t.function.parameters,
description: t.function.description
}
} : t) : void 0;
for (const message of params.messages) {
this._addMessage(message, false);
}
for (let i = 0; i < maxChatCompletions; ++i) {
const chatCompletion = await this._createChatCompletion(completions, {
...restParams,
tool_choice,
tools,
messages: [...this.messages]
}, options);
const message = (_b = chatCompletion.choices[0]) == null ? void 0 : _b.message;
if (!message) {
throw new OpenAIError(`missing message in ChatCompletion response`);
}
if (!message.tool_calls)
return;
for (const tool_call of message.tool_calls) {
if (tool_call.type !== "function")
continue;
const tool_call_id = tool_call.id;
const { name, arguments: args } = tool_call.function;
const fn = functionsByName[name];
if (!fn) {
const content2 = `Invalid tool_call: ${JSON.stringify(name)}. Available options are: ${tools.map((f) => JSON.stringify(f.function.name)).join(", ")}. Please try again`;
this._addMessage({ role, tool_call_id, content: content2 });
continue;
} else if (singleFunctionToCall && singleFunctionToCall !== name) {
const content2 = `Invalid tool_call: ${JSON.stringify(name)}. ${JSON.stringify(singleFunctionToCall)} requested. Please try again`;
this._addMessage({ role, tool_call_id, content: content2 });
continue;
}
let parsed;
try {
parsed = isRunnableFunctionWithParse(fn) ? await fn.parse(args) : args;
} catch (error) {
const content2 = error instanceof Error ? error.message : String(error);
this._addMessage({ role, tool_call_id, content: content2 });
continue;
}
const rawContent = await fn.function(parsed, this);
const content = __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_stringifyFunctionCallResult).call(this, rawContent);
this._addMessage({ role, tool_call_id, content });
if (singleFunctionToCall)
return;
}
}
}
};
_AbstractChatCompletionRunner_connectedPromise = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_resolveConnectedPromise = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_rejectConnectedPromise = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_endPromise = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_resolveEndPromise = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_rejectEndPromise = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_listeners = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_ended = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_errored = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_aborted = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_catchingPromiseCreated = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_handleError = /* @__PURE__ */ new WeakMap(), _AbstractChatCompletionRunner_instances = /* @__PURE__ */ new WeakSet(), _AbstractChatCompletionRunner_getFinalContent = function _AbstractChatCompletionRunner_getFinalContent2() {
return __classPrivateFieldGet2(this, _AbstractChatCompletionRunner_instances, "m", _AbstractChatCompletionRunner_getFinalMessage).call(this).content;
}, _AbstractChatCompletionRunner_getFinalMessage = function _AbstractChatCompletionRunner_getFinalMessage2() {
let i = this.messages.length;
while (i-- > 0) {
const message = this.messages[i];
if (isAssistantMessage(message)) {
return message;
}
}
throw new OpenAIError("stream ended without producing a ChatCompletionMessage with role=assistant");
}, _AbstractChatCompletionRunner_getFinalFunctionCall = function _AbstractChatCompletionRunner_getFinalFunctionCall2() {
for (let i = this.messages.length - 1; i >= 0; i--) {
const message = this.messages[i];
if (isAssistantMessage(message) && (message == null ? void 0 : message.function_call)) {
return message.function_call;
}
}
return;
}, _AbstractChatCompletionRunner_getFinalFunctionCallResult = function _AbstractChatCompletionRunner_getFinalFunctionCallResult2() {
for (let i = this.messages.length - 1; i >= 0; i--) {
const message = this.messages[i];
if (isFunctionMessage(message) && message.content != null) {
return message.content;
}
}
return;
}, _AbstractChatCompletionRunner_calculateTotalUsage = function _AbstractChatCompletionRunner_calculateTotalUsage2() {
const total = {
completion_tokens: 0,
prompt_tokens: 0,
total_tokens: 0
};
for (const { usage } of this._chatCompletions) {
if (usage) {
total.completion_tokens += usage.completion_tokens;
total.prompt_tokens += usage.prompt_tokens;
total.total_tokens += usage.total_tokens;
}
}
return total;
}, _AbstractChatCompletionRunner_validateParams = function _AbstractChatCompletionRunner_validateParams2(params) {
if (params.n != null && params.n > 1) {
throw new OpenAIError("ChatCompletion convenience helpers only support n=1 at this time. To use n>1, please use chat.completions.create() directly.");
}
}, _AbstractChatCompletionRunner_stringifyFunctionCallResult = function _AbstractChatCompletionRunner_stringifyFunctionCallResult2(rawContent) {
return typeof rawContent === "string" ? rawContent : rawContent === void 0 ? "undefined" : JSON.stringify(rawContent);
};
// node_modules/openai/lib/ChatCompletionRunner.mjs
var ChatCompletionRunner = class extends AbstractChatCompletionRunner {
static runFunctions(completions, params, options) {
const runner = new ChatCompletionRunner();
runner._run(() => runner._runFunctions(completions, params, options));
return runner;
}
static runTools(completions, params, options) {
const runner = new ChatCompletionRunner();
runner._run(() => runner._runTools(completions, params, options));
return runner;
}
_addMessage(message) {
super._addMessage(message);
if (isAssistantMessage(message) && message.content) {
this._emit("content", message.content);
}
}
};
// node_modules/openai/lib/ChatCompletionStream.mjs
var __classPrivateFieldGet3 = function(receiver, state, kind3, f) {
if (kind3 === "a" && !f)
throw new TypeError("Private accessor was defined without a getter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot read private member from an object whose class did not declare it");
return kind3 === "m" ? f : kind3 === "a" ? f.call(receiver) : f ? f.value : state.get(receiver);
};
var __classPrivateFieldSet3 = function(receiver, state, value, kind3, f) {
if (kind3 === "m")
throw new TypeError("Private method is not writable");
if (kind3 === "a" && !f)
throw new TypeError("Private accessor was defined without a setter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot write private member to an object whose class did not declare it");
return kind3 === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value), value;
};
var _ChatCompletionStream_instances;
var _ChatCompletionStream_currentChatCompletionSnapshot;
var _ChatCompletionStream_beginRequest;
var _ChatCompletionStream_addChunk;
var _ChatCompletionStream_endRequest;
var _ChatCompletionStream_accumulateChatCompletion;
var ChatCompletionStream = class extends AbstractChatCompletionRunner {
constructor() {
super(...arguments);
_ChatCompletionStream_instances.add(this);
_ChatCompletionStream_currentChatCompletionSnapshot.set(this, void 0);
}
get currentChatCompletionSnapshot() {
return __classPrivateFieldGet3(this, _ChatCompletionStream_currentChatCompletionSnapshot, "f");
}
/**
* Intended for use on the frontend, consuming a stream produced with
* `.toReadableStream()` on the backend.
*
* Note that messages sent to the model do not appear in `.on('message')`
* in this context.
*/
static fromReadableStream(stream) {
const runner = new ChatCompletionStream();
runner._run(() => runner._fromReadableStream(stream));
return runner;
}
static createChatCompletion(completions, params, options) {
const runner = new ChatCompletionStream();
runner._run(() => runner._runChatCompletion(completions, { ...params, stream: true }, options));
return runner;
}
async _createChatCompletion(completions, params, options) {
var _a3;
const signal = options == null ? void 0 : options.signal;
if (signal) {
if (signal.aborted)
this.controller.abort();
signal.addEventListener("abort", () => this.controller.abort());
}
__classPrivateFieldGet3(this, _ChatCompletionStream_instances, "m", _ChatCompletionStream_beginRequest).call(this);
const stream = await completions.create({ ...params, stream: true }, { ...options, signal: this.controller.signal });
this._connected();
for await (const chunk of stream) {
__classPrivateFieldGet3(this, _ChatCompletionStream_instances, "m", _ChatCompletionStream_addChunk).call(this, chunk);
}
if ((_a3 = stream.controller.signal) == null ? void 0 : _a3.aborted) {
throw new APIUserAbortError();
}
return this._addChatCompletion(__classPrivateFieldGet3(this, _ChatCompletionStream_instances, "m", _ChatCompletionStream_endRequest).call(this));
}
async _fromReadableStream(readableStream, options) {
var _a3;
const signal = options == null ? void 0 : options.signal;
if (signal) {
if (signal.aborted)
this.controller.abort();
signal.addEventListener("abort", () => this.controller.abort());
}
__classPrivateFieldGet3(this, _ChatCompletionStream_instances, "m", _ChatCompletionStream_beginRequest).call(this);
this._connected();
const stream = Stream.fromReadableStream(readableStream, this.controller);
let chatId;
for await (const chunk of stream) {
if (chatId && chatId !== chunk.id) {
this._addChatCompletion(__classPrivateFieldGet3(this, _ChatCompletionStream_instances, "m", _ChatCompletionStream_endRequest).call(this));
}
__classPrivateFieldGet3(this, _ChatCompletionStream_instances, "m", _ChatCompletionStream_addChunk).call(this, chunk);
chatId = chunk.id;
}
if ((_a3 = stream.controller.signal) == null ? void 0 : _a3.aborted) {
throw new APIUserAbortError();
}
return this._addChatCompletion(__classPrivateFieldGet3(this, _ChatCompletionStream_instances, "m", _ChatCompletionStream_endRequest).call(this));
}
[(_ChatCompletionStream_currentChatCompletionSnapshot = /* @__PURE__ */ new WeakMap(), _ChatCompletionStream_instances = /* @__PURE__ */ new WeakSet(), _ChatCompletionStream_beginRequest = function _ChatCompletionStream_beginRequest2() {
if (this.ended)
return;
__classPrivateFieldSet3(this, _ChatCompletionStream_currentChatCompletionSnapshot, void 0, "f");
}, _ChatCompletionStream_addChunk = function _ChatCompletionStream_addChunk2(chunk) {
var _a3, _b, _c;
if (this.ended)
return;
const completion = __classPrivateFieldGet3(this, _ChatCompletionStream_instances, "m", _ChatCompletionStream_accumulateChatCompletion).call(this, chunk);
this._emit("chunk", chunk, completion);
const delta = (_b = (_a3 = chunk.choices[0]) == null ? void 0 : _a3.delta) == null ? void 0 : _b.content;
const snapshot = (_c = completion.choices[0]) == null ? void 0 : _c.message;
if (delta != null && (snapshot == null ? void 0 : snapshot.role) === "assistant" && (snapshot == null ? void 0 : snapshot.content)) {
this._emit("content", delta, snapshot.content);
}
}, _ChatCompletionStream_endRequest = function _ChatCompletionStream_endRequest2() {
if (this.ended) {
throw new OpenAIError(`stream has ended, this shouldn't happen`);
}
const snapshot = __classPrivateFieldGet3(this, _ChatCompletionStream_currentChatCompletionSnapshot, "f");
if (!snapshot) {
throw new OpenAIError(`request ended without sending any chunks`);
}
__classPrivateFieldSet3(this, _ChatCompletionStream_currentChatCompletionSnapshot, void 0, "f");
return finalizeChatCompletion(snapshot);
}, _ChatCompletionStream_accumulateChatCompletion = function _ChatCompletionStream_accumulateChatCompletion2(chunk) {
var _a4, _b2, _c;
var _a3, _b;
let snapshot = __classPrivateFieldGet3(this, _ChatCompletionStream_currentChatCompletionSnapshot, "f");
const { choices, ...rest } = chunk;
if (!snapshot) {
snapshot = __classPrivateFieldSet3(this, _ChatCompletionStream_currentChatCompletionSnapshot, {
...rest,
choices: []
}, "f");
} else {
Object.assign(snapshot, rest);
}
for (const { delta, finish_reason, index, ...other } of chunk.choices) {
let choice = snapshot.choices[index];
if (!choice) {
snapshot.choices[index] = { finish_reason, index, message: delta, ...other };
continue;
}
if (finish_reason)
choice.finish_reason = finish_reason;
Object.assign(choice, other);
if (!delta)
continue;
const { content, function_call, role, tool_calls } = delta;
if (content)
choice.message.content = (choice.message.content || "") + content;
if (role)
choice.message.role = role;
if (function_call) {
if (!choice.message.function_call) {
choice.message.function_call = function_call;
} else {
if (function_call.name)
choice.message.function_call.name = function_call.name;
if (function_call.arguments) {
(_a4 = (_a3 = choice.message.function_call).arguments) != null ? _a4 : _a3.arguments = "";
choice.message.function_call.arguments += function_call.arguments;
}
}
}
if (tool_calls) {
if (!choice.message.tool_calls)
choice.message.tool_calls = [];
for (const { index: index2, id, type, function: fn } of tool_calls) {
const tool_call = (_b2 = (_b = choice.message.tool_calls)[index2]) != null ? _b2 : _b[index2] = {};
if (id)
tool_call.id = id;
if (type)
tool_call.type = type;
if (fn)
(_c = tool_call.function) != null ? _c : tool_call.function = { arguments: "" };
if (fn == null ? void 0 : fn.name)
tool_call.function.name = fn.name;
if (fn == null ? void 0 : fn.arguments)
tool_call.function.arguments += fn.arguments;
}
}
}
return snapshot;
}, Symbol.asyncIterator)]() {
const pushQueue = [];
const readQueue = [];
let done = false;
this.on("chunk", (chunk) => {
const reader = readQueue.shift();
if (reader) {
reader(chunk);
} else {
pushQueue.push(chunk);
}
});
this.on("end", () => {
done = true;
for (const reader of readQueue) {
reader(void 0);
}
readQueue.length = 0;
});
return {
next: async () => {
if (!pushQueue.length) {
if (done) {
return { value: void 0, done: true };
}
return new Promise((resolve) => readQueue.push(resolve)).then((chunk2) => chunk2 ? { value: chunk2, done: false } : { value: void 0, done: true });
}
const chunk = pushQueue.shift();
return { value: chunk, done: false };
}
};
}
toReadableStream() {
const stream = new Stream(this[Symbol.asyncIterator].bind(this), this.controller);
return stream.toReadableStream();
}
};
function finalizeChatCompletion(snapshot) {
const { id, choices, created, model } = snapshot;
return {
id,
choices: choices.map(({ message, finish_reason, index }) => {
if (!finish_reason)
throw new OpenAIError(`missing finish_reason for choice ${index}`);
const { content = null, function_call, tool_calls } = message;
const role = message.role;
if (!role)
throw new OpenAIError(`missing role for choice ${index}`);
if (function_call) {
const { arguments: args, name } = function_call;
if (args == null)
throw new OpenAIError(`missing function_call.arguments for choice ${index}`);
if (!name)
throw new OpenAIError(`missing function_call.name for choice ${index}`);
return { message: { content, function_call: { arguments: args, name }, role }, finish_reason, index };
}
if (tool_calls) {
return {
index,
finish_reason,
message: {
role,
content,
tool_calls: tool_calls.map((tool_call, i) => {
const { function: fn, type, id: id2 } = tool_call;
const { arguments: args, name } = fn || {};
if (id2 == null)
throw new OpenAIError(`missing choices[${index}].tool_calls[${i}].id
${str(snapshot)}`);
if (type == null)
throw new OpenAIError(`missing choices[${index}].tool_calls[${i}].type
${str(snapshot)}`);
if (name == null)
throw new OpenAIError(`missing choices[${index}].tool_calls[${i}].function.name
${str(snapshot)}`);
if (args == null)
throw new OpenAIError(`missing choices[${index}].tool_calls[${i}].function.arguments
${str(snapshot)}`);
return { id: id2, type, function: { name, arguments: args } };
})
}
};
}
return { message: { content, role }, finish_reason, index };
}),
created,
model,
object: "chat.completion"
};
}
function str(x2) {
return JSON.stringify(x2);
}
// node_modules/openai/lib/ChatCompletionStreamingRunner.mjs
var ChatCompletionStreamingRunner = class extends ChatCompletionStream {
static fromReadableStream(stream) {
const runner = new ChatCompletionStreamingRunner();
runner._run(() => runner._fromReadableStream(stream));
return runner;
}
static runFunctions(completions, params, options) {
const runner = new ChatCompletionStreamingRunner();
runner._run(() => runner._runFunctions(completions, params, options));
return runner;
}
static runTools(completions, params, options) {
const runner = new ChatCompletionStreamingRunner();
runner._run(() => runner._runTools(completions, params, options));
return runner;
}
};
// node_modules/openai/resources/beta/chat/completions.mjs
var Completions2 = class extends APIResource {
runFunctions(body, options) {
if (body.stream) {
return ChatCompletionStreamingRunner.runFunctions(this.client.chat.completions, body, options);
}
return ChatCompletionRunner.runFunctions(this.client.chat.completions, body, options);
}
runTools(body, options) {
if (body.stream) {
return ChatCompletionStreamingRunner.runTools(this.client.chat.completions, body, options);
}
return ChatCompletionRunner.runTools(this.client.chat.completions, body, options);
}
/**
* Creates a chat completion stream
*/
stream(body, options) {
return ChatCompletionStream.createChatCompletion(this.client.chat.completions, body, options);
}
};
// node_modules/openai/resources/beta/chat/chat.mjs
var Chat2 = class extends APIResource {
constructor() {
super(...arguments);
this.completions = new Completions2(this.client);
}
};
(function(Chat4) {
Chat4.Completions = Completions2;
})(Chat2 || (Chat2 = {}));
// node_modules/openai/resources/beta/threads/messages/files.mjs
var Files2 = class extends APIResource {
/**
* Retrieves a message file.
*/
retrieve(threadId, messageId, fileId, options) {
return this.get(`/threads/${threadId}/messages/${messageId}/files/${fileId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
list(threadId, messageId, query = {}, options) {
if (isRequestOptions(query)) {
return this.list(threadId, messageId, {}, query);
}
return this.getAPIList(`/threads/${threadId}/messages/${messageId}/files`, MessageFilesPage, {
query,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
};
var MessageFilesPage = class extends CursorPage {
};
(function(Files4) {
Files4.MessageFilesPage = MessageFilesPage;
})(Files2 || (Files2 = {}));
// node_modules/openai/resources/beta/threads/messages/messages.mjs
var Messages = class extends APIResource {
constructor() {
super(...arguments);
this.files = new Files2(this.client);
}
/**
* Create a message.
*/
create(threadId, body, options) {
return this.post(`/threads/${threadId}/messages`, {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Retrieve a message.
*/
retrieve(threadId, messageId, options) {
return this.get(`/threads/${threadId}/messages/${messageId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Modifies a message.
*/
update(threadId, messageId, body, options) {
return this.post(`/threads/${threadId}/messages/${messageId}`, {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
list(threadId, query = {}, options) {
if (isRequestOptions(query)) {
return this.list(threadId, {}, query);
}
return this.getAPIList(`/threads/${threadId}/messages`, ThreadMessagesPage, {
query,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
};
var ThreadMessagesPage = class extends CursorPage {
};
(function(Messages2) {
Messages2.ThreadMessagesPage = ThreadMessagesPage;
Messages2.Files = Files2;
Messages2.MessageFilesPage = MessageFilesPage;
})(Messages || (Messages = {}));
// node_modules/openai/resources/beta/threads/runs/steps.mjs
var Steps = class extends APIResource {
/**
* Retrieves a run step.
*/
retrieve(threadId, runId, stepId, options) {
return this.get(`/threads/${threadId}/runs/${runId}/steps/${stepId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
list(threadId, runId, query = {}, options) {
if (isRequestOptions(query)) {
return this.list(threadId, runId, {}, query);
}
return this.getAPIList(`/threads/${threadId}/runs/${runId}/steps`, RunStepsPage, {
query,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
};
var RunStepsPage = class extends CursorPage {
};
(function(Steps2) {
Steps2.RunStepsPage = RunStepsPage;
})(Steps || (Steps = {}));
// node_modules/openai/resources/beta/threads/runs/runs.mjs
var Runs = class extends APIResource {
constructor() {
super(...arguments);
this.steps = new Steps(this.client);
}
/**
* Create a run.
*/
create(threadId, body, options) {
return this.post(`/threads/${threadId}/runs`, {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Retrieves a run.
*/
retrieve(threadId, runId, options) {
return this.get(`/threads/${threadId}/runs/${runId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Modifies a run.
*/
update(threadId, runId, body, options) {
return this.post(`/threads/${threadId}/runs/${runId}`, {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
list(threadId, query = {}, options) {
if (isRequestOptions(query)) {
return this.list(threadId, {}, query);
}
return this.getAPIList(`/threads/${threadId}/runs`, RunsPage, {
query,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Cancels a run that is `in_progress`.
*/
cancel(threadId, runId, options) {
return this.post(`/threads/${threadId}/runs/${runId}/cancel`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* When a run has the `status: "requires_action"` and `required_action.type` is
* `submit_tool_outputs`, this endpoint can be used to submit the outputs from the
* tool calls once they're all completed. All outputs must be submitted in a single
* request.
*/
submitToolOutputs(threadId, runId, body, options) {
return this.post(`/threads/${threadId}/runs/${runId}/submit_tool_outputs`, {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
};
var RunsPage = class extends CursorPage {
};
(function(Runs2) {
Runs2.RunsPage = RunsPage;
Runs2.Steps = Steps;
Runs2.RunStepsPage = RunStepsPage;
})(Runs || (Runs = {}));
// node_modules/openai/resources/beta/threads/threads.mjs
var Threads = class extends APIResource {
constructor() {
super(...arguments);
this.runs = new Runs(this.client);
this.messages = new Messages(this.client);
}
create(body = {}, options) {
if (isRequestOptions(body)) {
return this.create({}, body);
}
return this.post("/threads", {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Retrieves a thread.
*/
retrieve(threadId, options) {
return this.get(`/threads/${threadId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Modifies a thread.
*/
update(threadId, body, options) {
return this.post(`/threads/${threadId}`, {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Delete a thread.
*/
del(threadId, options) {
return this.delete(`/threads/${threadId}`, {
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
/**
* Create a thread and run it in one request.
*/
createAndRun(body, options) {
return this.post("/threads/runs", {
body,
...options,
headers: { "OpenAI-Beta": "assistants=v1", ...options == null ? void 0 : options.headers }
});
}
};
(function(Threads2) {
Threads2.Runs = Runs;
Threads2.RunsPage = RunsPage;
Threads2.Messages = Messages;
Threads2.ThreadMessagesPage = ThreadMessagesPage;
})(Threads || (Threads = {}));
// node_modules/openai/resources/beta/beta.mjs
var Beta = class extends APIResource {
constructor() {
super(...arguments);
this.chat = new Chat2(this.client);
this.assistants = new Assistants(this.client);
this.threads = new Threads(this.client);
}
};
(function(Beta2) {
Beta2.Chat = Chat2;
Beta2.Assistants = Assistants;
Beta2.AssistantsPage = AssistantsPage;
Beta2.Threads = Threads;
})(Beta || (Beta = {}));
// node_modules/openai/resources/completions.mjs
var Completions3 = class extends APIResource {
create(body, options) {
var _a3;
return this.post("/completions", { body, ...options, stream: (_a3 = body.stream) != null ? _a3 : false });
}
};
(function(Completions6) {
})(Completions3 || (Completions3 = {}));
// node_modules/openai/resources/embeddings.mjs
var Embeddings = class extends APIResource {
/**
* Creates an embedding vector representing the input text.
*/
create(body, options) {
return this.post("/embeddings", { body, ...options });
}
};
(function(Embeddings3) {
})(Embeddings || (Embeddings = {}));
// node_modules/openai/resources/edits.mjs
var Edits = class extends APIResource {
/**
* Creates a new edit for the provided input, instruction, and parameters.
*
* @deprecated The Edits API is deprecated; please use Chat Completions instead.
*
* https://openai.com/blog/gpt-4-api-general-availability#deprecation-of-the-edits-api
*/
create(body, options) {
return this.post("/edits", { body, ...options });
}
};
(function(Edits2) {
})(Edits || (Edits = {}));
// node_modules/openai/resources/files.mjs
var Files3 = class extends APIResource {
/**
* Upload a file that can be used across various endpoints/features. The size of
* all the files uploaded by one organization can be up to 100 GB.
*
* The size of individual files for can be a maximum of 512MB. See the
* [Assistants Tools guide](https://platform.openai.com/docs/assistants/tools) to
* learn more about the types of files supported. The Fine-tuning API only supports
* `.jsonl` files.
*
* Please [contact us](https://help.openai.com/) if you need to increase these
* storage limits.
*/
create(body, options) {
return this.post("/files", multipartFormRequestOptions({ body, ...options }));
}
/**
* Returns information about a specific file.
*/
retrieve(fileId, options) {
return this.get(`/files/${fileId}`, options);
}
list(query = {}, options) {
if (isRequestOptions(query)) {
return this.list({}, query);
}
return this.getAPIList("/files", FileObjectsPage, { query, ...options });
}
/**
* Delete a file.
*/
del(fileId, options) {
return this.delete(`/files/${fileId}`, options);
}
/**
* Returns the contents of the specified file.
*/
retrieveContent(fileId, options) {
return this.get(`/files/${fileId}/content`, {
...options,
headers: { Accept: "application/json", ...options == null ? void 0 : options.headers }
});
}
/**
* Waits for the given file to be processed, default timeout is 30 mins.
*/
async waitForProcessing(id, { pollInterval = 5e3, maxWait = 30 * 60 * 1e3 } = {}) {
const TERMINAL_STATES = /* @__PURE__ */ new Set(["processed", "error", "deleted"]);
const start = Date.now();
let file = await this.retrieve(id);
while (!file.status || !TERMINAL_STATES.has(file.status)) {
await sleep(pollInterval);
file = await this.retrieve(id);
if (Date.now() - start > maxWait) {
throw new APIConnectionTimeoutError({
message: `Giving up on waiting for file ${id} to finish processing after ${maxWait} milliseconds.`
});
}
}
return file;
}
};
var FileObjectsPage = class extends Page {
};
(function(Files4) {
Files4.FileObjectsPage = FileObjectsPage;
})(Files3 || (Files3 = {}));
// node_modules/openai/resources/fine-tunes.mjs
var FineTunes = class extends APIResource {
/**
* Creates a job that fine-tunes a specified model from a given dataset.
*
* Response includes details of the enqueued job including job status and the name
* of the fine-tuned models once complete.
*
* [Learn more about fine-tuning](https://platform.openai.com/docs/guides/legacy-fine-tuning)
*/
create(body, options) {
return this.post("/fine-tunes", { body, ...options });
}
/**
* Gets info about the fine-tune job.
*
* [Learn more about fine-tuning](https://platform.openai.com/docs/guides/legacy-fine-tuning)
*/
retrieve(fineTuneId, options) {
return this.get(`/fine-tunes/${fineTuneId}`, options);
}
/**
* List your organization's fine-tuning jobs
*/
list(options) {
return this.getAPIList("/fine-tunes", FineTunesPage, options);
}
/**
* Immediately cancel a fine-tune job.
*/
cancel(fineTuneId, options) {
return this.post(`/fine-tunes/${fineTuneId}/cancel`, options);
}
listEvents(fineTuneId, query, options) {
var _a3;
return this.get(`/fine-tunes/${fineTuneId}/events`, {
query,
timeout: 864e5,
...options,
stream: (_a3 = query == null ? void 0 : query.stream) != null ? _a3 : false
});
}
};
var FineTunesPage = class extends Page {
};
(function(FineTunes2) {
FineTunes2.FineTunesPage = FineTunesPage;
})(FineTunes || (FineTunes = {}));
// node_modules/openai/resources/fine-tuning/jobs.mjs
var Jobs = class extends APIResource {
/**
* Creates a job that fine-tunes a specified model from a given dataset.
*
* Response includes details of the enqueued job including job status and the name
* of the fine-tuned models once complete.
*
* [Learn more about fine-tuning](https://platform.openai.com/docs/guides/fine-tuning)
*/
create(body, options) {
return this.post("/fine_tuning/jobs", { body, ...options });
}
/**
* Get info about a fine-tuning job.
*
* [Learn more about fine-tuning](https://platform.openai.com/docs/guides/fine-tuning)
*/
retrieve(fineTuningJobId, options) {
return this.get(`/fine_tuning/jobs/${fineTuningJobId}`, options);
}
list(query = {}, options) {
if (isRequestOptions(query)) {
return this.list({}, query);
}
return this.getAPIList("/fine_tuning/jobs", FineTuningJobsPage, { query, ...options });
}
/**
* Immediately cancel a fine-tune job.
*/
cancel(fineTuningJobId, options) {
return this.post(`/fine_tuning/jobs/${fineTuningJobId}/cancel`, options);
}
listEvents(fineTuningJobId, query = {}, options) {
if (isRequestOptions(query)) {
return this.listEvents(fineTuningJobId, {}, query);
}
return this.getAPIList(`/fine_tuning/jobs/${fineTuningJobId}/events`, FineTuningJobEventsPage, {
query,
...options
});
}
};
var FineTuningJobsPage = class extends CursorPage {
};
var FineTuningJobEventsPage = class extends CursorPage {
};
(function(Jobs2) {
Jobs2.FineTuningJobsPage = FineTuningJobsPage;
Jobs2.FineTuningJobEventsPage = FineTuningJobEventsPage;
})(Jobs || (Jobs = {}));
// node_modules/openai/resources/fine-tuning/fine-tuning.mjs
var FineTuning = class extends APIResource {
constructor() {
super(...arguments);
this.jobs = new Jobs(this.client);
}
};
(function(FineTuning2) {
FineTuning2.Jobs = Jobs;
FineTuning2.FineTuningJobsPage = FineTuningJobsPage;
FineTuning2.FineTuningJobEventsPage = FineTuningJobEventsPage;
})(FineTuning || (FineTuning = {}));
// node_modules/openai/resources/images.mjs
var Images = class extends APIResource {
/**
* Creates a variation of a given image.
*/
createVariation(body, options) {
return this.post("/images/variations", multipartFormRequestOptions({ body, ...options }));
}
/**
* Creates an edited or extended image given an original image and a prompt.
*/
edit(body, options) {
return this.post("/images/edits", multipartFormRequestOptions({ body, ...options }));
}
/**
* Creates an image given a prompt.
*/
generate(body, options) {
return this.post("/images/generations", { body, ...options });
}
};
(function(Images2) {
})(Images || (Images = {}));
// node_modules/openai/resources/models.mjs
var Models = class extends APIResource {
/**
* Retrieves a model instance, providing basic information about the model such as
* the owner and permissioning.
*/
retrieve(model, options) {
return this.get(`/models/${model}`, options);
}
/**
* Lists the currently available models, and provides basic information about each
* one such as the owner and availability.
*/
list(options) {
return this.getAPIList("/models", ModelsPage, options);
}
/**
* Delete a fine-tuned model. You must have the Owner role in your organization to
* delete a model.
*/
del(model, options) {
return this.delete(`/models/${model}`, options);
}
};
var ModelsPage = class extends Page {
};
(function(Models3) {
Models3.ModelsPage = ModelsPage;
})(Models || (Models = {}));
// node_modules/openai/resources/moderations.mjs
var Moderations = class extends APIResource {
/**
* Classifies if text violates OpenAI's Content Policy
*/
create(body, options) {
return this.post("/moderations", { body, ...options });
}
};
(function(Moderations2) {
})(Moderations || (Moderations = {}));
// node_modules/openai/index.mjs
var _a;
var OpenAI = class extends APIClient {
/**
* API Client for interfacing with the OpenAI API.
*
* @param {string} [opts.apiKey==process.env['OPENAI_API_KEY'] ?? undefined]
* @param {string | null} [opts.organization==process.env['OPENAI_ORG_ID'] ?? null]
* @param {string} [opts.baseURL] - Override the default base URL for the API.
* @param {number} [opts.timeout=10 minutes] - The maximum amount of time (in milliseconds) the client will wait for a response before timing out.
* @param {number} [opts.httpAgent] - An HTTP agent used to manage HTTP(s) connections.
* @param {Core.Fetch} [opts.fetch] - Specify a custom `fetch` function implementation.
* @param {number} [opts.maxRetries=2] - The maximum number of times the client will retry a request.
* @param {Core.Headers} opts.defaultHeaders - Default headers to include with every request to the API.
* @param {Core.DefaultQuery} opts.defaultQuery - Default query parameters to include with every request to the API.
* @param {boolean} [opts.dangerouslyAllowBrowser=false] - By default, client-side use of this library is not allowed, as it risks exposing your secret API credentials to attackers.
*/
constructor({ apiKey = readEnv("OPENAI_API_KEY"), organization = ((_a3) => (_a3 = readEnv("OPENAI_ORG_ID")) != null ? _a3 : null)(), ...opts } = {}) {
var _a4, _b;
if (apiKey === void 0) {
throw new OpenAIError("The OPENAI_API_KEY environment variable is missing or empty; either provide it, or instantiate the OpenAI client with an apiKey option, like new OpenAI({ apiKey: 'My API Key' }).");
}
const options = {
apiKey,
organization,
...opts,
baseURL: (_a4 = opts.baseURL) != null ? _a4 : `https://api.openai.com/v1`
};
if (!options.dangerouslyAllowBrowser && isRunningInBrowser()) {
throw new OpenAIError("It looks like you're running in a browser-like environment.\n\nThis is disabled by default, as it risks exposing your secret API credentials to attackers.\nIf you understand the risks and have appropriate mitigations in place,\nyou can set the `dangerouslyAllowBrowser` option to `true`, e.g.,\n\nnew OpenAI({ apiKey, dangerouslyAllowBrowser: true });\n\nhttps://help.openai.com/en/articles/5112595-best-practices-for-api-key-safety\n");
}
super({
baseURL: options.baseURL,
timeout: (_b = options.timeout) != null ? _b : 6e5,
httpAgent: options.httpAgent,
maxRetries: options.maxRetries,
fetch: options.fetch
});
this.completions = new Completions3(this);
this.chat = new Chat(this);
this.edits = new Edits(this);
this.embeddings = new Embeddings(this);
this.files = new Files3(this);
this.images = new Images(this);
this.audio = new Audio(this);
this.moderations = new Moderations(this);
this.models = new Models(this);
this.fineTuning = new FineTuning(this);
this.fineTunes = new FineTunes(this);
this.beta = new Beta(this);
this._options = options;
this.apiKey = apiKey;
this.organization = organization;
}
defaultQuery() {
return this._options.defaultQuery;
}
defaultHeaders(opts) {
return {
...super.defaultHeaders(opts),
"OpenAI-Organization": this.organization,
...this._options.defaultHeaders
};
}
authHeaders(opts) {
return { Authorization: `Bearer ${this.apiKey}` };
}
};
_a = OpenAI;
OpenAI.OpenAI = _a;
OpenAI.OpenAIError = OpenAIError;
OpenAI.APIError = APIError;
OpenAI.APIConnectionError = APIConnectionError;
OpenAI.APIConnectionTimeoutError = APIConnectionTimeoutError;
OpenAI.APIUserAbortError = APIUserAbortError;
OpenAI.NotFoundError = NotFoundError;
OpenAI.ConflictError = ConflictError;
OpenAI.RateLimitError = RateLimitError;
OpenAI.BadRequestError = BadRequestError;
OpenAI.AuthenticationError = AuthenticationError;
OpenAI.InternalServerError = InternalServerError;
OpenAI.PermissionDeniedError = PermissionDeniedError;
OpenAI.UnprocessableEntityError = UnprocessableEntityError;
var { OpenAIError: OpenAIError2, APIError: APIError2, APIConnectionError: APIConnectionError2, APIConnectionTimeoutError: APIConnectionTimeoutError2, APIUserAbortError: APIUserAbortError2, NotFoundError: NotFoundError2, ConflictError: ConflictError2, RateLimitError: RateLimitError2, BadRequestError: BadRequestError2, AuthenticationError: AuthenticationError2, InternalServerError: InternalServerError2, PermissionDeniedError: PermissionDeniedError2, UnprocessableEntityError: UnprocessableEntityError2 } = error_exports;
(function(OpenAI2) {
OpenAI2.toFile = toFile;
OpenAI2.fileFromPath = fileFromPath;
OpenAI2.Page = Page;
OpenAI2.CursorPage = CursorPage;
OpenAI2.Completions = Completions3;
OpenAI2.Chat = Chat;
OpenAI2.Edits = Edits;
OpenAI2.Embeddings = Embeddings;
OpenAI2.Files = Files3;
OpenAI2.FileObjectsPage = FileObjectsPage;
OpenAI2.Images = Images;
OpenAI2.Audio = Audio;
OpenAI2.Moderations = Moderations;
OpenAI2.Models = Models;
OpenAI2.ModelsPage = ModelsPage;
OpenAI2.FineTuning = FineTuning;
OpenAI2.FineTunes = FineTunes;
OpenAI2.FineTunesPage = FineTunesPage;
OpenAI2.Beta = Beta;
})(OpenAI || (OpenAI = {}));
var openai_default = OpenAI;
// node_modules/zod/lib/index.mjs
var util;
(function(util2) {
util2.assertEqual = (val) => val;
function assertIs(_arg) {
}
util2.assertIs = assertIs;
function assertNever(_x) {
throw new Error();
}
util2.assertNever = assertNever;
util2.arrayToEnum = (items) => {
const obj = {};
for (const item of items) {
obj[item] = item;
}
return obj;
};
util2.getValidEnumValues = (obj) => {
const validKeys = util2.objectKeys(obj).filter((k2) => typeof obj[obj[k2]] !== "number");
const filtered = {};
for (const k2 of validKeys) {
filtered[k2] = obj[k2];
}
return util2.objectValues(filtered);
};
util2.objectValues = (obj) => {
return util2.objectKeys(obj).map(function(e) {
return obj[e];
});
};
util2.objectKeys = typeof Object.keys === "function" ? (obj) => Object.keys(obj) : (object) => {
const keys = [];
for (const key in object) {
if (Object.prototype.hasOwnProperty.call(object, key)) {
keys.push(key);
}
}
return keys;
};
util2.find = (arr, checker) => {
for (const item of arr) {
if (checker(item))
return item;
}
return void 0;
};
util2.isInteger = typeof Number.isInteger === "function" ? (val) => Number.isInteger(val) : (val) => typeof val === "number" && isFinite(val) && Math.floor(val) === val;
function joinValues(array, separator = " | ") {
return array.map((val) => typeof val === "string" ? `'${val}'` : val).join(separator);
}
util2.joinValues = joinValues;
util2.jsonStringifyReplacer = (_2, value) => {
if (typeof value === "bigint") {
return value.toString();
}
return value;
};
})(util || (util = {}));
var objectUtil;
(function(objectUtil2) {
objectUtil2.mergeShapes = (first, second) => {
return {
...first,
...second
// second overwrites first
};
};
})(objectUtil || (objectUtil = {}));
var ZodParsedType = util.arrayToEnum([
"string",
"nan",
"number",
"integer",
"float",
"boolean",
"date",
"bigint",
"symbol",
"function",
"undefined",
"null",
"array",
"object",
"unknown",
"promise",
"void",
"never",
"map",
"set"
]);
var getParsedType = (data) => {
const t = typeof data;
switch (t) {
case "undefined":
return ZodParsedType.undefined;
case "string":
return ZodParsedType.string;
case "number":
return isNaN(data) ? ZodParsedType.nan : ZodParsedType.number;
case "boolean":
return ZodParsedType.boolean;
case "function":
return ZodParsedType.function;
case "bigint":
return ZodParsedType.bigint;
case "symbol":
return ZodParsedType.symbol;
case "object":
if (Array.isArray(data)) {
return ZodParsedType.array;
}
if (data === null) {
return ZodParsedType.null;
}
if (data.then && typeof data.then === "function" && data.catch && typeof data.catch === "function") {
return ZodParsedType.promise;
}
if (typeof Map !== "undefined" && data instanceof Map) {
return ZodParsedType.map;
}
if (typeof Set !== "undefined" && data instanceof Set) {
return ZodParsedType.set;
}
if (typeof Date !== "undefined" && data instanceof Date) {
return ZodParsedType.date;
}
return ZodParsedType.object;
default:
return ZodParsedType.unknown;
}
};
var ZodIssueCode = util.arrayToEnum([
"invalid_type",
"invalid_literal",
"custom",
"invalid_union",
"invalid_union_discriminator",
"invalid_enum_value",
"unrecognized_keys",
"invalid_arguments",
"invalid_return_type",
"invalid_date",
"invalid_string",
"too_small",
"too_big",
"invalid_intersection_types",
"not_multiple_of",
"not_finite"
]);
var quotelessJson = (obj) => {
const json = JSON.stringify(obj, null, 2);
return json.replace(/"([^"]+)":/g, "$1:");
};
var ZodError = class extends Error {
constructor(issues) {
super();
this.issues = [];
this.addIssue = (sub) => {
this.issues = [...this.issues, sub];
};
this.addIssues = (subs = []) => {
this.issues = [...this.issues, ...subs];
};
const actualProto = new.target.prototype;
if (Object.setPrototypeOf) {
Object.setPrototypeOf(this, actualProto);
} else {
this.__proto__ = actualProto;
}
this.name = "ZodError";
this.issues = issues;
}
get errors() {
return this.issues;
}
format(_mapper) {
const mapper = _mapper || function(issue) {
return issue.message;
};
const fieldErrors = { _errors: [] };
const processError = (error) => {
for (const issue of error.issues) {
if (issue.code === "invalid_union") {
issue.unionErrors.map(processError);
} else if (issue.code === "invalid_return_type") {
processError(issue.returnTypeError);
} else if (issue.code === "invalid_arguments") {
processError(issue.argumentsError);
} else if (issue.path.length === 0) {
fieldErrors._errors.push(mapper(issue));
} else {
let curr = fieldErrors;
let i = 0;
while (i < issue.path.length) {
const el = issue.path[i];
const terminal = i === issue.path.length - 1;
if (!terminal) {
curr[el] = curr[el] || { _errors: [] };
} else {
curr[el] = curr[el] || { _errors: [] };
curr[el]._errors.push(mapper(issue));
}
curr = curr[el];
i++;
}
}
}
};
processError(this);
return fieldErrors;
}
toString() {
return this.message;
}
get message() {
return JSON.stringify(this.issues, util.jsonStringifyReplacer, 2);
}
get isEmpty() {
return this.issues.length === 0;
}
flatten(mapper = (issue) => issue.message) {
const fieldErrors = {};
const formErrors = [];
for (const sub of this.issues) {
if (sub.path.length > 0) {
fieldErrors[sub.path[0]] = fieldErrors[sub.path[0]] || [];
fieldErrors[sub.path[0]].push(mapper(sub));
} else {
formErrors.push(mapper(sub));
}
}
return { formErrors, fieldErrors };
}
get formErrors() {
return this.flatten();
}
};
ZodError.create = (issues) => {
const error = new ZodError(issues);
return error;
};
var errorMap = (issue, _ctx) => {
let message;
switch (issue.code) {
case ZodIssueCode.invalid_type:
if (issue.received === ZodParsedType.undefined) {
message = "Required";
} else {
message = `Expected ${issue.expected}, received ${issue.received}`;
}
break;
case ZodIssueCode.invalid_literal:
message = `Invalid literal value, expected ${JSON.stringify(issue.expected, util.jsonStringifyReplacer)}`;
break;
case ZodIssueCode.unrecognized_keys:
message = `Unrecognized key(s) in object: ${util.joinValues(issue.keys, ", ")}`;
break;
case ZodIssueCode.invalid_union:
message = `Invalid input`;
break;
case ZodIssueCode.invalid_union_discriminator:
message = `Invalid discriminator value. Expected ${util.joinValues(issue.options)}`;
break;
case ZodIssueCode.invalid_enum_value:
message = `Invalid enum value. Expected ${util.joinValues(issue.options)}, received '${issue.received}'`;
break;
case ZodIssueCode.invalid_arguments:
message = `Invalid function arguments`;
break;
case ZodIssueCode.invalid_return_type:
message = `Invalid function return type`;
break;
case ZodIssueCode.invalid_date:
message = `Invalid date`;
break;
case ZodIssueCode.invalid_string:
if (typeof issue.validation === "object") {
if ("includes" in issue.validation) {
message = `Invalid input: must include "${issue.validation.includes}"`;
if (typeof issue.validation.position === "number") {
message = `${message} at one or more positions greater than or equal to ${issue.validation.position}`;
}
} else if ("startsWith" in issue.validation) {
message = `Invalid input: must start with "${issue.validation.startsWith}"`;
} else if ("endsWith" in issue.validation) {
message = `Invalid input: must end with "${issue.validation.endsWith}"`;
} else {
util.assertNever(issue.validation);
}
} else if (issue.validation !== "regex") {
message = `Invalid ${issue.validation}`;
} else {
message = "Invalid";
}
break;
case ZodIssueCode.too_small:
if (issue.type === "array")
message = `Array must contain ${issue.exact ? "exactly" : issue.inclusive ? `at least` : `more than`} ${issue.minimum} element(s)`;
else if (issue.type === "string")
message = `String must contain ${issue.exact ? "exactly" : issue.inclusive ? `at least` : `over`} ${issue.minimum} character(s)`;
else if (issue.type === "number")
message = `Number must be ${issue.exact ? `exactly equal to ` : issue.inclusive ? `greater than or equal to ` : `greater than `}${issue.minimum}`;
else if (issue.type === "date")
message = `Date must be ${issue.exact ? `exactly equal to ` : issue.inclusive ? `greater than or equal to ` : `greater than `}${new Date(Number(issue.minimum))}`;
else
message = "Invalid input";
break;
case ZodIssueCode.too_big:
if (issue.type === "array")
message = `Array must contain ${issue.exact ? `exactly` : issue.inclusive ? `at most` : `less than`} ${issue.maximum} element(s)`;
else if (issue.type === "string")
message = `String must contain ${issue.exact ? `exactly` : issue.inclusive ? `at most` : `under`} ${issue.maximum} character(s)`;
else if (issue.type === "number")
message = `Number must be ${issue.exact ? `exactly` : issue.inclusive ? `less than or equal to` : `less than`} ${issue.maximum}`;
else if (issue.type === "bigint")
message = `BigInt must be ${issue.exact ? `exactly` : issue.inclusive ? `less than or equal to` : `less than`} ${issue.maximum}`;
else if (issue.type === "date")
message = `Date must be ${issue.exact ? `exactly` : issue.inclusive ? `smaller than or equal to` : `smaller than`} ${new Date(Number(issue.maximum))}`;
else
message = "Invalid input";
break;
case ZodIssueCode.custom:
message = `Invalid input`;
break;
case ZodIssueCode.invalid_intersection_types:
message = `Intersection results could not be merged`;
break;
case ZodIssueCode.not_multiple_of:
message = `Number must be a multiple of ${issue.multipleOf}`;
break;
case ZodIssueCode.not_finite:
message = "Number must be finite";
break;
default:
message = _ctx.defaultError;
util.assertNever(issue);
}
return { message };
};
var overrideErrorMap = errorMap;
function setErrorMap(map) {
overrideErrorMap = map;
}
function getErrorMap() {
return overrideErrorMap;
}
var makeIssue = (params) => {
const { data, path, errorMaps, issueData } = params;
const fullPath = [...path, ...issueData.path || []];
const fullIssue = {
...issueData,
path: fullPath
};
let errorMessage = "";
const maps = errorMaps.filter((m2) => !!m2).slice().reverse();
for (const map of maps) {
errorMessage = map(fullIssue, { data, defaultError: errorMessage }).message;
}
return {
...issueData,
path: fullPath,
message: issueData.message || errorMessage
};
};
var EMPTY_PATH = [];
function addIssueToContext(ctx, issueData) {
const issue = makeIssue({
issueData,
data: ctx.data,
path: ctx.path,
errorMaps: [
ctx.common.contextualErrorMap,
ctx.schemaErrorMap,
getErrorMap(),
errorMap
// then global default map
].filter((x2) => !!x2)
});
ctx.common.issues.push(issue);
}
var ParseStatus = class {
constructor() {
this.value = "valid";
}
dirty() {
if (this.value === "valid")
this.value = "dirty";
}
abort() {
if (this.value !== "aborted")
this.value = "aborted";
}
static mergeArray(status, results) {
const arrayValue = [];
for (const s of results) {
if (s.status === "aborted")
return INVALID;
if (s.status === "dirty")
status.dirty();
arrayValue.push(s.value);
}
return { status: status.value, value: arrayValue };
}
static async mergeObjectAsync(status, pairs) {
const syncPairs = [];
for (const pair of pairs) {
syncPairs.push({
key: await pair.key,
value: await pair.value
});
}
return ParseStatus.mergeObjectSync(status, syncPairs);
}
static mergeObjectSync(status, pairs) {
const finalObject = {};
for (const pair of pairs) {
const { key, value } = pair;
if (key.status === "aborted")
return INVALID;
if (value.status === "aborted")
return INVALID;
if (key.status === "dirty")
status.dirty();
if (value.status === "dirty")
status.dirty();
if (typeof value.value !== "undefined" || pair.alwaysSet) {
finalObject[key.value] = value.value;
}
}
return { status: status.value, value: finalObject };
}
};
var INVALID = Object.freeze({
status: "aborted"
});
var DIRTY = (value) => ({ status: "dirty", value });
var OK = (value) => ({ status: "valid", value });
var isAborted = (x2) => x2.status === "aborted";
var isDirty = (x2) => x2.status === "dirty";
var isValid = (x2) => x2.status === "valid";
var isAsync = (x2) => typeof Promise !== "undefined" && x2 instanceof Promise;
var errorUtil;
(function(errorUtil2) {
errorUtil2.errToObj = (message) => typeof message === "string" ? { message } : message || {};
errorUtil2.toString = (message) => typeof message === "string" ? message : message === null || message === void 0 ? void 0 : message.message;
})(errorUtil || (errorUtil = {}));
var ParseInputLazyPath = class {
constructor(parent, value, path, key) {
this._cachedPath = [];
this.parent = parent;
this.data = value;
this._path = path;
this._key = key;
}
get path() {
if (!this._cachedPath.length) {
if (this._key instanceof Array) {
this._cachedPath.push(...this._path, ...this._key);
} else {
this._cachedPath.push(...this._path, this._key);
}
}
return this._cachedPath;
}
};
var handleResult = (ctx, result) => {
if (isValid(result)) {
return { success: true, data: result.value };
} else {
if (!ctx.common.issues.length) {
throw new Error("Validation failed but no issues detected.");
}
return {
success: false,
get error() {
if (this._error)
return this._error;
const error = new ZodError(ctx.common.issues);
this._error = error;
return this._error;
}
};
}
};
function processCreateParams(params) {
if (!params)
return {};
const { errorMap: errorMap2, invalid_type_error, required_error, description } = params;
if (errorMap2 && (invalid_type_error || required_error)) {
throw new Error(`Can't use "invalid_type_error" or "required_error" in conjunction with custom error map.`);
}
if (errorMap2)
return { errorMap: errorMap2, description };
const customMap = (iss, ctx) => {
if (iss.code !== "invalid_type")
return { message: ctx.defaultError };
if (typeof ctx.data === "undefined") {
return { message: required_error !== null && required_error !== void 0 ? required_error : ctx.defaultError };
}
return { message: invalid_type_error !== null && invalid_type_error !== void 0 ? invalid_type_error : ctx.defaultError };
};
return { errorMap: customMap, description };
}
var ZodType = class {
constructor(def) {
this.spa = this.safeParseAsync;
this._def = def;
this.parse = this.parse.bind(this);
this.safeParse = this.safeParse.bind(this);
this.parseAsync = this.parseAsync.bind(this);
this.safeParseAsync = this.safeParseAsync.bind(this);
this.spa = this.spa.bind(this);
this.refine = this.refine.bind(this);
this.refinement = this.refinement.bind(this);
this.superRefine = this.superRefine.bind(this);
this.optional = this.optional.bind(this);
this.nullable = this.nullable.bind(this);
this.nullish = this.nullish.bind(this);
this.array = this.array.bind(this);
this.promise = this.promise.bind(this);
this.or = this.or.bind(this);
this.and = this.and.bind(this);
this.transform = this.transform.bind(this);
this.brand = this.brand.bind(this);
this.default = this.default.bind(this);
this.catch = this.catch.bind(this);
this.describe = this.describe.bind(this);
this.pipe = this.pipe.bind(this);
this.isNullable = this.isNullable.bind(this);
this.isOptional = this.isOptional.bind(this);
}
get description() {
return this._def.description;
}
_getType(input) {
return getParsedType(input.data);
}
_getOrReturnCtx(input, ctx) {
return ctx || {
common: input.parent.common,
data: input.data,
parsedType: getParsedType(input.data),
schemaErrorMap: this._def.errorMap,
path: input.path,
parent: input.parent
};
}
_processInputParams(input) {
return {
status: new ParseStatus(),
ctx: {
common: input.parent.common,
data: input.data,
parsedType: getParsedType(input.data),
schemaErrorMap: this._def.errorMap,
path: input.path,
parent: input.parent
}
};
}
_parseSync(input) {
const result = this._parse(input);
if (isAsync(result)) {
throw new Error("Synchronous parse encountered promise.");
}
return result;
}
_parseAsync(input) {
const result = this._parse(input);
return Promise.resolve(result);
}
parse(data, params) {
const result = this.safeParse(data, params);
if (result.success)
return result.data;
throw result.error;
}
safeParse(data, params) {
var _a3;
const ctx = {
common: {
issues: [],
async: (_a3 = params === null || params === void 0 ? void 0 : params.async) !== null && _a3 !== void 0 ? _a3 : false,
contextualErrorMap: params === null || params === void 0 ? void 0 : params.errorMap
},
path: (params === null || params === void 0 ? void 0 : params.path) || [],
schemaErrorMap: this._def.errorMap,
parent: null,
data,
parsedType: getParsedType(data)
};
const result = this._parseSync({ data, path: ctx.path, parent: ctx });
return handleResult(ctx, result);
}
async parseAsync(data, params) {
const result = await this.safeParseAsync(data, params);
if (result.success)
return result.data;
throw result.error;
}
async safeParseAsync(data, params) {
const ctx = {
common: {
issues: [],
contextualErrorMap: params === null || params === void 0 ? void 0 : params.errorMap,
async: true
},
path: (params === null || params === void 0 ? void 0 : params.path) || [],
schemaErrorMap: this._def.errorMap,
parent: null,
data,
parsedType: getParsedType(data)
};
const maybeAsyncResult = this._parse({ data, path: ctx.path, parent: ctx });
const result = await (isAsync(maybeAsyncResult) ? maybeAsyncResult : Promise.resolve(maybeAsyncResult));
return handleResult(ctx, result);
}
refine(check, message) {
const getIssueProperties = (val) => {
if (typeof message === "string" || typeof message === "undefined") {
return { message };
} else if (typeof message === "function") {
return message(val);
} else {
return message;
}
};
return this._refinement((val, ctx) => {
const result = check(val);
const setError = () => ctx.addIssue({
code: ZodIssueCode.custom,
...getIssueProperties(val)
});
if (typeof Promise !== "undefined" && result instanceof Promise) {
return result.then((data) => {
if (!data) {
setError();
return false;
} else {
return true;
}
});
}
if (!result) {
setError();
return false;
} else {
return true;
}
});
}
refinement(check, refinementData) {
return this._refinement((val, ctx) => {
if (!check(val)) {
ctx.addIssue(typeof refinementData === "function" ? refinementData(val, ctx) : refinementData);
return false;
} else {
return true;
}
});
}
_refinement(refinement) {
return new ZodEffects({
schema: this,
typeName: ZodFirstPartyTypeKind.ZodEffects,
effect: { type: "refinement", refinement }
});
}
superRefine(refinement) {
return this._refinement(refinement);
}
optional() {
return ZodOptional.create(this, this._def);
}
nullable() {
return ZodNullable.create(this, this._def);
}
nullish() {
return this.nullable().optional();
}
array() {
return ZodArray.create(this, this._def);
}
promise() {
return ZodPromise.create(this, this._def);
}
or(option) {
return ZodUnion.create([this, option], this._def);
}
and(incoming) {
return ZodIntersection.create(this, incoming, this._def);
}
transform(transform) {
return new ZodEffects({
...processCreateParams(this._def),
schema: this,
typeName: ZodFirstPartyTypeKind.ZodEffects,
effect: { type: "transform", transform }
});
}
default(def) {
const defaultValueFunc = typeof def === "function" ? def : () => def;
return new ZodDefault({
...processCreateParams(this._def),
innerType: this,
defaultValue: defaultValueFunc,
typeName: ZodFirstPartyTypeKind.ZodDefault
});
}
brand() {
return new ZodBranded({
typeName: ZodFirstPartyTypeKind.ZodBranded,
type: this,
...processCreateParams(this._def)
});
}
catch(def) {
const catchValueFunc = typeof def === "function" ? def : () => def;
return new ZodCatch({
...processCreateParams(this._def),
innerType: this,
catchValue: catchValueFunc,
typeName: ZodFirstPartyTypeKind.ZodCatch
});
}
describe(description) {
const This = this.constructor;
return new This({
...this._def,
description
});
}
pipe(target) {
return ZodPipeline.create(this, target);
}
isOptional() {
return this.safeParse(void 0).success;
}
isNullable() {
return this.safeParse(null).success;
}
};
var cuidRegex = /^c[^\s-]{8,}$/i;
var cuid2Regex = /^[a-z][a-z0-9]*$/;
var ulidRegex = /[0-9A-HJKMNP-TV-Z]{26}/;
var uuidRegex = /^([a-f0-9]{8}-[a-f0-9]{4}-[1-5][a-f0-9]{3}-[a-f0-9]{4}-[a-f0-9]{12}|00000000-0000-0000-0000-000000000000)$/i;
var emailRegex = /^(([^<>()[\]\\.,;:\s@\"]+(\.[^<>()[\]\\.,;:\s@\"]+)*)|(\".+\"))@((\[(((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2}))\.){3}((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2}))\])|(\[IPv6:(([a-f0-9]{1,4}:){7}|::([a-f0-9]{1,4}:){0,6}|([a-f0-9]{1,4}:){1}:([a-f0-9]{1,4}:){0,5}|([a-f0-9]{1,4}:){2}:([a-f0-9]{1,4}:){0,4}|([a-f0-9]{1,4}:){3}:([a-f0-9]{1,4}:){0,3}|([a-f0-9]{1,4}:){4}:([a-f0-9]{1,4}:){0,2}|([a-f0-9]{1,4}:){5}:([a-f0-9]{1,4}:){0,1})([a-f0-9]{1,4}|(((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2}))\.){3}((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2})))\])|([A-Za-z0-9]([A-Za-z0-9-]*[A-Za-z0-9])*(\.[A-Za-z]{2,})+))$/;
var emojiRegex = /^(\p{Extended_Pictographic}|\p{Emoji_Component})+$/u;
var ipv4Regex = /^(((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2}))\.){3}((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2}))$/;
var ipv6Regex = /^(([a-f0-9]{1,4}:){7}|::([a-f0-9]{1,4}:){0,6}|([a-f0-9]{1,4}:){1}:([a-f0-9]{1,4}:){0,5}|([a-f0-9]{1,4}:){2}:([a-f0-9]{1,4}:){0,4}|([a-f0-9]{1,4}:){3}:([a-f0-9]{1,4}:){0,3}|([a-f0-9]{1,4}:){4}:([a-f0-9]{1,4}:){0,2}|([a-f0-9]{1,4}:){5}:([a-f0-9]{1,4}:){0,1})([a-f0-9]{1,4}|(((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2}))\.){3}((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2})))$/;
var datetimeRegex = (args) => {
if (args.precision) {
if (args.offset) {
return new RegExp(`^\\d{4}-\\d{2}-\\d{2}T\\d{2}:\\d{2}:\\d{2}\\.\\d{${args.precision}}(([+-]\\d{2}(:?\\d{2})?)|Z)$`);
} else {
return new RegExp(`^\\d{4}-\\d{2}-\\d{2}T\\d{2}:\\d{2}:\\d{2}\\.\\d{${args.precision}}Z$`);
}
} else if (args.precision === 0) {
if (args.offset) {
return new RegExp(`^\\d{4}-\\d{2}-\\d{2}T\\d{2}:\\d{2}:\\d{2}(([+-]\\d{2}(:?\\d{2})?)|Z)$`);
} else {
return new RegExp(`^\\d{4}-\\d{2}-\\d{2}T\\d{2}:\\d{2}:\\d{2}Z$`);
}
} else {
if (args.offset) {
return new RegExp(`^\\d{4}-\\d{2}-\\d{2}T\\d{2}:\\d{2}:\\d{2}(\\.\\d+)?(([+-]\\d{2}(:?\\d{2})?)|Z)$`);
} else {
return new RegExp(`^\\d{4}-\\d{2}-\\d{2}T\\d{2}:\\d{2}:\\d{2}(\\.\\d+)?Z$`);
}
}
};
function isValidIP(ip, version) {
if ((version === "v4" || !version) && ipv4Regex.test(ip)) {
return true;
}
if ((version === "v6" || !version) && ipv6Regex.test(ip)) {
return true;
}
return false;
}
var ZodString = class extends ZodType {
constructor() {
super(...arguments);
this._regex = (regex, validation, message) => this.refinement((data) => regex.test(data), {
validation,
code: ZodIssueCode.invalid_string,
...errorUtil.errToObj(message)
});
this.nonempty = (message) => this.min(1, errorUtil.errToObj(message));
this.trim = () => new ZodString({
...this._def,
checks: [...this._def.checks, { kind: "trim" }]
});
this.toLowerCase = () => new ZodString({
...this._def,
checks: [...this._def.checks, { kind: "toLowerCase" }]
});
this.toUpperCase = () => new ZodString({
...this._def,
checks: [...this._def.checks, { kind: "toUpperCase" }]
});
}
_parse(input) {
if (this._def.coerce) {
input.data = String(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.string) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(
ctx2,
{
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.string,
received: ctx2.parsedType
}
//
);
return INVALID;
}
const status = new ParseStatus();
let ctx = void 0;
for (const check of this._def.checks) {
if (check.kind === "min") {
if (input.data.length < check.value) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: check.value,
type: "string",
inclusive: true,
exact: false,
message: check.message
});
status.dirty();
}
} else if (check.kind === "max") {
if (input.data.length > check.value) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: check.value,
type: "string",
inclusive: true,
exact: false,
message: check.message
});
status.dirty();
}
} else if (check.kind === "length") {
const tooBig = input.data.length > check.value;
const tooSmall = input.data.length < check.value;
if (tooBig || tooSmall) {
ctx = this._getOrReturnCtx(input, ctx);
if (tooBig) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: check.value,
type: "string",
inclusive: true,
exact: true,
message: check.message
});
} else if (tooSmall) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: check.value,
type: "string",
inclusive: true,
exact: true,
message: check.message
});
}
status.dirty();
}
} else if (check.kind === "email") {
if (!emailRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "email",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "emoji") {
if (!emojiRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "emoji",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "uuid") {
if (!uuidRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "uuid",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "cuid") {
if (!cuidRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "cuid",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "cuid2") {
if (!cuid2Regex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "cuid2",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "ulid") {
if (!ulidRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "ulid",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "url") {
try {
new URL(input.data);
} catch (_a3) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "url",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "regex") {
check.regex.lastIndex = 0;
const testResult = check.regex.test(input.data);
if (!testResult) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "regex",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "trim") {
input.data = input.data.trim();
} else if (check.kind === "includes") {
if (!input.data.includes(check.value, check.position)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: { includes: check.value, position: check.position },
message: check.message
});
status.dirty();
}
} else if (check.kind === "toLowerCase") {
input.data = input.data.toLowerCase();
} else if (check.kind === "toUpperCase") {
input.data = input.data.toUpperCase();
} else if (check.kind === "startsWith") {
if (!input.data.startsWith(check.value)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: { startsWith: check.value },
message: check.message
});
status.dirty();
}
} else if (check.kind === "endsWith") {
if (!input.data.endsWith(check.value)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: { endsWith: check.value },
message: check.message
});
status.dirty();
}
} else if (check.kind === "datetime") {
const regex = datetimeRegex(check);
if (!regex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: "datetime",
message: check.message
});
status.dirty();
}
} else if (check.kind === "ip") {
if (!isValidIP(input.data, check.version)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "ip",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else {
util.assertNever(check);
}
}
return { status: status.value, value: input.data };
}
_addCheck(check) {
return new ZodString({
...this._def,
checks: [...this._def.checks, check]
});
}
email(message) {
return this._addCheck({ kind: "email", ...errorUtil.errToObj(message) });
}
url(message) {
return this._addCheck({ kind: "url", ...errorUtil.errToObj(message) });
}
emoji(message) {
return this._addCheck({ kind: "emoji", ...errorUtil.errToObj(message) });
}
uuid(message) {
return this._addCheck({ kind: "uuid", ...errorUtil.errToObj(message) });
}
cuid(message) {
return this._addCheck({ kind: "cuid", ...errorUtil.errToObj(message) });
}
cuid2(message) {
return this._addCheck({ kind: "cuid2", ...errorUtil.errToObj(message) });
}
ulid(message) {
return this._addCheck({ kind: "ulid", ...errorUtil.errToObj(message) });
}
ip(options) {
return this._addCheck({ kind: "ip", ...errorUtil.errToObj(options) });
}
datetime(options) {
var _a3;
if (typeof options === "string") {
return this._addCheck({
kind: "datetime",
precision: null,
offset: false,
message: options
});
}
return this._addCheck({
kind: "datetime",
precision: typeof (options === null || options === void 0 ? void 0 : options.precision) === "undefined" ? null : options === null || options === void 0 ? void 0 : options.precision,
offset: (_a3 = options === null || options === void 0 ? void 0 : options.offset) !== null && _a3 !== void 0 ? _a3 : false,
...errorUtil.errToObj(options === null || options === void 0 ? void 0 : options.message)
});
}
regex(regex, message) {
return this._addCheck({
kind: "regex",
regex,
...errorUtil.errToObj(message)
});
}
includes(value, options) {
return this._addCheck({
kind: "includes",
value,
position: options === null || options === void 0 ? void 0 : options.position,
...errorUtil.errToObj(options === null || options === void 0 ? void 0 : options.message)
});
}
startsWith(value, message) {
return this._addCheck({
kind: "startsWith",
value,
...errorUtil.errToObj(message)
});
}
endsWith(value, message) {
return this._addCheck({
kind: "endsWith",
value,
...errorUtil.errToObj(message)
});
}
min(minLength, message) {
return this._addCheck({
kind: "min",
value: minLength,
...errorUtil.errToObj(message)
});
}
max(maxLength, message) {
return this._addCheck({
kind: "max",
value: maxLength,
...errorUtil.errToObj(message)
});
}
length(len, message) {
return this._addCheck({
kind: "length",
value: len,
...errorUtil.errToObj(message)
});
}
get isDatetime() {
return !!this._def.checks.find((ch) => ch.kind === "datetime");
}
get isEmail() {
return !!this._def.checks.find((ch) => ch.kind === "email");
}
get isURL() {
return !!this._def.checks.find((ch) => ch.kind === "url");
}
get isEmoji() {
return !!this._def.checks.find((ch) => ch.kind === "emoji");
}
get isUUID() {
return !!this._def.checks.find((ch) => ch.kind === "uuid");
}
get isCUID() {
return !!this._def.checks.find((ch) => ch.kind === "cuid");
}
get isCUID2() {
return !!this._def.checks.find((ch) => ch.kind === "cuid2");
}
get isULID() {
return !!this._def.checks.find((ch) => ch.kind === "ulid");
}
get isIP() {
return !!this._def.checks.find((ch) => ch.kind === "ip");
}
get minLength() {
let min = null;
for (const ch of this._def.checks) {
if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
}
}
return min;
}
get maxLength() {
let max = null;
for (const ch of this._def.checks) {
if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return max;
}
};
ZodString.create = (params) => {
var _a3;
return new ZodString({
checks: [],
typeName: ZodFirstPartyTypeKind.ZodString,
coerce: (_a3 = params === null || params === void 0 ? void 0 : params.coerce) !== null && _a3 !== void 0 ? _a3 : false,
...processCreateParams(params)
});
};
function floatSafeRemainder(val, step) {
const valDecCount = (val.toString().split(".")[1] || "").length;
const stepDecCount = (step.toString().split(".")[1] || "").length;
const decCount = valDecCount > stepDecCount ? valDecCount : stepDecCount;
const valInt = parseInt(val.toFixed(decCount).replace(".", ""));
const stepInt = parseInt(step.toFixed(decCount).replace(".", ""));
return valInt % stepInt / Math.pow(10, decCount);
}
var ZodNumber = class extends ZodType {
constructor() {
super(...arguments);
this.min = this.gte;
this.max = this.lte;
this.step = this.multipleOf;
}
_parse(input) {
if (this._def.coerce) {
input.data = Number(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.number) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.number,
received: ctx2.parsedType
});
return INVALID;
}
let ctx = void 0;
const status = new ParseStatus();
for (const check of this._def.checks) {
if (check.kind === "int") {
if (!util.isInteger(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: "integer",
received: "float",
message: check.message
});
status.dirty();
}
} else if (check.kind === "min") {
const tooSmall = check.inclusive ? input.data < check.value : input.data <= check.value;
if (tooSmall) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: check.value,
type: "number",
inclusive: check.inclusive,
exact: false,
message: check.message
});
status.dirty();
}
} else if (check.kind === "max") {
const tooBig = check.inclusive ? input.data > check.value : input.data >= check.value;
if (tooBig) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: check.value,
type: "number",
inclusive: check.inclusive,
exact: false,
message: check.message
});
status.dirty();
}
} else if (check.kind === "multipleOf") {
if (floatSafeRemainder(input.data, check.value) !== 0) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.not_multiple_of,
multipleOf: check.value,
message: check.message
});
status.dirty();
}
} else if (check.kind === "finite") {
if (!Number.isFinite(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.not_finite,
message: check.message
});
status.dirty();
}
} else {
util.assertNever(check);
}
}
return { status: status.value, value: input.data };
}
gte(value, message) {
return this.setLimit("min", value, true, errorUtil.toString(message));
}
gt(value, message) {
return this.setLimit("min", value, false, errorUtil.toString(message));
}
lte(value, message) {
return this.setLimit("max", value, true, errorUtil.toString(message));
}
lt(value, message) {
return this.setLimit("max", value, false, errorUtil.toString(message));
}
setLimit(kind3, value, inclusive, message) {
return new ZodNumber({
...this._def,
checks: [
...this._def.checks,
{
kind: kind3,
value,
inclusive,
message: errorUtil.toString(message)
}
]
});
}
_addCheck(check) {
return new ZodNumber({
...this._def,
checks: [...this._def.checks, check]
});
}
int(message) {
return this._addCheck({
kind: "int",
message: errorUtil.toString(message)
});
}
positive(message) {
return this._addCheck({
kind: "min",
value: 0,
inclusive: false,
message: errorUtil.toString(message)
});
}
negative(message) {
return this._addCheck({
kind: "max",
value: 0,
inclusive: false,
message: errorUtil.toString(message)
});
}
nonpositive(message) {
return this._addCheck({
kind: "max",
value: 0,
inclusive: true,
message: errorUtil.toString(message)
});
}
nonnegative(message) {
return this._addCheck({
kind: "min",
value: 0,
inclusive: true,
message: errorUtil.toString(message)
});
}
multipleOf(value, message) {
return this._addCheck({
kind: "multipleOf",
value,
message: errorUtil.toString(message)
});
}
finite(message) {
return this._addCheck({
kind: "finite",
message: errorUtil.toString(message)
});
}
safe(message) {
return this._addCheck({
kind: "min",
inclusive: true,
value: Number.MIN_SAFE_INTEGER,
message: errorUtil.toString(message)
})._addCheck({
kind: "max",
inclusive: true,
value: Number.MAX_SAFE_INTEGER,
message: errorUtil.toString(message)
});
}
get minValue() {
let min = null;
for (const ch of this._def.checks) {
if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
}
}
return min;
}
get maxValue() {
let max = null;
for (const ch of this._def.checks) {
if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return max;
}
get isInt() {
return !!this._def.checks.find((ch) => ch.kind === "int" || ch.kind === "multipleOf" && util.isInteger(ch.value));
}
get isFinite() {
let max = null, min = null;
for (const ch of this._def.checks) {
if (ch.kind === "finite" || ch.kind === "int" || ch.kind === "multipleOf") {
return true;
} else if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
} else if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return Number.isFinite(min) && Number.isFinite(max);
}
};
ZodNumber.create = (params) => {
return new ZodNumber({
checks: [],
typeName: ZodFirstPartyTypeKind.ZodNumber,
coerce: (params === null || params === void 0 ? void 0 : params.coerce) || false,
...processCreateParams(params)
});
};
var ZodBigInt = class extends ZodType {
constructor() {
super(...arguments);
this.min = this.gte;
this.max = this.lte;
}
_parse(input) {
if (this._def.coerce) {
input.data = BigInt(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.bigint) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.bigint,
received: ctx2.parsedType
});
return INVALID;
}
let ctx = void 0;
const status = new ParseStatus();
for (const check of this._def.checks) {
if (check.kind === "min") {
const tooSmall = check.inclusive ? input.data < check.value : input.data <= check.value;
if (tooSmall) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
type: "bigint",
minimum: check.value,
inclusive: check.inclusive,
message: check.message
});
status.dirty();
}
} else if (check.kind === "max") {
const tooBig = check.inclusive ? input.data > check.value : input.data >= check.value;
if (tooBig) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
type: "bigint",
maximum: check.value,
inclusive: check.inclusive,
message: check.message
});
status.dirty();
}
} else if (check.kind === "multipleOf") {
if (input.data % check.value !== BigInt(0)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.not_multiple_of,
multipleOf: check.value,
message: check.message
});
status.dirty();
}
} else {
util.assertNever(check);
}
}
return { status: status.value, value: input.data };
}
gte(value, message) {
return this.setLimit("min", value, true, errorUtil.toString(message));
}
gt(value, message) {
return this.setLimit("min", value, false, errorUtil.toString(message));
}
lte(value, message) {
return this.setLimit("max", value, true, errorUtil.toString(message));
}
lt(value, message) {
return this.setLimit("max", value, false, errorUtil.toString(message));
}
setLimit(kind3, value, inclusive, message) {
return new ZodBigInt({
...this._def,
checks: [
...this._def.checks,
{
kind: kind3,
value,
inclusive,
message: errorUtil.toString(message)
}
]
});
}
_addCheck(check) {
return new ZodBigInt({
...this._def,
checks: [...this._def.checks, check]
});
}
positive(message) {
return this._addCheck({
kind: "min",
value: BigInt(0),
inclusive: false,
message: errorUtil.toString(message)
});
}
negative(message) {
return this._addCheck({
kind: "max",
value: BigInt(0),
inclusive: false,
message: errorUtil.toString(message)
});
}
nonpositive(message) {
return this._addCheck({
kind: "max",
value: BigInt(0),
inclusive: true,
message: errorUtil.toString(message)
});
}
nonnegative(message) {
return this._addCheck({
kind: "min",
value: BigInt(0),
inclusive: true,
message: errorUtil.toString(message)
});
}
multipleOf(value, message) {
return this._addCheck({
kind: "multipleOf",
value,
message: errorUtil.toString(message)
});
}
get minValue() {
let min = null;
for (const ch of this._def.checks) {
if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
}
}
return min;
}
get maxValue() {
let max = null;
for (const ch of this._def.checks) {
if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return max;
}
};
ZodBigInt.create = (params) => {
var _a3;
return new ZodBigInt({
checks: [],
typeName: ZodFirstPartyTypeKind.ZodBigInt,
coerce: (_a3 = params === null || params === void 0 ? void 0 : params.coerce) !== null && _a3 !== void 0 ? _a3 : false,
...processCreateParams(params)
});
};
var ZodBoolean = class extends ZodType {
_parse(input) {
if (this._def.coerce) {
input.data = Boolean(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.boolean) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.boolean,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodBoolean.create = (params) => {
return new ZodBoolean({
typeName: ZodFirstPartyTypeKind.ZodBoolean,
coerce: (params === null || params === void 0 ? void 0 : params.coerce) || false,
...processCreateParams(params)
});
};
var ZodDate = class extends ZodType {
_parse(input) {
if (this._def.coerce) {
input.data = new Date(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.date) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.date,
received: ctx2.parsedType
});
return INVALID;
}
if (isNaN(input.data.getTime())) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_date
});
return INVALID;
}
const status = new ParseStatus();
let ctx = void 0;
for (const check of this._def.checks) {
if (check.kind === "min") {
if (input.data.getTime() < check.value) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
message: check.message,
inclusive: true,
exact: false,
minimum: check.value,
type: "date"
});
status.dirty();
}
} else if (check.kind === "max") {
if (input.data.getTime() > check.value) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
message: check.message,
inclusive: true,
exact: false,
maximum: check.value,
type: "date"
});
status.dirty();
}
} else {
util.assertNever(check);
}
}
return {
status: status.value,
value: new Date(input.data.getTime())
};
}
_addCheck(check) {
return new ZodDate({
...this._def,
checks: [...this._def.checks, check]
});
}
min(minDate, message) {
return this._addCheck({
kind: "min",
value: minDate.getTime(),
message: errorUtil.toString(message)
});
}
max(maxDate, message) {
return this._addCheck({
kind: "max",
value: maxDate.getTime(),
message: errorUtil.toString(message)
});
}
get minDate() {
let min = null;
for (const ch of this._def.checks) {
if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
}
}
return min != null ? new Date(min) : null;
}
get maxDate() {
let max = null;
for (const ch of this._def.checks) {
if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return max != null ? new Date(max) : null;
}
};
ZodDate.create = (params) => {
return new ZodDate({
checks: [],
coerce: (params === null || params === void 0 ? void 0 : params.coerce) || false,
typeName: ZodFirstPartyTypeKind.ZodDate,
...processCreateParams(params)
});
};
var ZodSymbol = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.symbol) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.symbol,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodSymbol.create = (params) => {
return new ZodSymbol({
typeName: ZodFirstPartyTypeKind.ZodSymbol,
...processCreateParams(params)
});
};
var ZodUndefined = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.undefined) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.undefined,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodUndefined.create = (params) => {
return new ZodUndefined({
typeName: ZodFirstPartyTypeKind.ZodUndefined,
...processCreateParams(params)
});
};
var ZodNull = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.null) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.null,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodNull.create = (params) => {
return new ZodNull({
typeName: ZodFirstPartyTypeKind.ZodNull,
...processCreateParams(params)
});
};
var ZodAny = class extends ZodType {
constructor() {
super(...arguments);
this._any = true;
}
_parse(input) {
return OK(input.data);
}
};
ZodAny.create = (params) => {
return new ZodAny({
typeName: ZodFirstPartyTypeKind.ZodAny,
...processCreateParams(params)
});
};
var ZodUnknown = class extends ZodType {
constructor() {
super(...arguments);
this._unknown = true;
}
_parse(input) {
return OK(input.data);
}
};
ZodUnknown.create = (params) => {
return new ZodUnknown({
typeName: ZodFirstPartyTypeKind.ZodUnknown,
...processCreateParams(params)
});
};
var ZodNever = class extends ZodType {
_parse(input) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.never,
received: ctx.parsedType
});
return INVALID;
}
};
ZodNever.create = (params) => {
return new ZodNever({
typeName: ZodFirstPartyTypeKind.ZodNever,
...processCreateParams(params)
});
};
var ZodVoid = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.undefined) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.void,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodVoid.create = (params) => {
return new ZodVoid({
typeName: ZodFirstPartyTypeKind.ZodVoid,
...processCreateParams(params)
});
};
var ZodArray = class extends ZodType {
_parse(input) {
const { ctx, status } = this._processInputParams(input);
const def = this._def;
if (ctx.parsedType !== ZodParsedType.array) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.array,
received: ctx.parsedType
});
return INVALID;
}
if (def.exactLength !== null) {
const tooBig = ctx.data.length > def.exactLength.value;
const tooSmall = ctx.data.length < def.exactLength.value;
if (tooBig || tooSmall) {
addIssueToContext(ctx, {
code: tooBig ? ZodIssueCode.too_big : ZodIssueCode.too_small,
minimum: tooSmall ? def.exactLength.value : void 0,
maximum: tooBig ? def.exactLength.value : void 0,
type: "array",
inclusive: true,
exact: true,
message: def.exactLength.message
});
status.dirty();
}
}
if (def.minLength !== null) {
if (ctx.data.length < def.minLength.value) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: def.minLength.value,
type: "array",
inclusive: true,
exact: false,
message: def.minLength.message
});
status.dirty();
}
}
if (def.maxLength !== null) {
if (ctx.data.length > def.maxLength.value) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: def.maxLength.value,
type: "array",
inclusive: true,
exact: false,
message: def.maxLength.message
});
status.dirty();
}
}
if (ctx.common.async) {
return Promise.all([...ctx.data].map((item, i) => {
return def.type._parseAsync(new ParseInputLazyPath(ctx, item, ctx.path, i));
})).then((result2) => {
return ParseStatus.mergeArray(status, result2);
});
}
const result = [...ctx.data].map((item, i) => {
return def.type._parseSync(new ParseInputLazyPath(ctx, item, ctx.path, i));
});
return ParseStatus.mergeArray(status, result);
}
get element() {
return this._def.type;
}
min(minLength, message) {
return new ZodArray({
...this._def,
minLength: { value: minLength, message: errorUtil.toString(message) }
});
}
max(maxLength, message) {
return new ZodArray({
...this._def,
maxLength: { value: maxLength, message: errorUtil.toString(message) }
});
}
length(len, message) {
return new ZodArray({
...this._def,
exactLength: { value: len, message: errorUtil.toString(message) }
});
}
nonempty(message) {
return this.min(1, message);
}
};
ZodArray.create = (schema, params) => {
return new ZodArray({
type: schema,
minLength: null,
maxLength: null,
exactLength: null,
typeName: ZodFirstPartyTypeKind.ZodArray,
...processCreateParams(params)
});
};
function deepPartialify(schema) {
if (schema instanceof ZodObject) {
const newShape = {};
for (const key in schema.shape) {
const fieldSchema = schema.shape[key];
newShape[key] = ZodOptional.create(deepPartialify(fieldSchema));
}
return new ZodObject({
...schema._def,
shape: () => newShape
});
} else if (schema instanceof ZodArray) {
return new ZodArray({
...schema._def,
type: deepPartialify(schema.element)
});
} else if (schema instanceof ZodOptional) {
return ZodOptional.create(deepPartialify(schema.unwrap()));
} else if (schema instanceof ZodNullable) {
return ZodNullable.create(deepPartialify(schema.unwrap()));
} else if (schema instanceof ZodTuple) {
return ZodTuple.create(schema.items.map((item) => deepPartialify(item)));
} else {
return schema;
}
}
var ZodObject = class extends ZodType {
constructor() {
super(...arguments);
this._cached = null;
this.nonstrict = this.passthrough;
this.augment = this.extend;
}
_getCached() {
if (this._cached !== null)
return this._cached;
const shape = this._def.shape();
const keys = util.objectKeys(shape);
return this._cached = { shape, keys };
}
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.object) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.object,
received: ctx2.parsedType
});
return INVALID;
}
const { status, ctx } = this._processInputParams(input);
const { shape, keys: shapeKeys } = this._getCached();
const extraKeys = [];
if (!(this._def.catchall instanceof ZodNever && this._def.unknownKeys === "strip")) {
for (const key in ctx.data) {
if (!shapeKeys.includes(key)) {
extraKeys.push(key);
}
}
}
const pairs = [];
for (const key of shapeKeys) {
const keyValidator = shape[key];
const value = ctx.data[key];
pairs.push({
key: { status: "valid", value: key },
value: keyValidator._parse(new ParseInputLazyPath(ctx, value, ctx.path, key)),
alwaysSet: key in ctx.data
});
}
if (this._def.catchall instanceof ZodNever) {
const unknownKeys = this._def.unknownKeys;
if (unknownKeys === "passthrough") {
for (const key of extraKeys) {
pairs.push({
key: { status: "valid", value: key },
value: { status: "valid", value: ctx.data[key] }
});
}
} else if (unknownKeys === "strict") {
if (extraKeys.length > 0) {
addIssueToContext(ctx, {
code: ZodIssueCode.unrecognized_keys,
keys: extraKeys
});
status.dirty();
}
} else if (unknownKeys === "strip")
;
else {
throw new Error(`Internal ZodObject error: invalid unknownKeys value.`);
}
} else {
const catchall = this._def.catchall;
for (const key of extraKeys) {
const value = ctx.data[key];
pairs.push({
key: { status: "valid", value: key },
value: catchall._parse(
new ParseInputLazyPath(ctx, value, ctx.path, key)
//, ctx.child(key), value, getParsedType(value)
),
alwaysSet: key in ctx.data
});
}
}
if (ctx.common.async) {
return Promise.resolve().then(async () => {
const syncPairs = [];
for (const pair of pairs) {
const key = await pair.key;
syncPairs.push({
key,
value: await pair.value,
alwaysSet: pair.alwaysSet
});
}
return syncPairs;
}).then((syncPairs) => {
return ParseStatus.mergeObjectSync(status, syncPairs);
});
} else {
return ParseStatus.mergeObjectSync(status, pairs);
}
}
get shape() {
return this._def.shape();
}
strict(message) {
errorUtil.errToObj;
return new ZodObject({
...this._def,
unknownKeys: "strict",
...message !== void 0 ? {
errorMap: (issue, ctx) => {
var _a3, _b, _c, _d;
const defaultError = (_c = (_b = (_a3 = this._def).errorMap) === null || _b === void 0 ? void 0 : _b.call(_a3, issue, ctx).message) !== null && _c !== void 0 ? _c : ctx.defaultError;
if (issue.code === "unrecognized_keys")
return {
message: (_d = errorUtil.errToObj(message).message) !== null && _d !== void 0 ? _d : defaultError
};
return {
message: defaultError
};
}
} : {}
});
}
strip() {
return new ZodObject({
...this._def,
unknownKeys: "strip"
});
}
passthrough() {
return new ZodObject({
...this._def,
unknownKeys: "passthrough"
});
}
// const AugmentFactory =
// <Def extends ZodObjectDef>(def: Def) =>
// <Augmentation extends ZodRawShape>(
// augmentation: Augmentation
// ): ZodObject<
// extendShape<ReturnType<Def["shape"]>, Augmentation>,
// Def["unknownKeys"],
// Def["catchall"]
// > => {
// return new ZodObject({
// ...def,
// shape: () => ({
// ...def.shape(),
// ...augmentation,
// }),
// }) as any;
// };
extend(augmentation) {
return new ZodObject({
...this._def,
shape: () => ({
...this._def.shape(),
...augmentation
})
});
}
/**
* Prior to zod@1.0.12 there was a bug in the
* inferred type of merged objects. Please
* upgrade if you are experiencing issues.
*/
merge(merging) {
const merged = new ZodObject({
unknownKeys: merging._def.unknownKeys,
catchall: merging._def.catchall,
shape: () => ({
...this._def.shape(),
...merging._def.shape()
}),
typeName: ZodFirstPartyTypeKind.ZodObject
});
return merged;
}
// merge<
// Incoming extends AnyZodObject,
// Augmentation extends Incoming["shape"],
// NewOutput extends {
// [k in keyof Augmentation | keyof Output]: k extends keyof Augmentation
// ? Augmentation[k]["_output"]
// : k extends keyof Output
// ? Output[k]
// : never;
// },
// NewInput extends {
// [k in keyof Augmentation | keyof Input]: k extends keyof Augmentation
// ? Augmentation[k]["_input"]
// : k extends keyof Input
// ? Input[k]
// : never;
// }
// >(
// merging: Incoming
// ): ZodObject<
// extendShape<T, ReturnType<Incoming["_def"]["shape"]>>,
// Incoming["_def"]["unknownKeys"],
// Incoming["_def"]["catchall"],
// NewOutput,
// NewInput
// > {
// const merged: any = new ZodObject({
// unknownKeys: merging._def.unknownKeys,
// catchall: merging._def.catchall,
// shape: () =>
// objectUtil.mergeShapes(this._def.shape(), merging._def.shape()),
// typeName: ZodFirstPartyTypeKind.ZodObject,
// }) as any;
// return merged;
// }
setKey(key, schema) {
return this.augment({ [key]: schema });
}
// merge<Incoming extends AnyZodObject>(
// merging: Incoming
// ): //ZodObject<T & Incoming["_shape"], UnknownKeys, Catchall> = (merging) => {
// ZodObject<
// extendShape<T, ReturnType<Incoming["_def"]["shape"]>>,
// Incoming["_def"]["unknownKeys"],
// Incoming["_def"]["catchall"]
// > {
// // const mergedShape = objectUtil.mergeShapes(
// // this._def.shape(),
// // merging._def.shape()
// // );
// const merged: any = new ZodObject({
// unknownKeys: merging._def.unknownKeys,
// catchall: merging._def.catchall,
// shape: () =>
// objectUtil.mergeShapes(this._def.shape(), merging._def.shape()),
// typeName: ZodFirstPartyTypeKind.ZodObject,
// }) as any;
// return merged;
// }
catchall(index) {
return new ZodObject({
...this._def,
catchall: index
});
}
pick(mask) {
const shape = {};
util.objectKeys(mask).forEach((key) => {
if (mask[key] && this.shape[key]) {
shape[key] = this.shape[key];
}
});
return new ZodObject({
...this._def,
shape: () => shape
});
}
omit(mask) {
const shape = {};
util.objectKeys(this.shape).forEach((key) => {
if (!mask[key]) {
shape[key] = this.shape[key];
}
});
return new ZodObject({
...this._def,
shape: () => shape
});
}
/**
* @deprecated
*/
deepPartial() {
return deepPartialify(this);
}
partial(mask) {
const newShape = {};
util.objectKeys(this.shape).forEach((key) => {
const fieldSchema = this.shape[key];
if (mask && !mask[key]) {
newShape[key] = fieldSchema;
} else {
newShape[key] = fieldSchema.optional();
}
});
return new ZodObject({
...this._def,
shape: () => newShape
});
}
required(mask) {
const newShape = {};
util.objectKeys(this.shape).forEach((key) => {
if (mask && !mask[key]) {
newShape[key] = this.shape[key];
} else {
const fieldSchema = this.shape[key];
let newField = fieldSchema;
while (newField instanceof ZodOptional) {
newField = newField._def.innerType;
}
newShape[key] = newField;
}
});
return new ZodObject({
...this._def,
shape: () => newShape
});
}
keyof() {
return createZodEnum(util.objectKeys(this.shape));
}
};
ZodObject.create = (shape, params) => {
return new ZodObject({
shape: () => shape,
unknownKeys: "strip",
catchall: ZodNever.create(),
typeName: ZodFirstPartyTypeKind.ZodObject,
...processCreateParams(params)
});
};
ZodObject.strictCreate = (shape, params) => {
return new ZodObject({
shape: () => shape,
unknownKeys: "strict",
catchall: ZodNever.create(),
typeName: ZodFirstPartyTypeKind.ZodObject,
...processCreateParams(params)
});
};
ZodObject.lazycreate = (shape, params) => {
return new ZodObject({
shape,
unknownKeys: "strip",
catchall: ZodNever.create(),
typeName: ZodFirstPartyTypeKind.ZodObject,
...processCreateParams(params)
});
};
var ZodUnion = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
const options = this._def.options;
function handleResults(results) {
for (const result of results) {
if (result.result.status === "valid") {
return result.result;
}
}
for (const result of results) {
if (result.result.status === "dirty") {
ctx.common.issues.push(...result.ctx.common.issues);
return result.result;
}
}
const unionErrors = results.map((result) => new ZodError(result.ctx.common.issues));
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_union,
unionErrors
});
return INVALID;
}
if (ctx.common.async) {
return Promise.all(options.map(async (option) => {
const childCtx = {
...ctx,
common: {
...ctx.common,
issues: []
},
parent: null
};
return {
result: await option._parseAsync({
data: ctx.data,
path: ctx.path,
parent: childCtx
}),
ctx: childCtx
};
})).then(handleResults);
} else {
let dirty = void 0;
const issues = [];
for (const option of options) {
const childCtx = {
...ctx,
common: {
...ctx.common,
issues: []
},
parent: null
};
const result = option._parseSync({
data: ctx.data,
path: ctx.path,
parent: childCtx
});
if (result.status === "valid") {
return result;
} else if (result.status === "dirty" && !dirty) {
dirty = { result, ctx: childCtx };
}
if (childCtx.common.issues.length) {
issues.push(childCtx.common.issues);
}
}
if (dirty) {
ctx.common.issues.push(...dirty.ctx.common.issues);
return dirty.result;
}
const unionErrors = issues.map((issues2) => new ZodError(issues2));
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_union,
unionErrors
});
return INVALID;
}
}
get options() {
return this._def.options;
}
};
ZodUnion.create = (types, params) => {
return new ZodUnion({
options: types,
typeName: ZodFirstPartyTypeKind.ZodUnion,
...processCreateParams(params)
});
};
var getDiscriminator = (type) => {
if (type instanceof ZodLazy) {
return getDiscriminator(type.schema);
} else if (type instanceof ZodEffects) {
return getDiscriminator(type.innerType());
} else if (type instanceof ZodLiteral) {
return [type.value];
} else if (type instanceof ZodEnum) {
return type.options;
} else if (type instanceof ZodNativeEnum) {
return Object.keys(type.enum);
} else if (type instanceof ZodDefault) {
return getDiscriminator(type._def.innerType);
} else if (type instanceof ZodUndefined) {
return [void 0];
} else if (type instanceof ZodNull) {
return [null];
} else {
return null;
}
};
var ZodDiscriminatedUnion = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.object) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.object,
received: ctx.parsedType
});
return INVALID;
}
const discriminator = this.discriminator;
const discriminatorValue = ctx.data[discriminator];
const option = this.optionsMap.get(discriminatorValue);
if (!option) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_union_discriminator,
options: Array.from(this.optionsMap.keys()),
path: [discriminator]
});
return INVALID;
}
if (ctx.common.async) {
return option._parseAsync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
} else {
return option._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
}
}
get discriminator() {
return this._def.discriminator;
}
get options() {
return this._def.options;
}
get optionsMap() {
return this._def.optionsMap;
}
/**
* The constructor of the discriminated union schema. Its behaviour is very similar to that of the normal z.union() constructor.
* However, it only allows a union of objects, all of which need to share a discriminator property. This property must
* have a different value for each object in the union.
* @param discriminator the name of the discriminator property
* @param types an array of object schemas
* @param params
*/
static create(discriminator, options, params) {
const optionsMap = /* @__PURE__ */ new Map();
for (const type of options) {
const discriminatorValues = getDiscriminator(type.shape[discriminator]);
if (!discriminatorValues) {
throw new Error(`A discriminator value for key \`${discriminator}\` could not be extracted from all schema options`);
}
for (const value of discriminatorValues) {
if (optionsMap.has(value)) {
throw new Error(`Discriminator property ${String(discriminator)} has duplicate value ${String(value)}`);
}
optionsMap.set(value, type);
}
}
return new ZodDiscriminatedUnion({
typeName: ZodFirstPartyTypeKind.ZodDiscriminatedUnion,
discriminator,
options,
optionsMap,
...processCreateParams(params)
});
}
};
function mergeValues(a2, b2) {
const aType = getParsedType(a2);
const bType = getParsedType(b2);
if (a2 === b2) {
return { valid: true, data: a2 };
} else if (aType === ZodParsedType.object && bType === ZodParsedType.object) {
const bKeys = util.objectKeys(b2);
const sharedKeys = util.objectKeys(a2).filter((key) => bKeys.indexOf(key) !== -1);
const newObj = { ...a2, ...b2 };
for (const key of sharedKeys) {
const sharedValue = mergeValues(a2[key], b2[key]);
if (!sharedValue.valid) {
return { valid: false };
}
newObj[key] = sharedValue.data;
}
return { valid: true, data: newObj };
} else if (aType === ZodParsedType.array && bType === ZodParsedType.array) {
if (a2.length !== b2.length) {
return { valid: false };
}
const newArray = [];
for (let index = 0; index < a2.length; index++) {
const itemA = a2[index];
const itemB = b2[index];
const sharedValue = mergeValues(itemA, itemB);
if (!sharedValue.valid) {
return { valid: false };
}
newArray.push(sharedValue.data);
}
return { valid: true, data: newArray };
} else if (aType === ZodParsedType.date && bType === ZodParsedType.date && +a2 === +b2) {
return { valid: true, data: a2 };
} else {
return { valid: false };
}
}
var ZodIntersection = class extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
const handleParsed = (parsedLeft, parsedRight) => {
if (isAborted(parsedLeft) || isAborted(parsedRight)) {
return INVALID;
}
const merged = mergeValues(parsedLeft.value, parsedRight.value);
if (!merged.valid) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_intersection_types
});
return INVALID;
}
if (isDirty(parsedLeft) || isDirty(parsedRight)) {
status.dirty();
}
return { status: status.value, value: merged.data };
};
if (ctx.common.async) {
return Promise.all([
this._def.left._parseAsync({
data: ctx.data,
path: ctx.path,
parent: ctx
}),
this._def.right._parseAsync({
data: ctx.data,
path: ctx.path,
parent: ctx
})
]).then(([left, right]) => handleParsed(left, right));
} else {
return handleParsed(this._def.left._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
}), this._def.right._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
}));
}
}
};
ZodIntersection.create = (left, right, params) => {
return new ZodIntersection({
left,
right,
typeName: ZodFirstPartyTypeKind.ZodIntersection,
...processCreateParams(params)
});
};
var ZodTuple = class extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.array) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.array,
received: ctx.parsedType
});
return INVALID;
}
if (ctx.data.length < this._def.items.length) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: this._def.items.length,
inclusive: true,
exact: false,
type: "array"
});
return INVALID;
}
const rest = this._def.rest;
if (!rest && ctx.data.length > this._def.items.length) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: this._def.items.length,
inclusive: true,
exact: false,
type: "array"
});
status.dirty();
}
const items = [...ctx.data].map((item, itemIndex) => {
const schema = this._def.items[itemIndex] || this._def.rest;
if (!schema)
return null;
return schema._parse(new ParseInputLazyPath(ctx, item, ctx.path, itemIndex));
}).filter((x2) => !!x2);
if (ctx.common.async) {
return Promise.all(items).then((results) => {
return ParseStatus.mergeArray(status, results);
});
} else {
return ParseStatus.mergeArray(status, items);
}
}
get items() {
return this._def.items;
}
rest(rest) {
return new ZodTuple({
...this._def,
rest
});
}
};
ZodTuple.create = (schemas, params) => {
if (!Array.isArray(schemas)) {
throw new Error("You must pass an array of schemas to z.tuple([ ... ])");
}
return new ZodTuple({
items: schemas,
typeName: ZodFirstPartyTypeKind.ZodTuple,
rest: null,
...processCreateParams(params)
});
};
var ZodRecord = class extends ZodType {
get keySchema() {
return this._def.keyType;
}
get valueSchema() {
return this._def.valueType;
}
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.object) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.object,
received: ctx.parsedType
});
return INVALID;
}
const pairs = [];
const keyType = this._def.keyType;
const valueType = this._def.valueType;
for (const key in ctx.data) {
pairs.push({
key: keyType._parse(new ParseInputLazyPath(ctx, key, ctx.path, key)),
value: valueType._parse(new ParseInputLazyPath(ctx, ctx.data[key], ctx.path, key))
});
}
if (ctx.common.async) {
return ParseStatus.mergeObjectAsync(status, pairs);
} else {
return ParseStatus.mergeObjectSync(status, pairs);
}
}
get element() {
return this._def.valueType;
}
static create(first, second, third) {
if (second instanceof ZodType) {
return new ZodRecord({
keyType: first,
valueType: second,
typeName: ZodFirstPartyTypeKind.ZodRecord,
...processCreateParams(third)
});
}
return new ZodRecord({
keyType: ZodString.create(),
valueType: first,
typeName: ZodFirstPartyTypeKind.ZodRecord,
...processCreateParams(second)
});
}
};
var ZodMap = class extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.map) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.map,
received: ctx.parsedType
});
return INVALID;
}
const keyType = this._def.keyType;
const valueType = this._def.valueType;
const pairs = [...ctx.data.entries()].map(([key, value], index) => {
return {
key: keyType._parse(new ParseInputLazyPath(ctx, key, ctx.path, [index, "key"])),
value: valueType._parse(new ParseInputLazyPath(ctx, value, ctx.path, [index, "value"]))
};
});
if (ctx.common.async) {
const finalMap = /* @__PURE__ */ new Map();
return Promise.resolve().then(async () => {
for (const pair of pairs) {
const key = await pair.key;
const value = await pair.value;
if (key.status === "aborted" || value.status === "aborted") {
return INVALID;
}
if (key.status === "dirty" || value.status === "dirty") {
status.dirty();
}
finalMap.set(key.value, value.value);
}
return { status: status.value, value: finalMap };
});
} else {
const finalMap = /* @__PURE__ */ new Map();
for (const pair of pairs) {
const key = pair.key;
const value = pair.value;
if (key.status === "aborted" || value.status === "aborted") {
return INVALID;
}
if (key.status === "dirty" || value.status === "dirty") {
status.dirty();
}
finalMap.set(key.value, value.value);
}
return { status: status.value, value: finalMap };
}
}
};
ZodMap.create = (keyType, valueType, params) => {
return new ZodMap({
valueType,
keyType,
typeName: ZodFirstPartyTypeKind.ZodMap,
...processCreateParams(params)
});
};
var ZodSet = class extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.set) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.set,
received: ctx.parsedType
});
return INVALID;
}
const def = this._def;
if (def.minSize !== null) {
if (ctx.data.size < def.minSize.value) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: def.minSize.value,
type: "set",
inclusive: true,
exact: false,
message: def.minSize.message
});
status.dirty();
}
}
if (def.maxSize !== null) {
if (ctx.data.size > def.maxSize.value) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: def.maxSize.value,
type: "set",
inclusive: true,
exact: false,
message: def.maxSize.message
});
status.dirty();
}
}
const valueType = this._def.valueType;
function finalizeSet(elements2) {
const parsedSet = /* @__PURE__ */ new Set();
for (const element of elements2) {
if (element.status === "aborted")
return INVALID;
if (element.status === "dirty")
status.dirty();
parsedSet.add(element.value);
}
return { status: status.value, value: parsedSet };
}
const elements = [...ctx.data.values()].map((item, i) => valueType._parse(new ParseInputLazyPath(ctx, item, ctx.path, i)));
if (ctx.common.async) {
return Promise.all(elements).then((elements2) => finalizeSet(elements2));
} else {
return finalizeSet(elements);
}
}
min(minSize, message) {
return new ZodSet({
...this._def,
minSize: { value: minSize, message: errorUtil.toString(message) }
});
}
max(maxSize, message) {
return new ZodSet({
...this._def,
maxSize: { value: maxSize, message: errorUtil.toString(message) }
});
}
size(size, message) {
return this.min(size, message).max(size, message);
}
nonempty(message) {
return this.min(1, message);
}
};
ZodSet.create = (valueType, params) => {
return new ZodSet({
valueType,
minSize: null,
maxSize: null,
typeName: ZodFirstPartyTypeKind.ZodSet,
...processCreateParams(params)
});
};
var ZodFunction = class extends ZodType {
constructor() {
super(...arguments);
this.validate = this.implement;
}
_parse(input) {
const { ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.function) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.function,
received: ctx.parsedType
});
return INVALID;
}
function makeArgsIssue(args, error) {
return makeIssue({
data: args,
path: ctx.path,
errorMaps: [
ctx.common.contextualErrorMap,
ctx.schemaErrorMap,
getErrorMap(),
errorMap
].filter((x2) => !!x2),
issueData: {
code: ZodIssueCode.invalid_arguments,
argumentsError: error
}
});
}
function makeReturnsIssue(returns, error) {
return makeIssue({
data: returns,
path: ctx.path,
errorMaps: [
ctx.common.contextualErrorMap,
ctx.schemaErrorMap,
getErrorMap(),
errorMap
].filter((x2) => !!x2),
issueData: {
code: ZodIssueCode.invalid_return_type,
returnTypeError: error
}
});
}
const params = { errorMap: ctx.common.contextualErrorMap };
const fn = ctx.data;
if (this._def.returns instanceof ZodPromise) {
return OK(async (...args) => {
const error = new ZodError([]);
const parsedArgs = await this._def.args.parseAsync(args, params).catch((e) => {
error.addIssue(makeArgsIssue(args, e));
throw error;
});
const result = await fn(...parsedArgs);
const parsedReturns = await this._def.returns._def.type.parseAsync(result, params).catch((e) => {
error.addIssue(makeReturnsIssue(result, e));
throw error;
});
return parsedReturns;
});
} else {
return OK((...args) => {
const parsedArgs = this._def.args.safeParse(args, params);
if (!parsedArgs.success) {
throw new ZodError([makeArgsIssue(args, parsedArgs.error)]);
}
const result = fn(...parsedArgs.data);
const parsedReturns = this._def.returns.safeParse(result, params);
if (!parsedReturns.success) {
throw new ZodError([makeReturnsIssue(result, parsedReturns.error)]);
}
return parsedReturns.data;
});
}
}
parameters() {
return this._def.args;
}
returnType() {
return this._def.returns;
}
args(...items) {
return new ZodFunction({
...this._def,
args: ZodTuple.create(items).rest(ZodUnknown.create())
});
}
returns(returnType) {
return new ZodFunction({
...this._def,
returns: returnType
});
}
implement(func) {
const validatedFunc = this.parse(func);
return validatedFunc;
}
strictImplement(func) {
const validatedFunc = this.parse(func);
return validatedFunc;
}
static create(args, returns, params) {
return new ZodFunction({
args: args ? args : ZodTuple.create([]).rest(ZodUnknown.create()),
returns: returns || ZodUnknown.create(),
typeName: ZodFirstPartyTypeKind.ZodFunction,
...processCreateParams(params)
});
}
};
var ZodLazy = class extends ZodType {
get schema() {
return this._def.getter();
}
_parse(input) {
const { ctx } = this._processInputParams(input);
const lazySchema = this._def.getter();
return lazySchema._parse({ data: ctx.data, path: ctx.path, parent: ctx });
}
};
ZodLazy.create = (getter, params) => {
return new ZodLazy({
getter,
typeName: ZodFirstPartyTypeKind.ZodLazy,
...processCreateParams(params)
});
};
var ZodLiteral = class extends ZodType {
_parse(input) {
if (input.data !== this._def.value) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
received: ctx.data,
code: ZodIssueCode.invalid_literal,
expected: this._def.value
});
return INVALID;
}
return { status: "valid", value: input.data };
}
get value() {
return this._def.value;
}
};
ZodLiteral.create = (value, params) => {
return new ZodLiteral({
value,
typeName: ZodFirstPartyTypeKind.ZodLiteral,
...processCreateParams(params)
});
};
function createZodEnum(values, params) {
return new ZodEnum({
values,
typeName: ZodFirstPartyTypeKind.ZodEnum,
...processCreateParams(params)
});
}
var ZodEnum = class extends ZodType {
_parse(input) {
if (typeof input.data !== "string") {
const ctx = this._getOrReturnCtx(input);
const expectedValues = this._def.values;
addIssueToContext(ctx, {
expected: util.joinValues(expectedValues),
received: ctx.parsedType,
code: ZodIssueCode.invalid_type
});
return INVALID;
}
if (this._def.values.indexOf(input.data) === -1) {
const ctx = this._getOrReturnCtx(input);
const expectedValues = this._def.values;
addIssueToContext(ctx, {
received: ctx.data,
code: ZodIssueCode.invalid_enum_value,
options: expectedValues
});
return INVALID;
}
return OK(input.data);
}
get options() {
return this._def.values;
}
get enum() {
const enumValues = {};
for (const val of this._def.values) {
enumValues[val] = val;
}
return enumValues;
}
get Values() {
const enumValues = {};
for (const val of this._def.values) {
enumValues[val] = val;
}
return enumValues;
}
get Enum() {
const enumValues = {};
for (const val of this._def.values) {
enumValues[val] = val;
}
return enumValues;
}
extract(values) {
return ZodEnum.create(values);
}
exclude(values) {
return ZodEnum.create(this.options.filter((opt) => !values.includes(opt)));
}
};
ZodEnum.create = createZodEnum;
var ZodNativeEnum = class extends ZodType {
_parse(input) {
const nativeEnumValues = util.getValidEnumValues(this._def.values);
const ctx = this._getOrReturnCtx(input);
if (ctx.parsedType !== ZodParsedType.string && ctx.parsedType !== ZodParsedType.number) {
const expectedValues = util.objectValues(nativeEnumValues);
addIssueToContext(ctx, {
expected: util.joinValues(expectedValues),
received: ctx.parsedType,
code: ZodIssueCode.invalid_type
});
return INVALID;
}
if (nativeEnumValues.indexOf(input.data) === -1) {
const expectedValues = util.objectValues(nativeEnumValues);
addIssueToContext(ctx, {
received: ctx.data,
code: ZodIssueCode.invalid_enum_value,
options: expectedValues
});
return INVALID;
}
return OK(input.data);
}
get enum() {
return this._def.values;
}
};
ZodNativeEnum.create = (values, params) => {
return new ZodNativeEnum({
values,
typeName: ZodFirstPartyTypeKind.ZodNativeEnum,
...processCreateParams(params)
});
};
var ZodPromise = class extends ZodType {
unwrap() {
return this._def.type;
}
_parse(input) {
const { ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.promise && ctx.common.async === false) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.promise,
received: ctx.parsedType
});
return INVALID;
}
const promisified = ctx.parsedType === ZodParsedType.promise ? ctx.data : Promise.resolve(ctx.data);
return OK(promisified.then((data) => {
return this._def.type.parseAsync(data, {
path: ctx.path,
errorMap: ctx.common.contextualErrorMap
});
}));
}
};
ZodPromise.create = (schema, params) => {
return new ZodPromise({
type: schema,
typeName: ZodFirstPartyTypeKind.ZodPromise,
...processCreateParams(params)
});
};
var ZodEffects = class extends ZodType {
innerType() {
return this._def.schema;
}
sourceType() {
return this._def.schema._def.typeName === ZodFirstPartyTypeKind.ZodEffects ? this._def.schema.sourceType() : this._def.schema;
}
_parse(input) {
const { status, ctx } = this._processInputParams(input);
const effect = this._def.effect || null;
if (effect.type === "preprocess") {
const processed = effect.transform(ctx.data);
if (ctx.common.async) {
return Promise.resolve(processed).then((processed2) => {
return this._def.schema._parseAsync({
data: processed2,
path: ctx.path,
parent: ctx
});
});
} else {
return this._def.schema._parseSync({
data: processed,
path: ctx.path,
parent: ctx
});
}
}
const checkCtx = {
addIssue: (arg) => {
addIssueToContext(ctx, arg);
if (arg.fatal) {
status.abort();
} else {
status.dirty();
}
},
get path() {
return ctx.path;
}
};
checkCtx.addIssue = checkCtx.addIssue.bind(checkCtx);
if (effect.type === "refinement") {
const executeRefinement = (acc) => {
const result = effect.refinement(acc, checkCtx);
if (ctx.common.async) {
return Promise.resolve(result);
}
if (result instanceof Promise) {
throw new Error("Async refinement encountered during synchronous parse operation. Use .parseAsync instead.");
}
return acc;
};
if (ctx.common.async === false) {
const inner = this._def.schema._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
if (inner.status === "aborted")
return INVALID;
if (inner.status === "dirty")
status.dirty();
executeRefinement(inner.value);
return { status: status.value, value: inner.value };
} else {
return this._def.schema._parseAsync({ data: ctx.data, path: ctx.path, parent: ctx }).then((inner) => {
if (inner.status === "aborted")
return INVALID;
if (inner.status === "dirty")
status.dirty();
return executeRefinement(inner.value).then(() => {
return { status: status.value, value: inner.value };
});
});
}
}
if (effect.type === "transform") {
if (ctx.common.async === false) {
const base = this._def.schema._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
if (!isValid(base))
return base;
const result = effect.transform(base.value, checkCtx);
if (result instanceof Promise) {
throw new Error(`Asynchronous transform encountered during synchronous parse operation. Use .parseAsync instead.`);
}
return { status: status.value, value: result };
} else {
return this._def.schema._parseAsync({ data: ctx.data, path: ctx.path, parent: ctx }).then((base) => {
if (!isValid(base))
return base;
return Promise.resolve(effect.transform(base.value, checkCtx)).then((result) => ({ status: status.value, value: result }));
});
}
}
util.assertNever(effect);
}
};
ZodEffects.create = (schema, effect, params) => {
return new ZodEffects({
schema,
typeName: ZodFirstPartyTypeKind.ZodEffects,
effect,
...processCreateParams(params)
});
};
ZodEffects.createWithPreprocess = (preprocess, schema, params) => {
return new ZodEffects({
schema,
effect: { type: "preprocess", transform: preprocess },
typeName: ZodFirstPartyTypeKind.ZodEffects,
...processCreateParams(params)
});
};
var ZodOptional = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType === ZodParsedType.undefined) {
return OK(void 0);
}
return this._def.innerType._parse(input);
}
unwrap() {
return this._def.innerType;
}
};
ZodOptional.create = (type, params) => {
return new ZodOptional({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodOptional,
...processCreateParams(params)
});
};
var ZodNullable = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType === ZodParsedType.null) {
return OK(null);
}
return this._def.innerType._parse(input);
}
unwrap() {
return this._def.innerType;
}
};
ZodNullable.create = (type, params) => {
return new ZodNullable({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodNullable,
...processCreateParams(params)
});
};
var ZodDefault = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
let data = ctx.data;
if (ctx.parsedType === ZodParsedType.undefined) {
data = this._def.defaultValue();
}
return this._def.innerType._parse({
data,
path: ctx.path,
parent: ctx
});
}
removeDefault() {
return this._def.innerType;
}
};
ZodDefault.create = (type, params) => {
return new ZodDefault({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodDefault,
defaultValue: typeof params.default === "function" ? params.default : () => params.default,
...processCreateParams(params)
});
};
var ZodCatch = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
const newCtx = {
...ctx,
common: {
...ctx.common,
issues: []
}
};
const result = this._def.innerType._parse({
data: newCtx.data,
path: newCtx.path,
parent: {
...newCtx
}
});
if (isAsync(result)) {
return result.then((result2) => {
return {
status: "valid",
value: result2.status === "valid" ? result2.value : this._def.catchValue({
get error() {
return new ZodError(newCtx.common.issues);
},
input: newCtx.data
})
};
});
} else {
return {
status: "valid",
value: result.status === "valid" ? result.value : this._def.catchValue({
get error() {
return new ZodError(newCtx.common.issues);
},
input: newCtx.data
})
};
}
}
removeCatch() {
return this._def.innerType;
}
};
ZodCatch.create = (type, params) => {
return new ZodCatch({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodCatch,
catchValue: typeof params.catch === "function" ? params.catch : () => params.catch,
...processCreateParams(params)
});
};
var ZodNaN = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.nan) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.nan,
received: ctx.parsedType
});
return INVALID;
}
return { status: "valid", value: input.data };
}
};
ZodNaN.create = (params) => {
return new ZodNaN({
typeName: ZodFirstPartyTypeKind.ZodNaN,
...processCreateParams(params)
});
};
var BRAND = Symbol("zod_brand");
var ZodBranded = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
const data = ctx.data;
return this._def.type._parse({
data,
path: ctx.path,
parent: ctx
});
}
unwrap() {
return this._def.type;
}
};
var ZodPipeline = class extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.common.async) {
const handleAsync = async () => {
const inResult = await this._def.in._parseAsync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
if (inResult.status === "aborted")
return INVALID;
if (inResult.status === "dirty") {
status.dirty();
return DIRTY(inResult.value);
} else {
return this._def.out._parseAsync({
data: inResult.value,
path: ctx.path,
parent: ctx
});
}
};
return handleAsync();
} else {
const inResult = this._def.in._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
if (inResult.status === "aborted")
return INVALID;
if (inResult.status === "dirty") {
status.dirty();
return {
status: "dirty",
value: inResult.value
};
} else {
return this._def.out._parseSync({
data: inResult.value,
path: ctx.path,
parent: ctx
});
}
}
}
static create(a2, b2) {
return new ZodPipeline({
in: a2,
out: b2,
typeName: ZodFirstPartyTypeKind.ZodPipeline
});
}
};
var custom = (check, params = {}, fatal) => {
if (check)
return ZodAny.create().superRefine((data, ctx) => {
var _a3, _b;
if (!check(data)) {
const p2 = typeof params === "function" ? params(data) : typeof params === "string" ? { message: params } : params;
const _fatal = (_b = (_a3 = p2.fatal) !== null && _a3 !== void 0 ? _a3 : fatal) !== null && _b !== void 0 ? _b : true;
const p22 = typeof p2 === "string" ? { message: p2 } : p2;
ctx.addIssue({ code: "custom", ...p22, fatal: _fatal });
}
});
return ZodAny.create();
};
var late = {
object: ZodObject.lazycreate
};
var ZodFirstPartyTypeKind;
(function(ZodFirstPartyTypeKind2) {
ZodFirstPartyTypeKind2["ZodString"] = "ZodString";
ZodFirstPartyTypeKind2["ZodNumber"] = "ZodNumber";
ZodFirstPartyTypeKind2["ZodNaN"] = "ZodNaN";
ZodFirstPartyTypeKind2["ZodBigInt"] = "ZodBigInt";
ZodFirstPartyTypeKind2["ZodBoolean"] = "ZodBoolean";
ZodFirstPartyTypeKind2["ZodDate"] = "ZodDate";
ZodFirstPartyTypeKind2["ZodSymbol"] = "ZodSymbol";
ZodFirstPartyTypeKind2["ZodUndefined"] = "ZodUndefined";
ZodFirstPartyTypeKind2["ZodNull"] = "ZodNull";
ZodFirstPartyTypeKind2["ZodAny"] = "ZodAny";
ZodFirstPartyTypeKind2["ZodUnknown"] = "ZodUnknown";
ZodFirstPartyTypeKind2["ZodNever"] = "ZodNever";
ZodFirstPartyTypeKind2["ZodVoid"] = "ZodVoid";
ZodFirstPartyTypeKind2["ZodArray"] = "ZodArray";
ZodFirstPartyTypeKind2["ZodObject"] = "ZodObject";
ZodFirstPartyTypeKind2["ZodUnion"] = "ZodUnion";
ZodFirstPartyTypeKind2["ZodDiscriminatedUnion"] = "ZodDiscriminatedUnion";
ZodFirstPartyTypeKind2["ZodIntersection"] = "ZodIntersection";
ZodFirstPartyTypeKind2["ZodTuple"] = "ZodTuple";
ZodFirstPartyTypeKind2["ZodRecord"] = "ZodRecord";
ZodFirstPartyTypeKind2["ZodMap"] = "ZodMap";
ZodFirstPartyTypeKind2["ZodSet"] = "ZodSet";
ZodFirstPartyTypeKind2["ZodFunction"] = "ZodFunction";
ZodFirstPartyTypeKind2["ZodLazy"] = "ZodLazy";
ZodFirstPartyTypeKind2["ZodLiteral"] = "ZodLiteral";
ZodFirstPartyTypeKind2["ZodEnum"] = "ZodEnum";
ZodFirstPartyTypeKind2["ZodEffects"] = "ZodEffects";
ZodFirstPartyTypeKind2["ZodNativeEnum"] = "ZodNativeEnum";
ZodFirstPartyTypeKind2["ZodOptional"] = "ZodOptional";
ZodFirstPartyTypeKind2["ZodNullable"] = "ZodNullable";
ZodFirstPartyTypeKind2["ZodDefault"] = "ZodDefault";
ZodFirstPartyTypeKind2["ZodCatch"] = "ZodCatch";
ZodFirstPartyTypeKind2["ZodPromise"] = "ZodPromise";
ZodFirstPartyTypeKind2["ZodBranded"] = "ZodBranded";
ZodFirstPartyTypeKind2["ZodPipeline"] = "ZodPipeline";
})(ZodFirstPartyTypeKind || (ZodFirstPartyTypeKind = {}));
var instanceOfType = (cls, params = {
message: `Input not instance of ${cls.name}`
}) => custom((data) => data instanceof cls, params);
var stringType = ZodString.create;
var numberType = ZodNumber.create;
var nanType = ZodNaN.create;
var bigIntType = ZodBigInt.create;
var booleanType = ZodBoolean.create;
var dateType = ZodDate.create;
var symbolType = ZodSymbol.create;
var undefinedType = ZodUndefined.create;
var nullType = ZodNull.create;
var anyType = ZodAny.create;
var unknownType = ZodUnknown.create;
var neverType = ZodNever.create;
var voidType = ZodVoid.create;
var arrayType = ZodArray.create;
var objectType = ZodObject.create;
var strictObjectType = ZodObject.strictCreate;
var unionType = ZodUnion.create;
var discriminatedUnionType = ZodDiscriminatedUnion.create;
var intersectionType = ZodIntersection.create;
var tupleType = ZodTuple.create;
var recordType = ZodRecord.create;
var mapType = ZodMap.create;
var setType = ZodSet.create;
var functionType = ZodFunction.create;
var lazyType = ZodLazy.create;
var literalType = ZodLiteral.create;
var enumType = ZodEnum.create;
var nativeEnumType = ZodNativeEnum.create;
var promiseType = ZodPromise.create;
var effectsType = ZodEffects.create;
var optionalType = ZodOptional.create;
var nullableType = ZodNullable.create;
var preprocessType = ZodEffects.createWithPreprocess;
var pipelineType = ZodPipeline.create;
var ostring = () => stringType().optional();
var onumber = () => numberType().optional();
var oboolean = () => booleanType().optional();
var coerce = {
string: (arg) => ZodString.create({ ...arg, coerce: true }),
number: (arg) => ZodNumber.create({ ...arg, coerce: true }),
boolean: (arg) => ZodBoolean.create({
...arg,
coerce: true
}),
bigint: (arg) => ZodBigInt.create({ ...arg, coerce: true }),
date: (arg) => ZodDate.create({ ...arg, coerce: true })
};
var NEVER = INVALID;
var z = /* @__PURE__ */ Object.freeze({
__proto__: null,
defaultErrorMap: errorMap,
setErrorMap,
getErrorMap,
makeIssue,
EMPTY_PATH,
addIssueToContext,
ParseStatus,
INVALID,
DIRTY,
OK,
isAborted,
isDirty,
isValid,
isAsync,
get util() {
return util;
},
get objectUtil() {
return objectUtil;
},
ZodParsedType,
getParsedType,
ZodType,
ZodString,
ZodNumber,
ZodBigInt,
ZodBoolean,
ZodDate,
ZodSymbol,
ZodUndefined,
ZodNull,
ZodAny,
ZodUnknown,
ZodNever,
ZodVoid,
ZodArray,
ZodObject,
ZodUnion,
ZodDiscriminatedUnion,
ZodIntersection,
ZodTuple,
ZodRecord,
ZodMap,
ZodSet,
ZodFunction,
ZodLazy,
ZodLiteral,
ZodEnum,
ZodNativeEnum,
ZodPromise,
ZodEffects,
ZodTransformer: ZodEffects,
ZodOptional,
ZodNullable,
ZodDefault,
ZodCatch,
ZodNaN,
BRAND,
ZodBranded,
ZodPipeline,
custom,
Schema: ZodType,
ZodSchema: ZodType,
late,
get ZodFirstPartyTypeKind() {
return ZodFirstPartyTypeKind;
},
coerce,
any: anyType,
array: arrayType,
bigint: bigIntType,
boolean: booleanType,
date: dateType,
discriminatedUnion: discriminatedUnionType,
effect: effectsType,
"enum": enumType,
"function": functionType,
"instanceof": instanceOfType,
intersection: intersectionType,
lazy: lazyType,
literal: literalType,
map: mapType,
nan: nanType,
nativeEnum: nativeEnumType,
never: neverType,
"null": nullType,
nullable: nullableType,
number: numberType,
object: objectType,
oboolean,
onumber,
optional: optionalType,
ostring,
pipeline: pipelineType,
preprocess: preprocessType,
promise: promiseType,
record: recordType,
set: setType,
strictObject: strictObjectType,
string: stringType,
symbol: symbolType,
transformer: effectsType,
tuple: tupleType,
"undefined": undefinedType,
union: unionType,
unknown: unknownType,
"void": voidType,
NEVER,
ZodIssueCode,
quotelessJson,
ZodError
});
// src/complete/completers/openai/openai.tsx
var model_settings_schema = z.object({
context_length: z.number().int().positive()
});
var parse_model_settings = (settings) => {
try {
return model_settings_schema.parse(JSON.parse(settings));
} catch (e) {
return {
context_length: 4e3
};
}
};
var OpenAIModel = class {
constructor(id, name, description, provider_settings) {
this.rate_limit_notice = null;
this.rate_limit_notice_timeout = null;
this.Settings = ({
settings,
saveSettings
}) => /* @__PURE__ */ import_react.default.createElement(
SettingsItem,
{
name: "Context length",
description: "In characters, how much context should the model get"
},
/* @__PURE__ */ import_react.default.createElement(
"input",
{
type: "number",
value: parse_model_settings(settings || "").context_length,
onChange: (e) => saveSettings(
JSON.stringify({
context_length: parseInt(e.target.value)
})
)
}
)
);
this.id = id;
this.name = name;
this.description = description;
this.provider_settings = parse_settings(provider_settings);
}
async complete(prompt, settings) {
const parsed_settings = parse_model_settings(settings);
const api = new openai_default({
apiKey: this.provider_settings.api_key,
dangerouslyAllowBrowser: true
});
try {
const response = await api.completions.create({
model: this.id,
prompt: prompt.prefix.slice(-parsed_settings.context_length),
max_tokens: 64
});
return response.choices[0].text || "";
} catch (e) {
this.parse_api_error(e);
throw e;
}
}
create_rate_limit_notice() {
if (this.rate_limit_notice) {
window.clearTimeout(this.rate_limit_notice_timeout);
this.rate_limit_notice_timeout = window.setTimeout(() => {
var _a3;
(_a3 = this.rate_limit_notice) == null ? void 0 : _a3.hide();
this.rate_limit_notice = null;
this.rate_limit_notice_timeout = null;
}, 5e3);
} else {
this.rate_limit_notice = new import_obsidian.Notice(
'Rate limit exceeded. Check the "Rate limits" section in the plugin settings for more information.',
25e4
);
this.rate_limit_notice_timeout = window.setTimeout(() => {
var _a3;
(_a3 = this.rate_limit_notice) == null ? void 0 : _a3.hide();
this.rate_limit_notice = null;
this.rate_limit_notice_timeout = null;
}, 5e3);
}
}
create_api_key_notice() {
const notice = new import_obsidian.Notice("", 5e3);
const notice_element = notice.noticeEl;
notice_element.createEl("span", {
text: "OpenAI API key is invalid. Please double-check your "
});
notice_element.createEl("a", {
text: "API key",
href: "https://platform.openai.com/account/api-keys"
});
notice_element.createEl("span", {
text: " in the plugin settings."
});
}
parse_api_error(e) {
if (e.status === 429) {
this.create_rate_limit_notice();
throw new Error();
} else if (e.status === 401) {
this.create_api_key_notice();
throw new Error();
}
throw e;
}
};
var OpenAIComplete = class {
constructor() {
this.id = "openai";
this.name = "OpenAI GPT3";
this.description = "OpenAI's GPT3 API";
this.Settings = SettingsUI;
}
async get_models(settings) {
return models_default.map(
(model) => new OpenAIModel(
model.id,
model.name,
model.description,
settings
)
);
}
};
// src/complete/completers/chatgpt/chatgpt.tsx
var import_obsidian2 = require("obsidian");
// src/complete/completers/chatgpt/provider_settings.tsx
var React4 = __toESM(require_react());
var settings_schema = z.object({
api_key: z.string()
});
var default_settings = {
api_key: ""
};
var parse_settings2 = (data) => {
if (data === null) {
return default_settings;
}
try {
const settings = JSON.parse(data);
return settings_schema.parse(settings);
} catch (e) {
return default_settings;
}
};
function SettingsUI2({
settings,
saveSettings
}) {
return /* @__PURE__ */ React4.createElement(
SettingsItem,
{
name: "API key",
description: /* @__PURE__ */ React4.createElement(React4.Fragment, null, "Your OpenAI", " ", /* @__PURE__ */ React4.createElement("a", { href: "https://platform.openai.com/account/api-keys" }, "API key"))
},
/* @__PURE__ */ React4.createElement(
"input",
{
type: "text",
value: parse_settings2(settings).api_key,
onChange: (e) => saveSettings(JSON.stringify({ api_key: e.target.value }))
}
)
);
}
// src/complete/completers/chatgpt/model_settings.tsx
var React5 = __toESM(require_react());
var settings_schema2 = z.object({
system_prompt: z.string(),
user_prompt: z.string(),
temperature: z.number().optional(),
top_p: z.number().optional(),
presence_penalty: z.number().optional(),
frequency_penalty: z.number().optional(),
prompt_length: z.number().optional()
});
var default_settings2 = {
system_prompt: "You are trying to give a long suggestion on how to complete the user's message. Complete in the language of the original message. Write only the completion and nothing else. Do not include the user's text in your message. Only include the completion.",
user_prompt: "Continue the following:\n\n{{prefix}}"
};
var parse_settings3 = (data) => {
if (data == null) {
return default_settings2;
}
try {
const settings = JSON.parse(data);
return settings_schema2.parse(settings);
} catch (e) {
return default_settings2;
}
};
function SettingsUI3({
settings,
saveSettings
}) {
const parsed_settings = parse_settings3(settings);
return /* @__PURE__ */ React5.createElement(React5.Fragment, null, /* @__PURE__ */ React5.createElement(SettingsItem, { name: "Rate limits" }), /* @__PURE__ */ React5.createElement("p", null, "If you're getting rate limit errors, I can't really help. OpenAI doesn't like you using their API too much. You can either", " ", /* @__PURE__ */ React5.createElement("a", { href: "https://platform.openai.com/account/billing/overview" }, "upgrade your plan"), " ", 'or set up a fallback preset. A fallback will be used while the plugin waits for the rate limit to reset; scroll down to the "Presets" section to set one up.'), /* @__PURE__ */ React5.createElement(SettingsItem, { name: "System prompt" }), /* @__PURE__ */ React5.createElement(
"textarea",
{
className: "ai-complete-chatgpt-full-width",
value: parsed_settings.system_prompt,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
system_prompt: e.target.value
})
)
}
), /* @__PURE__ */ React5.createElement(SettingsItem, { name: "User prompt" }), /* @__PURE__ */ React5.createElement(
"textarea",
{
className: "ai-complete-chatgpt-full-width",
value: parsed_settings.user_prompt,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
user_prompt: e.target.value
})
)
}
), /* @__PURE__ */ React5.createElement(SettingsItem, { name: "Temperature" }, /* @__PURE__ */ React5.createElement(
"input",
{
type: "number",
value: parsed_settings.temperature === void 0 ? "" : parsed_settings.temperature,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
temperature: parseFloat(e.target.value)
})
)
}
)), /* @__PURE__ */ React5.createElement(SettingsItem, { name: "Top P" }, /* @__PURE__ */ React5.createElement(
"input",
{
type: "number",
value: parsed_settings.top_p === void 0 ? "" : parsed_settings.top_p,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
top_p: parseFloat(e.target.value)
})
)
}
)), /* @__PURE__ */ React5.createElement(SettingsItem, { name: "Presence penalty" }, /* @__PURE__ */ React5.createElement(
"input",
{
type: "number",
value: parsed_settings.presence_penalty === void 0 ? "" : parsed_settings.presence_penalty,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
presence_penalty: parseFloat(e.target.value)
})
)
}
)), /* @__PURE__ */ React5.createElement(SettingsItem, { name: "Frequency penalty" }, /* @__PURE__ */ React5.createElement(
"input",
{
type: "number",
value: parsed_settings.frequency_penalty === void 0 ? "" : parsed_settings.frequency_penalty,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
frequency_penalty: parseFloat(e.target.value)
})
)
}
)), /* @__PURE__ */ React5.createElement(
SettingsItem,
{
name: "Prompt length",
description: /* @__PURE__ */ React5.createElement(React5.Fragment, null, "The length of both the prefix and the suffix of the prompt, in characters.")
},
/* @__PURE__ */ React5.createElement(
"input",
{
type: "number",
value: parsed_settings.prompt_length === void 0 ? "" : parsed_settings.prompt_length,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
prompt_length: parseInt(e.target.value)
})
)
}
)
));
}
// node_modules/mustache/mustache.mjs
var objectToString = Object.prototype.toString;
var isArray = Array.isArray || function isArrayPolyfill(object) {
return objectToString.call(object) === "[object Array]";
};
function isFunction(object) {
return typeof object === "function";
}
function typeStr(obj) {
return isArray(obj) ? "array" : typeof obj;
}
function escapeRegExp(string) {
return string.replace(/[\-\[\]{}()*+?.,\\\^$|#\s]/g, "\\$&");
}
function hasProperty(obj, propName) {
return obj != null && typeof obj === "object" && propName in obj;
}
function primitiveHasOwnProperty(primitive, propName) {
return primitive != null && typeof primitive !== "object" && primitive.hasOwnProperty && primitive.hasOwnProperty(propName);
}
var regExpTest = RegExp.prototype.test;
function testRegExp(re, string) {
return regExpTest.call(re, string);
}
var nonSpaceRe = /\S/;
function isWhitespace(string) {
return !testRegExp(nonSpaceRe, string);
}
var entityMap = {
"&": "&amp;",
"<": "&lt;",
">": "&gt;",
'"': "&quot;",
"'": "&#39;",
"/": "&#x2F;",
"`": "&#x60;",
"=": "&#x3D;"
};
function escapeHtml(string) {
return String(string).replace(/[&<>"'`=\/]/g, function fromEntityMap(s) {
return entityMap[s];
});
}
var whiteRe = /\s*/;
var spaceRe = /\s+/;
var equalsRe = /\s*=/;
var curlyRe = /\s*\}/;
var tagRe = /#|\^|\/|>|\{|&|=|!/;
function parseTemplate(template, tags) {
if (!template)
return [];
var lineHasNonSpace = false;
var sections = [];
var tokens = [];
var spaces = [];
var hasTag = false;
var nonSpace = false;
var indentation = "";
var tagIndex = 0;
function stripSpace() {
if (hasTag && !nonSpace) {
while (spaces.length)
delete tokens[spaces.pop()];
} else {
spaces = [];
}
hasTag = false;
nonSpace = false;
}
var openingTagRe, closingTagRe, closingCurlyRe;
function compileTags(tagsToCompile) {
if (typeof tagsToCompile === "string")
tagsToCompile = tagsToCompile.split(spaceRe, 2);
if (!isArray(tagsToCompile) || tagsToCompile.length !== 2)
throw new Error("Invalid tags: " + tagsToCompile);
openingTagRe = new RegExp(escapeRegExp(tagsToCompile[0]) + "\\s*");
closingTagRe = new RegExp("\\s*" + escapeRegExp(tagsToCompile[1]));
closingCurlyRe = new RegExp("\\s*" + escapeRegExp("}" + tagsToCompile[1]));
}
compileTags(tags || mustache.tags);
var scanner = new Scanner(template);
var start, type, value, chr, token, openSection;
while (!scanner.eos()) {
start = scanner.pos;
value = scanner.scanUntil(openingTagRe);
if (value) {
for (var i = 0, valueLength = value.length; i < valueLength; ++i) {
chr = value.charAt(i);
if (isWhitespace(chr)) {
spaces.push(tokens.length);
indentation += chr;
} else {
nonSpace = true;
lineHasNonSpace = true;
indentation += " ";
}
tokens.push(["text", chr, start, start + 1]);
start += 1;
if (chr === "\n") {
stripSpace();
indentation = "";
tagIndex = 0;
lineHasNonSpace = false;
}
}
}
if (!scanner.scan(openingTagRe))
break;
hasTag = true;
type = scanner.scan(tagRe) || "name";
scanner.scan(whiteRe);
if (type === "=") {
value = scanner.scanUntil(equalsRe);
scanner.scan(equalsRe);
scanner.scanUntil(closingTagRe);
} else if (type === "{") {
value = scanner.scanUntil(closingCurlyRe);
scanner.scan(curlyRe);
scanner.scanUntil(closingTagRe);
type = "&";
} else {
value = scanner.scanUntil(closingTagRe);
}
if (!scanner.scan(closingTagRe))
throw new Error("Unclosed tag at " + scanner.pos);
if (type == ">") {
token = [type, value, start, scanner.pos, indentation, tagIndex, lineHasNonSpace];
} else {
token = [type, value, start, scanner.pos];
}
tagIndex++;
tokens.push(token);
if (type === "#" || type === "^") {
sections.push(token);
} else if (type === "/") {
openSection = sections.pop();
if (!openSection)
throw new Error('Unopened section "' + value + '" at ' + start);
if (openSection[1] !== value)
throw new Error('Unclosed section "' + openSection[1] + '" at ' + start);
} else if (type === "name" || type === "{" || type === "&") {
nonSpace = true;
} else if (type === "=") {
compileTags(value);
}
}
stripSpace();
openSection = sections.pop();
if (openSection)
throw new Error('Unclosed section "' + openSection[1] + '" at ' + scanner.pos);
return nestTokens(squashTokens(tokens));
}
function squashTokens(tokens) {
var squashedTokens = [];
var token, lastToken;
for (var i = 0, numTokens = tokens.length; i < numTokens; ++i) {
token = tokens[i];
if (token) {
if (token[0] === "text" && lastToken && lastToken[0] === "text") {
lastToken[1] += token[1];
lastToken[3] = token[3];
} else {
squashedTokens.push(token);
lastToken = token;
}
}
}
return squashedTokens;
}
function nestTokens(tokens) {
var nestedTokens = [];
var collector = nestedTokens;
var sections = [];
var token, section;
for (var i = 0, numTokens = tokens.length; i < numTokens; ++i) {
token = tokens[i];
switch (token[0]) {
case "#":
case "^":
collector.push(token);
sections.push(token);
collector = token[4] = [];
break;
case "/":
section = sections.pop();
section[5] = token[2];
collector = sections.length > 0 ? sections[sections.length - 1][4] : nestedTokens;
break;
default:
collector.push(token);
}
}
return nestedTokens;
}
function Scanner(string) {
this.string = string;
this.tail = string;
this.pos = 0;
}
Scanner.prototype.eos = function eos() {
return this.tail === "";
};
Scanner.prototype.scan = function scan(re) {
var match = this.tail.match(re);
if (!match || match.index !== 0)
return "";
var string = match[0];
this.tail = this.tail.substring(string.length);
this.pos += string.length;
return string;
};
Scanner.prototype.scanUntil = function scanUntil(re) {
var index = this.tail.search(re), match;
switch (index) {
case -1:
match = this.tail;
this.tail = "";
break;
case 0:
match = "";
break;
default:
match = this.tail.substring(0, index);
this.tail = this.tail.substring(index);
}
this.pos += match.length;
return match;
};
function Context(view, parentContext) {
this.view = view;
this.cache = { ".": this.view };
this.parent = parentContext;
}
Context.prototype.push = function push(view) {
return new Context(view, this);
};
Context.prototype.lookup = function lookup(name) {
var cache = this.cache;
var value;
if (cache.hasOwnProperty(name)) {
value = cache[name];
} else {
var context = this, intermediateValue, names, index, lookupHit = false;
while (context) {
if (name.indexOf(".") > 0) {
intermediateValue = context.view;
names = name.split(".");
index = 0;
while (intermediateValue != null && index < names.length) {
if (index === names.length - 1)
lookupHit = hasProperty(intermediateValue, names[index]) || primitiveHasOwnProperty(intermediateValue, names[index]);
intermediateValue = intermediateValue[names[index++]];
}
} else {
intermediateValue = context.view[name];
lookupHit = hasProperty(context.view, name);
}
if (lookupHit) {
value = intermediateValue;
break;
}
context = context.parent;
}
cache[name] = value;
}
if (isFunction(value))
value = value.call(this.view);
return value;
};
function Writer() {
this.templateCache = {
_cache: {},
set: function set(key, value) {
this._cache[key] = value;
},
get: function get(key) {
return this._cache[key];
},
clear: function clear() {
this._cache = {};
}
};
}
Writer.prototype.clearCache = function clearCache() {
if (typeof this.templateCache !== "undefined") {
this.templateCache.clear();
}
};
Writer.prototype.parse = function parse(template, tags) {
var cache = this.templateCache;
var cacheKey = template + ":" + (tags || mustache.tags).join(":");
var isCacheEnabled = typeof cache !== "undefined";
var tokens = isCacheEnabled ? cache.get(cacheKey) : void 0;
if (tokens == void 0) {
tokens = parseTemplate(template, tags);
isCacheEnabled && cache.set(cacheKey, tokens);
}
return tokens;
};
Writer.prototype.render = function render(template, view, partials, config) {
var tags = this.getConfigTags(config);
var tokens = this.parse(template, tags);
var context = view instanceof Context ? view : new Context(view, void 0);
return this.renderTokens(tokens, context, partials, template, config);
};
Writer.prototype.renderTokens = function renderTokens(tokens, context, partials, originalTemplate, config) {
var buffer = "";
var token, symbol, value;
for (var i = 0, numTokens = tokens.length; i < numTokens; ++i) {
value = void 0;
token = tokens[i];
symbol = token[0];
if (symbol === "#")
value = this.renderSection(token, context, partials, originalTemplate, config);
else if (symbol === "^")
value = this.renderInverted(token, context, partials, originalTemplate, config);
else if (symbol === ">")
value = this.renderPartial(token, context, partials, config);
else if (symbol === "&")
value = this.unescapedValue(token, context);
else if (symbol === "name")
value = this.escapedValue(token, context, config);
else if (symbol === "text")
value = this.rawValue(token);
if (value !== void 0)
buffer += value;
}
return buffer;
};
Writer.prototype.renderSection = function renderSection(token, context, partials, originalTemplate, config) {
var self = this;
var buffer = "";
var value = context.lookup(token[1]);
function subRender(template) {
return self.render(template, context, partials, config);
}
if (!value)
return;
if (isArray(value)) {
for (var j = 0, valueLength = value.length; j < valueLength; ++j) {
buffer += this.renderTokens(token[4], context.push(value[j]), partials, originalTemplate, config);
}
} else if (typeof value === "object" || typeof value === "string" || typeof value === "number") {
buffer += this.renderTokens(token[4], context.push(value), partials, originalTemplate, config);
} else if (isFunction(value)) {
if (typeof originalTemplate !== "string")
throw new Error("Cannot use higher-order sections without the original template");
value = value.call(context.view, originalTemplate.slice(token[3], token[5]), subRender);
if (value != null)
buffer += value;
} else {
buffer += this.renderTokens(token[4], context, partials, originalTemplate, config);
}
return buffer;
};
Writer.prototype.renderInverted = function renderInverted(token, context, partials, originalTemplate, config) {
var value = context.lookup(token[1]);
if (!value || isArray(value) && value.length === 0)
return this.renderTokens(token[4], context, partials, originalTemplate, config);
};
Writer.prototype.indentPartial = function indentPartial(partial, indentation, lineHasNonSpace) {
var filteredIndentation = indentation.replace(/[^ \t]/g, "");
var partialByNl = partial.split("\n");
for (var i = 0; i < partialByNl.length; i++) {
if (partialByNl[i].length && (i > 0 || !lineHasNonSpace)) {
partialByNl[i] = filteredIndentation + partialByNl[i];
}
}
return partialByNl.join("\n");
};
Writer.prototype.renderPartial = function renderPartial(token, context, partials, config) {
if (!partials)
return;
var tags = this.getConfigTags(config);
var value = isFunction(partials) ? partials(token[1]) : partials[token[1]];
if (value != null) {
var lineHasNonSpace = token[6];
var tagIndex = token[5];
var indentation = token[4];
var indentedValue = value;
if (tagIndex == 0 && indentation) {
indentedValue = this.indentPartial(value, indentation, lineHasNonSpace);
}
var tokens = this.parse(indentedValue, tags);
return this.renderTokens(tokens, context, partials, indentedValue, config);
}
};
Writer.prototype.unescapedValue = function unescapedValue(token, context) {
var value = context.lookup(token[1]);
if (value != null)
return value;
};
Writer.prototype.escapedValue = function escapedValue(token, context, config) {
var escape = this.getConfigEscape(config) || mustache.escape;
var value = context.lookup(token[1]);
if (value != null)
return typeof value === "number" && escape === mustache.escape ? String(value) : escape(value);
};
Writer.prototype.rawValue = function rawValue(token) {
return token[1];
};
Writer.prototype.getConfigTags = function getConfigTags(config) {
if (isArray(config)) {
return config;
} else if (config && typeof config === "object") {
return config.tags;
} else {
return void 0;
}
};
Writer.prototype.getConfigEscape = function getConfigEscape(config) {
if (config && typeof config === "object" && !isArray(config)) {
return config.escape;
} else {
return void 0;
}
};
var mustache = {
name: "mustache.js",
version: "4.2.0",
tags: ["{{", "}}"],
clearCache: void 0,
escape: void 0,
parse: void 0,
render: void 0,
Scanner: void 0,
Context: void 0,
Writer: void 0,
/**
* Allows a user to override the default caching strategy, by providing an
* object with set, get and clear methods. This can also be used to disable
* the cache by setting it to the literal `undefined`.
*/
set templateCache(cache) {
defaultWriter.templateCache = cache;
},
/**
* Gets the default or overridden caching object from the default writer.
*/
get templateCache() {
return defaultWriter.templateCache;
}
};
var defaultWriter = new Writer();
mustache.clearCache = function clearCache2() {
return defaultWriter.clearCache();
};
mustache.parse = function parse2(template, tags) {
return defaultWriter.parse(template, tags);
};
mustache.render = function render2(template, view, partials, config) {
if (typeof template !== "string") {
throw new TypeError('Invalid template! Template should be a "string" but "' + typeStr(template) + '" was given as the first argument for mustache#render(template, view, partials)');
}
return defaultWriter.render(template, view, partials, config);
};
mustache.escape = escapeHtml;
mustache.Scanner = Scanner;
mustache.Context = Context;
mustache.Writer = Writer;
var mustache_default = mustache;
// src/complete/completers/chatgpt/chatgpt.tsx
var ChatGPT = class {
constructor(provider_settings, id, name, description) {
this.rate_limit_notice = null;
this.rate_limit_notice_timeout = null;
this.Settings = SettingsUI3;
this.id = id;
this.name = name;
this.description = description;
this.provider_settings = parse_settings2(provider_settings);
}
async prepare(prompt, settings) {
return {
prefix: prompt.prefix.slice(-(settings.prompt_length || 6e3)),
suffix: prompt.suffix.slice(0, settings.prompt_length || 6e3)
};
}
async generate_messages(prompt, model_settings) {
return [
{
role: "system",
content: model_settings.system_prompt
},
{
role: "user",
content: mustache_default.render(
model_settings.user_prompt,
await this.prepare(prompt, model_settings)
)
}
];
}
model_parameters(model_settings) {
return {
presence_penalty: model_settings.presence_penalty,
frequency_penalty: model_settings.frequency_penalty,
top_p: model_settings.top_p,
temperature: model_settings.temperature
};
}
create_rate_limit_notice() {
if (this.rate_limit_notice) {
window.clearTimeout(this.rate_limit_notice_timeout);
this.rate_limit_notice_timeout = window.setTimeout(() => {
var _a3;
(_a3 = this.rate_limit_notice) == null ? void 0 : _a3.hide();
this.rate_limit_notice = null;
this.rate_limit_notice_timeout = null;
}, 5e3);
} else {
this.rate_limit_notice = new import_obsidian2.Notice(
'Rate limit exceeded. Check the "Rate limits" section in the plugin settings for more information.',
25e4
);
this.rate_limit_notice_timeout = window.setTimeout(() => {
var _a3;
(_a3 = this.rate_limit_notice) == null ? void 0 : _a3.hide();
this.rate_limit_notice = null;
this.rate_limit_notice_timeout = null;
}, 5e3);
}
}
create_api_key_notice() {
const notice = new import_obsidian2.Notice("", 5e3);
const notice_element = notice.noticeEl;
notice_element.createEl("span", {
text: "OpenAI API key is invalid. Please double-check your "
});
notice_element.createEl("a", {
text: "API key",
href: "https://platform.openai.com/account/api-keys"
});
notice_element.createEl("span", {
text: " in the plugin settings."
});
}
parse_api_error(e) {
if (e.status === 429) {
this.create_rate_limit_notice();
throw new Error();
} else if (e.status === 401) {
this.create_api_key_notice();
throw new Error();
}
throw e;
}
get_api() {
return new openai_default({
apiKey: this.provider_settings.api_key,
dangerouslyAllowBrowser: true
});
}
async complete(prompt, settings) {
var _a3;
const model_settings = parse_settings3(settings);
try {
const response = await this.get_api().chat.completions.create({
...this.model_parameters(model_settings),
messages: await this.generate_messages(prompt, model_settings),
model: this.id,
max_tokens: 64
});
return this.interpret(
prompt,
((_a3 = response.choices[0]) == null ? void 0 : _a3.message.content) || ""
);
} catch (e) {
this.parse_api_error(e);
throw e;
}
}
async *iterate(prompt, settings) {
var _a3, _b;
const model_settings = parse_settings3(settings);
try {
const completion = await this.get_api().chat.completions.create({
...this.model_parameters(model_settings),
messages: await this.generate_messages(prompt, model_settings),
model: this.id,
max_tokens: 64,
stream: true
});
let initialized = false;
for await (const chunk of completion) {
const token = ((_b = (_a3 = chunk.choices[0]) == null ? void 0 : _a3.delta) == null ? void 0 : _b.content) || "";
if (!initialized) {
yield this.interpret(prompt, token);
initialized = true;
} else {
yield token;
}
}
} catch (e) {
this.parse_api_error(e);
throw e;
}
}
interpret(prompt, completion) {
const response_punctuation = " \n.,?!:;";
const prompt_punctuation = " \n";
if (prompt.prefix.length !== 0 && !prompt_punctuation.includes(
prompt.prefix[prompt.prefix.length - 1]
) && !response_punctuation.includes(completion[0])) {
completion = " " + completion;
}
return completion;
}
};
var ChatGPTComplete = class {
constructor() {
this.id = "openai-chatgpt";
this.name = "OpenAI ChatGPT";
this.description = "OpenAI's ChatGPT model";
this.Settings = SettingsUI2;
}
async get_models(settings) {
return [
new ChatGPT(
settings,
"gpt-3.5-turbo-1106",
"GPT 3.5 Turbo preview (recommended)",
"OpenAI's ChatGPT model, with a longer context window"
),
new ChatGPT(
settings,
"gpt-3.5-turbo",
"GPT 3.5 Turbo (old)",
"OpenAI's ChatGPT model"
),
new ChatGPT(
settings,
"gpt-4-1106-preview",
"GPT 4 Turbo",
"OpenAI's GPT-4 model, with a longer context window"
),
new ChatGPT(settings, "gpt-4", "GPT 4", "OpenAI's GPT-4 model")
];
}
};
// src/complete/completers/ai21/models.json
var models_default2 = [
{
id: "large",
name: "J2-Large",
description: "Designed for fast responses."
},
{
id: "grande",
name: "J2-Grande",
description: "Offers enhanced text generation capabilities, making it well-suited to language tasks with a greater degree of complexity."
},
{
id: "jumbo",
name: "J2-Jumbo",
description: "As the largest and most powerful model in the Jurassic series, J2-Jumbo is an ideal choice for the most complex language processing tasks and generative text applications."
}
];
// src/complete/completers/ai21/provider_settings.tsx
var React6 = __toESM(require_react());
var import_react2 = __toESM(require_react());
var parse_settings4 = (data) => {
if (data === null) {
return { api_key: "", generation_settings: {} };
}
try {
const settings = JSON.parse(data);
if (typeof settings.api_key !== "string") {
return { api_key: "", generation_settings: {} };
}
return settings;
} catch (e) {
return { api_key: "", generation_settings: {} };
}
};
function GenerationSettingsItem({
id,
description,
settings,
saveSettings,
parseFn = parseInt
}) {
var _a3;
const parsed_settings = parse_settings4(settings);
return /* @__PURE__ */ React6.createElement(SettingsItem, { name: id, description }, /* @__PURE__ */ React6.createElement(
"input",
{
type: "number",
value: (_a3 = parsed_settings.generation_settings) == null ? void 0 : _a3[id],
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
generation_settings: isNaN(parseFn(e.target.value)) ? (({ [id]: _2, ...rest }) => rest)(
parsed_settings.generation_settings
) : {
...parsed_settings.generation_settings,
[id]: parseFn(e.target.value)
}
})
)
}
));
}
function PenaltySettingsBooleanItem({
id,
item,
description,
settings,
saveSettings
}) {
var _a3, _b;
const parsed_settings = parse_settings4(settings);
let state = (_b = (_a3 = parsed_settings.generation_settings) == null ? void 0 : _a3[id]) == null ? void 0 : _b[item];
if (typeof state !== "boolean") {
state = true;
}
return /* @__PURE__ */ React6.createElement(SettingsItem, { name: item, description }, /* @__PURE__ */ React6.createElement(
"div",
{
className: "checkbox-container" + (state ? " is-enabled" : ""),
onClick: (_e) => {
var _a4;
return saveSettings(
JSON.stringify({
...parsed_settings,
generation_settings: parsed_settings.generation_settings && {
...parsed_settings.generation_settings,
[id]: {
...(_a4 = parsed_settings.generation_settings) == null ? void 0 : _a4[id],
[item]: !state
}
}
})
);
}
}
));
}
function PenaltySettings({
id,
default_scale,
settings,
saveSettings
}) {
var _a3, _b, _c, _d;
const [expanded, setExpanded] = (0, import_react2.useState)(false);
const parsed_settings = parse_settings4(settings);
return /* @__PURE__ */ React6.createElement(React6.Fragment, null, /* @__PURE__ */ React6.createElement(
SettingsItem,
{
name: /* @__PURE__ */ React6.createElement(
"span",
{
className: "ai-complete-jurassic-expandable",
onClick: () => setExpanded(!expanded)
},
/* @__PURE__ */ React6.createElement("span", null, expanded ? "\u25BE" : "\u25B8"),
/* @__PURE__ */ React6.createElement("span", null, id)
)
}
), expanded && /* @__PURE__ */ React6.createElement(React6.Fragment, null, /* @__PURE__ */ React6.createElement(
SettingsItem,
{
name: "scale",
description: `Controls the magnitude of the penalty. 1 <= int <= 500. Default: ${default_scale}`
},
/* @__PURE__ */ React6.createElement(
"input",
{
type: "number",
value: (_b = (_a3 = parsed_settings.generation_settings) == null ? void 0 : _a3[id]) == null ? void 0 : _b.scale,
onChange: (e) => {
var _a4;
saveSettings(
JSON.stringify({
...parsed_settings,
generation_settings: typeof parseInt(e.target.value) === "number" && !isNaN(parseInt(e.target.value)) ? {
...parsed_settings.generation_settings,
[id]: {
...(_a4 = parsed_settings.generation_settings) == null ? void 0 : _a4[id],
scale: parseInt(
e.target.value
)
}
} : (({ [id]: _2, ...rest }) => rest)(
parsed_settings.generation_settings
)
})
);
}
}
)
), typeof ((_d = (_c = parsed_settings.generation_settings) == null ? void 0 : _c[id]) == null ? void 0 : _d.scale) === "number" && /* @__PURE__ */ React6.createElement(React6.Fragment, null, /* @__PURE__ */ React6.createElement(
PenaltySettingsBooleanItem,
{
id,
item: "applyToWhitespaces",
description: "Apply the penalty to whitespaces and newlines. Optional, default=true",
settings,
saveSettings
}
), /* @__PURE__ */ React6.createElement(
PenaltySettingsBooleanItem,
{
id,
item: "applyToPunctuations",
description: "Apply the penalty to punctuations. Optional, default=true",
settings,
saveSettings
}
), /* @__PURE__ */ React6.createElement(
PenaltySettingsBooleanItem,
{
id,
item: "applyToNumbers",
description: "Apply the penalty to numbers. Optional, default=true",
settings,
saveSettings
}
), /* @__PURE__ */ React6.createElement(
PenaltySettingsBooleanItem,
{
id,
item: "applyToStopwords",
description: "Apply the penalty to stop words. Optional, default=true ",
settings,
saveSettings
}
), /* @__PURE__ */ React6.createElement(
PenaltySettingsBooleanItem,
{
id,
item: "applyToEmojis",
description: "Exclude emojis from the penalty. Optional, default=true ",
settings,
saveSettings
}
))));
}
function SettingsUI4({
settings,
saveSettings
}) {
const [expanded, setExpanded] = (0, import_react2.useState)(false);
return /* @__PURE__ */ React6.createElement(React6.Fragment, null, /* @__PURE__ */ React6.createElement(
SettingsItem,
{
name: "API key",
description: /* @__PURE__ */ React6.createElement(React6.Fragment, null, "Your AI21", " ", /* @__PURE__ */ React6.createElement("a", { href: "https://studio.ai21.com/account" }, "API key"))
},
/* @__PURE__ */ React6.createElement(
"input",
{
type: "text",
value: parse_settings4(settings).api_key,
onChange: (e) => saveSettings(
JSON.stringify({ api_key: e.target.value })
)
}
)
), /* @__PURE__ */ React6.createElement(
SettingsItem,
{
name: /* @__PURE__ */ React6.createElement(
"span",
{
className: "ai-complete-jurassic-expandable",
onClick: () => setExpanded(!expanded)
},
/* @__PURE__ */ React6.createElement("span", null, expanded ? "\u25BE" : "\u25B8"),
/* @__PURE__ */ React6.createElement("span", null, "Advanced")
),
description: /* @__PURE__ */ React6.createElement(React6.Fragment, null, "You can learn more", " ", /* @__PURE__ */ React6.createElement("a", { href: "https://docs.ai21.com/reference/j2-complete-ref" }, "here"))
}
), expanded && /* @__PURE__ */ React6.createElement(React6.Fragment, null, /* @__PURE__ */ React6.createElement(
GenerationSettingsItem,
{
id: "maxTokens",
description: "The maximum number of tokens to generate per result. Optional, default = 16",
settings,
saveSettings
}
), /* @__PURE__ */ React6.createElement(
GenerationSettingsItem,
{
id: "minTokens",
description: "The minimum number of tokens to generate per result. Optional, default = 0",
settings,
saveSettings
}
), /* @__PURE__ */ React6.createElement(
GenerationSettingsItem,
{
id: "temperature",
description: "Modifies the distribution from which tokens are sampled. Optional, default = 0.7\n Setting temperature to 1.0 samples directly from the model distribution. Lower (higher) values increase the chance of sampling higher (lower) probability tokens. A value of 0 essentially disables sampling and results in greedy decoding, where the most likely token is chosen at every step.",
settings,
saveSettings,
parseFn: parseFloat
}
), /* @__PURE__ */ React6.createElement(
GenerationSettingsItem,
{
id: "topP",
description: "Sample tokens from the corresponding top percentile of probability mass. Optional, default = 1\n For example, a value of 0.9 will only consider tokens comprising the top 90% probability mass.",
settings,
saveSettings,
parseFn: parseFloat
}
), /* @__PURE__ */ React6.createElement(
PenaltySettings,
{
id: "frequencyPenalty",
settings,
saveSettings,
default_scale: 1
}
), /* @__PURE__ */ React6.createElement(
PenaltySettings,
{
id: "presencePenalty",
settings,
saveSettings,
default_scale: 0
}
), /* @__PURE__ */ React6.createElement(
PenaltySettings,
{
id: "countPenalty",
settings,
saveSettings,
default_scale: 0
}
)));
}
// src/complete/completers/ai21/ai21.ts
var J2Model = class {
constructor(id, name, description, provider_settings) {
this.id = id;
this.name = name;
this.description = description;
this.provider_settings = parse_settings4(provider_settings);
}
async complete(prompt) {
if (this.provider_settings.api_key === "") {
throw new Error("API Key not set");
}
const response = await fetch(
`https://api.ai21.com/studio/v1/j2-${this.id}/complete`,
{
method: "POST",
headers: {
"Content-Type": "application/json",
Authorization: `Bearer ${this.provider_settings.api_key}`
},
body: JSON.stringify({
prompt: prompt.prefix,
numResults: 1,
...this.provider_settings.generation_settings
})
}
);
if (!response.ok) {
throw new Error(
`Jurassic-j2 API returned ${response.status} ${(await response.json()).detail}`
);
}
const data = await response.json();
return data.completions[0].data.text;
}
};
var JurassicJ2Complete = class {
constructor() {
this.id = "jurassic";
this.name = "AI21 Jurassic";
this.description = "AI21's Jurassic-j2 models";
this.Settings = SettingsUI4;
}
async get_models(settings) {
return models_default2.map(
(model) => new J2Model(model.id, model.name, model.description, settings)
);
}
};
// src/complete/completers/gooseai/gooseai.tsx
var import_react3 = __toESM(require_react());
// src/complete/completers/gooseai/provider_settings.tsx
var React7 = __toESM(require_react());
var parse_settings5 = (data) => {
if (data === null) {
return { api_key: "" };
}
try {
const settings = JSON.parse(data);
if (typeof settings.api_key !== "string") {
return { api_key: "" };
}
return settings;
} catch (e) {
return { api_key: "" };
}
};
function SettingsUI5({
settings,
saveSettings
}) {
return /* @__PURE__ */ React7.createElement(React7.Fragment, null, /* @__PURE__ */ React7.createElement(
SettingsItem,
{
name: "API key",
description: /* @__PURE__ */ React7.createElement(React7.Fragment, null, "Your", " ", /* @__PURE__ */ React7.createElement("a", { href: "https://goose.ai/dashboard/apikeys" }, "goose.ai API key"))
},
/* @__PURE__ */ React7.createElement(
"input",
{
type: "text",
value: parse_settings5(settings).api_key,
onChange: (e) => saveSettings(
JSON.stringify({
api_key: e.target.value,
context_length: parse_settings5(settings).context_length
})
)
}
)
), /* @__PURE__ */ React7.createElement(
SettingsItem,
{
name: "Context length",
description: "How much information to give the model (in characters)"
},
/* @__PURE__ */ React7.createElement(
"input",
{
type: "number",
value: parse_settings5(settings).context_length,
onChange: (e) => saveSettings(
JSON.stringify({
api_key: parse_settings5(settings).api_key,
context_length: parseInt(e.target.value)
})
)
}
)
));
}
// src/complete/completers/gooseai/gooseai.tsx
var OpenAIModel2 = class {
constructor(id, name, description, provider_settings) {
this.id = id;
this.name = name;
this.description = description;
this.provider_settings = parse_settings5(provider_settings);
}
async complete(prompt) {
const response = await fetch(
`https://api.goose.ai/v1/engines/${this.id}/completions`,
{
method: "POST",
headers: {
Authorization: `Bearer ${this.provider_settings.api_key}`,
"Content-Type": "application/json"
},
body: JSON.stringify({
prompt: prompt.prefix.slice(
-(this.provider_settings.context_length || 2048)
)
})
}
).then((res) => res.json());
return response.choices[0].text || "";
}
};
var GooseAIComplete = class {
constructor() {
this.id = "gooseai";
this.name = "GooseAI";
this.description = /* @__PURE__ */ import_react3.default.createElement(import_react3.default.Fragment, null, /* @__PURE__ */ import_react3.default.createElement("a", { href: "https://goose.ai" }, "GooseAI"), " - a fully managed NLP-as-a-Service, delivered via API. It is comparable to OpenAI in this regard.");
this.Settings = SettingsUI5;
}
async get_models(settings) {
const settings_obj = parse_settings5(settings);
const engines = await fetch("https://api.goose.ai/v1/engines", {
method: "GET",
headers: {
Authorization: `Bearer ${settings_obj.api_key}`
}
}).then((res) => res.json());
return engines.data.map(
(model) => new OpenAIModel2(
model.id,
model.name,
model.description,
settings
)
);
}
};
// src/complete/completers/oobabooga/oobabooga.tsx
var import_react4 = __toESM(require_react());
// src/complete/completers/oobabooga/provider_settings.tsx
var React9 = __toESM(require_react());
var default_settings3 = {
host_url: "http://localhost:5000"
};
var parse_settings6 = (data) => {
if (data === null) {
return default_settings3;
}
try {
const settings = JSON.parse(data);
if (typeof settings.host_url !== "string") {
return default_settings3;
}
return settings;
} catch (e) {
return default_settings3;
}
};
function SettingsUI6({
settings,
saveSettings
}) {
return /* @__PURE__ */ React9.createElement(
SettingsItem,
{
name: "API URL",
description: /* @__PURE__ */ React9.createElement(React9.Fragment, null, "Your", " ", /* @__PURE__ */ React9.createElement("a", { href: "https://github.com/oobabooga/text-generation-webui-with-cors" }, "oobabooga"), " ", "api host URL. Make sure you're running it in text completion (not chat) mode.")
},
/* @__PURE__ */ React9.createElement(
"input",
{
type: "text",
value: parse_settings6(settings).host_url,
onChange: (e) => saveSettings(JSON.stringify({ host_url: e.target.value }))
}
)
);
}
// src/complete/completers/oobabooga/oobabooga.tsx
var model_settings_schema2 = z.object({
context_length: z.number().int().nonnegative(),
max_new_tokens: z.number().int().nonnegative().optional(),
temperature: z.number().nonnegative().optional(),
top_p: z.number().nonnegative().optional(),
typical_p: z.number().nonnegative().optional(),
top_k: z.number().int().nonnegative().optional(),
min_length: z.number().int().nonnegative().optional(),
penalty_alpha: z.number().nonnegative().optional(),
repetition_penalty: z.number().nonnegative().optional(),
length_penalty: z.number().nonnegative().optional(),
no_repeat_ngram_size: z.number().int().nonnegative().optional()
});
var default_model_settings = {
context_length: 4e3,
max_new_tokens: 120,
temperature: 0.3,
top_p: 1,
typical_p: 1,
top_k: 0,
min_length: 0,
penalty_alpha: 0,
repetition_penalty: 1.18,
length_penalty: 1,
no_repeat_ngram_size: 0
};
var model_settings_fields = [
{
name: "Context length",
description: "In characters, how much context should the model get",
field_name: "context_length"
},
{
name: "Max new tokens",
description: "In tokens, how many tokens should the model generate",
field_name: "max_new_tokens"
},
{
name: "Temperature",
description: "How creative should the model be",
field_name: "temperature"
},
{
name: "Top p",
description: "What percentage of tokens should be considered",
field_name: "top_p"
},
{
name: "Typical p",
description: "Cumulative probability of considered tokens",
field_name: "typical_p"
},
{
name: "Top k",
description: "How many tokens should be considered (0 = all)",
field_name: "top_k"
},
{
name: "Min length",
description: "Minimum length of generated text (in tokens)",
field_name: "min_length"
},
{
name: "Penalty alpha",
description: "Penalty alpha",
field_name: "penalty_alpha"
},
{
name: "Repetition penalty",
description: "How much should the model avoid repeating itself",
field_name: "repetition_penalty"
},
{
name: "Length penalty",
description: "How much should the model avoid short outputs",
field_name: "length_penalty"
},
{
name: "No repeat ngram size",
description: "How long are the sequences that should be kept unique",
field_name: "no_repeat_ngram_size"
}
];
var parse_model_settings2 = (settings) => {
try {
return model_settings_schema2.parse(JSON.parse(settings));
} catch (e) {
return { context_length: 4e3 };
}
};
var model_list_response_schema = z.object({
result: z.array(z.string())
});
var model_response_schema = z.object({
result: z.optional(z.string())
});
var OobaboogaModel = class {
constructor(id, provider_settings) {
this.Settings = ({
settings,
saveSettings
}) => {
const parsed_settings = parse_model_settings2(settings || "");
return /* @__PURE__ */ import_react4.default.createElement(import_react4.default.Fragment, null, model_settings_fields.map((property) => {
var _a3;
return /* @__PURE__ */ import_react4.default.createElement(
SettingsItem,
{
name: property.name,
description: property.description
},
/* @__PURE__ */ import_react4.default.createElement(
"input",
{
type: "number",
value: parsed_settings[property.field_name],
placeholder: (_a3 = default_model_settings[property.field_name]) == null ? void 0 : _a3.toString(),
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
[property.field_name]: parseFloat(
e.target.value
)
})
)
}
)
);
}));
};
this.id = id;
this.name = id;
this.description = `Oobabooga ${id} model`;
this.provider_settings = parse_settings6(provider_settings);
}
async set_model() {
await fetch(`${this.provider_settings.host_url}/api/v1/model`, {
method: "POST",
headers: {
"Content-Type": "application/json"
},
body: JSON.stringify({
action: "load",
model_name: this.id
})
}).then((res) => res.json());
}
async get_current_model() {
const currently_enabled_model = await fetch(
`${this.provider_settings.host_url}/api/v1/model`,
{
method: "GET",
headers: {
"Content-Type": "application/json",
"Cache-Control": "no-cache"
}
}
).then((res) => res.json());
return model_response_schema.parse(currently_enabled_model).result;
}
async load() {
const currently_enabled_model = await this.get_current_model();
if (currently_enabled_model !== this.id) {
await this.set_model();
}
}
async create_completion(request) {
try {
const response = await fetch(
`${this.provider_settings.host_url}/api/v1/generate`,
{
method: "POST",
headers: {
"Content-Type": "application/json"
},
body: JSON.stringify(request)
}
).then((res) => res.json());
return response;
} catch (error) {
throw new Error(`Request failed: ${error.message}`);
}
}
async complete(prompt, settings) {
const parsed_settings = parse_model_settings2(settings);
const { context_length, ...model_params } = parsed_settings;
const response = await this.create_completion({
...model_params,
prompt: prompt.prefix.slice(-context_length),
do_sample: true,
num_beams: 1,
early_stopping: false,
seed: -1,
add_bos_token: true,
ban_eos_token: false,
skip_special_tokens: true,
stopping_strings: []
});
return response.results[0].text || "";
}
};
var OobaboogaComplete = class {
constructor() {
this.id = "oobabooga";
this.name = "Oobabooga";
this.description = "Oobabooga text generation webui";
this.Settings = SettingsUI6;
}
async get_models(settings) {
const models = await fetch(
`${parse_settings6(settings).host_url}/api/v1/model`,
{
method: "POST",
headers: {
"Content-Type": "application/json"
},
body: JSON.stringify({ action: "list" })
}
).then((res) => res.json());
return model_list_response_schema.parse(models).result.map((model) => new OobaboogaModel(model, settings));
}
};
// src/complete/completers/ollama/ollama.tsx
var import_obsidian3 = require("obsidian");
// src/complete/completers/ollama/provider_settings.tsx
var React11 = __toESM(require_react());
var settings_schema3 = z.object({
endpoint: z.string()
});
var default_settings4 = {
endpoint: "http://localhost:11434"
};
var parse_settings7 = (data) => {
if (data === null) {
return default_settings4;
}
try {
const settings = JSON.parse(data);
return settings_schema3.parse(settings);
} catch (e) {
return default_settings4;
}
};
function SettingsUI7({
settings,
saveSettings
}) {
return /* @__PURE__ */ React11.createElement(
SettingsItem,
{
name: "API route",
description: /* @__PURE__ */ React11.createElement(React11.Fragment, null, "Your ollama service should be running at this endpoint. Default is localhost.")
},
/* @__PURE__ */ React11.createElement(
"input",
{
type: "text",
value: parse_settings7(settings).endpoint,
onChange: (e) => saveSettings(JSON.stringify({ endpoint: e.target.value }))
}
)
);
}
// src/complete/completers/ollama/model_settings.tsx
var React12 = __toESM(require_react());
var settings_schema4 = z.object({
system_prompt: z.string(),
user_prompt: z.string(),
temperature: z.number().optional(),
prompt_length: z.number().optional()
});
var default_settings5 = {
system_prompt: "",
user_prompt: '{{#context}}Context:\n\n{{context}}\n\n=================================\n{{/context}}Do not start with "...". Continue the following paragraph:\n\n{{last_line}}'
};
var parse_settings8 = (data) => {
if (data == null) {
return default_settings5;
}
try {
const settings = JSON.parse(data);
return settings_schema4.parse(settings);
} catch (e) {
return default_settings5;
}
};
function SettingsUI8({
settings,
saveSettings
}) {
const parsed_settings = parse_settings8(settings);
return /* @__PURE__ */ React12.createElement(React12.Fragment, null, /* @__PURE__ */ React12.createElement(SettingsItem, { name: "System prompt" }), /* @__PURE__ */ React12.createElement(
"textarea",
{
className: "ai-complete-ollama-full-width",
value: parsed_settings.system_prompt,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
system_prompt: e.target.value
})
)
}
), /* @__PURE__ */ React12.createElement(SettingsItem, { name: "User prompt" }), /* @__PURE__ */ React12.createElement(
"textarea",
{
className: "ai-complete-ollama-full-width",
value: parsed_settings.user_prompt,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
user_prompt: e.target.value
})
)
}
), /* @__PURE__ */ React12.createElement(SettingsItem, { name: "Temperature" }, /* @__PURE__ */ React12.createElement(
"input",
{
type: "number",
value: parsed_settings.temperature === void 0 ? "" : parsed_settings.temperature,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
temperature: parseFloat(e.target.value)
})
)
}
)));
}
// src/complete/completers/ollama/ollama.tsx
var OllamaModel = class {
constructor(provider_settings, id, name, description) {
this.rate_limit_notice = null;
this.rate_limit_notice_timeout = null;
this.Settings = SettingsUI8;
this.id = id;
this.name = name;
this.description = description;
this.provider_settings = parse_settings7(provider_settings);
this.cancel_generations = [];
}
async prepare(prompt, settings) {
const cropped = {
prefix: prompt.prefix.slice(-(settings.prompt_length || 6e3)),
suffix: prompt.suffix.slice(0, settings.prompt_length || 6e3)
};
const last_line = cropped.prefix.split("\n").filter((x2) => x2.length > 0).pop();
return {
...cropped,
last_line: last_line || "",
context: cropped.prefix.split("\n").filter((x2) => x2 !== last_line).join("\n")
};
}
async complete(prompt, settings) {
const model_settings = parse_settings8(settings);
const response = await (0, import_obsidian3.requestUrl)({
url: this.provider_settings.endpoint + "/api/generate",
method: "POST",
headers: {
"Content-Type": "application/json"
},
body: JSON.stringify({
prompt: mustache_default.render(
model_settings.user_prompt,
await this.prepare(prompt, model_settings)
),
system: model_settings.system_prompt,
model: this.id,
stream: false,
options: {
temp: model_settings.temperature
}
}),
throw: true
});
return this.interpret(prompt, (await response.json).response);
}
async *iterate(prompt, settings) {
try {
const model_settings = parse_settings8(settings);
for (const cancel_generation of this.cancel_generations) {
cancel_generation();
}
const textGenerator = {
state: "",
next: async () => {
if (textGenerator.state.length === 0) {
await new Promise((resolve) => {
textGenerator.registerItem = () => {
textGenerator.registerItem = null;
resolve(null);
};
});
}
const state = textGenerator.state;
const index = state.indexOf("\n");
const part = state.slice(0, index);
textGenerator.state = state.slice(index + 1);
return JSON.parse(part).response;
},
registerItem: null
};
const { remote } = require("electron");
const request = remote.net.request({
url: this.provider_settings.endpoint + "/api/generate",
method: "POST",
headers: {
"Content-Type": "application/json"
}
});
const prompt_data = await this.prepare(prompt, model_settings);
const body = JSON.stringify({
prompt: mustache_default.render(
model_settings.user_prompt,
prompt_data
),
system: model_settings.system_prompt,
model: this.id,
stream: true,
options: {
temp: model_settings.temperature
}
});
request.write(body);
this.cancel_generations.push(() => {
request.abort();
});
request.on("response", (response) => {
response.on("data", (chunk) => {
textGenerator.state += chunk;
if (textGenerator.registerItem) {
textGenerator.registerItem();
}
});
response.on("end", () => {
this.cancel_generations = this.cancel_generations.filter(
(x2) => x2 !== request.abort
);
});
});
request.end();
let initialized = false;
let generated = "";
let started = false;
while (true) {
let token = await textGenerator.next();
generated += token;
if (prompt_data.last_line.includes(generated)) {
continue;
}
if (!started) {
for (let i = generated.length - 1; i >= 0; i--) {
if (prompt_data.last_line.endsWith(
generated.slice(0, i)
)) {
token = generated.slice(i);
started = true;
break;
}
}
}
if (!token) {
continue;
}
if (!initialized) {
yield this.interpret(prompt, token);
initialized = true;
} else {
yield token;
}
}
} catch (e) {
yield this.complete(prompt, settings);
}
}
interpret(prompt, completion) {
const response_punctuation = " \n.,?!:;";
const prompt_punctuation = " \n";
if (prompt.prefix.length !== 0 && !prompt_punctuation.includes(
prompt.prefix[prompt.prefix.length - 1]
) && !response_punctuation.includes(completion[0])) {
completion = " " + completion;
}
return completion;
}
};
var OllamaComplete = class {
constructor() {
this.id = "ollama";
this.name = "Ollama";
this.description = "Ollama's API, for local models";
this.Settings = SettingsUI7;
}
async get_models(settings) {
const provider_settings = parse_settings7(settings);
const response = await (0, import_obsidian3.requestUrl)({
url: `${provider_settings.endpoint}/api/tags`,
method: "GET",
headers: {
"Content-Type": "application/json"
},
throw: true
}).then((response2) => response2.json);
return response.models.map((model) => {
return new OllamaModel(
settings,
model.name,
model.name,
model.name
);
});
}
};
// src/complete/completers/groq/provider_settings.tsx
var React13 = __toESM(require_react());
var settings_schema5 = z.object({
api_key: z.string()
});
var default_settings6 = {
api_key: ""
};
var parse_settings9 = (data) => {
if (data === null) {
return default_settings6;
}
try {
const settings = JSON.parse(data);
return settings_schema5.parse(settings);
} catch (e) {
return default_settings6;
}
};
function SettingsUI9({
settings,
saveSettings
}) {
return /* @__PURE__ */ React13.createElement(
SettingsItem,
{
name: "API key",
description: /* @__PURE__ */ React13.createElement(React13.Fragment, null, "Your Groq", " ", /* @__PURE__ */ React13.createElement("a", { href: "https://console.groq.com/keys" }, "API key"))
},
/* @__PURE__ */ React13.createElement(
"input",
{
type: "text",
value: parse_settings9(settings).api_key,
onChange: (e) => saveSettings(JSON.stringify({ api_key: e.target.value }))
}
)
);
}
// src/complete/completers/groq/model_settings.tsx
var React14 = __toESM(require_react());
var settings_schema6 = z.object({
system_prompt: z.string(),
user_prompt: z.string(),
temperature: z.number().optional(),
prompt_length: z.number().optional(),
max_tokens: z.number().optional()
});
var default_settings7 = {
system_prompt: "",
user_prompt: '{{#context}}Context:\n\n{{context}}\n\n=================================\n{{/context}}Do not start with "...". Continue the following paragraph:\n\n{{last_line}}',
max_tokens: 100
};
var parse_settings10 = (data) => {
if (data == null) {
return default_settings7;
}
try {
const settings = JSON.parse(data);
return settings_schema6.parse(settings);
} catch (e) {
return default_settings7;
}
};
function SettingsUI10({
settings,
saveSettings
}) {
const parsed_settings = parse_settings10(settings);
return /* @__PURE__ */ React14.createElement(React14.Fragment, null, /* @__PURE__ */ React14.createElement(SettingsItem, { name: "System prompt" }), /* @__PURE__ */ React14.createElement(
"textarea",
{
className: "ai-complete-groq-full-width",
value: parsed_settings.system_prompt,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
system_prompt: e.target.value
})
)
}
), /* @__PURE__ */ React14.createElement(SettingsItem, { name: "User prompt" }), /* @__PURE__ */ React14.createElement(
"textarea",
{
className: "ai-complete-groq-full-width",
value: parsed_settings.user_prompt,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
user_prompt: e.target.value
})
)
}
), /* @__PURE__ */ React14.createElement(SettingsItem, { name: "Temperature" }, /* @__PURE__ */ React14.createElement(
"input",
{
type: "number",
value: parsed_settings.temperature === void 0 ? "" : parsed_settings.temperature,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
temperature: parseFloat(e.target.value)
})
)
}
)), /* @__PURE__ */ React14.createElement(SettingsItem, { name: "Prompt length" }, /* @__PURE__ */ React14.createElement(
"input",
{
type: "number",
value: parsed_settings.prompt_length === void 0 ? "" : parsed_settings.prompt_length,
onChange: (e) => saveSettings(
JSON.stringify({
...parsed_settings,
prompt_length: parseFloat(e.target.value)
})
)
}
)));
}
// node_modules/groq-sdk/version.mjs
var VERSION2 = "0.4.0";
// node_modules/groq-sdk/_shims/registry.mjs
var auto2 = false;
var kind2 = void 0;
var fetch3 = void 0;
var Request3 = void 0;
var Response3 = void 0;
var Headers3 = void 0;
var FormData3 = void 0;
var Blob3 = void 0;
var File3 = void 0;
var ReadableStream3 = void 0;
var getMultipartRequestOptions2 = void 0;
var getDefaultAgent2 = void 0;
var fileFromPath2 = void 0;
var isFsReadStream2 = void 0;
function setShims2(shims, options = { auto: false }) {
if (auto2) {
throw new Error(`you must \`import 'groq-sdk/shims/${shims.kind}'\` before importing anything else from groq-sdk`);
}
if (kind2) {
throw new Error(`can't \`import 'groq-sdk/shims/${shims.kind}'\` after \`import 'groq-sdk/shims/${kind2}'\``);
}
auto2 = options.auto;
kind2 = shims.kind;
fetch3 = shims.fetch;
Request3 = shims.Request;
Response3 = shims.Response;
Headers3 = shims.Headers;
FormData3 = shims.FormData;
Blob3 = shims.Blob;
File3 = shims.File;
ReadableStream3 = shims.ReadableStream;
getMultipartRequestOptions2 = shims.getMultipartRequestOptions;
getDefaultAgent2 = shims.getDefaultAgent;
fileFromPath2 = shims.fileFromPath;
isFsReadStream2 = shims.isFsReadStream;
}
// node_modules/groq-sdk/_shims/MultipartBody.mjs
var MultipartBody2 = class {
constructor(body) {
this.body = body;
}
get [Symbol.toStringTag]() {
return "MultipartBody";
}
};
// node_modules/groq-sdk/_shims/web-runtime.mjs
function getRuntime2({ manuallyImported } = {}) {
const recommendation = manuallyImported ? `You may need to use polyfills` : `Add one of these imports before your first \`import \u2026 from 'groq-sdk'\`:
- \`import 'groq-sdk/shims/node'\` (if you're running on Node)
- \`import 'groq-sdk/shims/web'\` (otherwise)
`;
let _fetch, _Request, _Response, _Headers;
try {
_fetch = fetch;
_Request = Request;
_Response = Response;
_Headers = Headers;
} catch (error) {
throw new Error(`this environment is missing the following Web Fetch API type: ${error.message}. ${recommendation}`);
}
return {
kind: "web",
fetch: _fetch,
Request: _Request,
Response: _Response,
Headers: _Headers,
FormData: (
// @ts-ignore
typeof FormData !== "undefined" ? FormData : class FormData {
// @ts-ignore
constructor() {
throw new Error(`file uploads aren't supported in this environment yet as 'FormData' is undefined. ${recommendation}`);
}
}
),
Blob: typeof Blob !== "undefined" ? Blob : class Blob {
constructor() {
throw new Error(`file uploads aren't supported in this environment yet as 'Blob' is undefined. ${recommendation}`);
}
},
File: (
// @ts-ignore
typeof File !== "undefined" ? File : class File {
// @ts-ignore
constructor() {
throw new Error(`file uploads aren't supported in this environment yet as 'File' is undefined. ${recommendation}`);
}
}
),
ReadableStream: (
// @ts-ignore
typeof ReadableStream !== "undefined" ? ReadableStream : class ReadableStream {
// @ts-ignore
constructor() {
throw new Error(`streaming isn't supported in this environment yet as 'ReadableStream' is undefined. ${recommendation}`);
}
}
),
getMultipartRequestOptions: async (form, opts) => ({
...opts,
body: new MultipartBody2(form)
}),
getDefaultAgent: (url) => void 0,
fileFromPath: () => {
throw new Error("The `fileFromPath` function is only supported in Node. See the README for more details: https://www.github.com/groq/groq-typescript#file-uploads");
},
isFsReadStream: (value) => false
};
}
// node_modules/groq-sdk/_shims/index.mjs
if (!kind2)
setShims2(getRuntime2(), { auto: true });
// node_modules/groq-sdk/error.mjs
var error_exports2 = {};
__export(error_exports2, {
APIConnectionError: () => APIConnectionError3,
APIConnectionTimeoutError: () => APIConnectionTimeoutError3,
APIError: () => APIError3,
APIUserAbortError: () => APIUserAbortError3,
AuthenticationError: () => AuthenticationError3,
BadRequestError: () => BadRequestError3,
ConflictError: () => ConflictError3,
GroqError: () => GroqError,
InternalServerError: () => InternalServerError3,
NotFoundError: () => NotFoundError3,
PermissionDeniedError: () => PermissionDeniedError3,
RateLimitError: () => RateLimitError3,
UnprocessableEntityError: () => UnprocessableEntityError3
});
var GroqError = class extends Error {
};
var APIError3 = class extends GroqError {
constructor(status, error, message, headers) {
super(`${APIError3.makeMessage(status, error, message)}`);
this.status = status;
this.headers = headers;
this.error = error;
}
static makeMessage(status, error, message) {
const msg = (error == null ? void 0 : error.message) ? typeof error.message === "string" ? error.message : JSON.stringify(error.message) : error ? JSON.stringify(error) : message;
if (status && msg) {
return `${status} ${msg}`;
}
if (status) {
return `${status} status code (no body)`;
}
if (msg) {
return msg;
}
return "(no status code or body)";
}
static generate(status, errorResponse, message, headers) {
if (!status) {
return new APIConnectionError3({ cause: castToError2(errorResponse) });
}
const error = errorResponse;
if (status === 400) {
return new BadRequestError3(status, error, message, headers);
}
if (status === 401) {
return new AuthenticationError3(status, error, message, headers);
}
if (status === 403) {
return new PermissionDeniedError3(status, error, message, headers);
}
if (status === 404) {
return new NotFoundError3(status, error, message, headers);
}
if (status === 409) {
return new ConflictError3(status, error, message, headers);
}
if (status === 422) {
return new UnprocessableEntityError3(status, error, message, headers);
}
if (status === 429) {
return new RateLimitError3(status, error, message, headers);
}
if (status >= 500) {
return new InternalServerError3(status, error, message, headers);
}
return new APIError3(status, error, message, headers);
}
};
var APIUserAbortError3 = class extends APIError3 {
constructor({ message } = {}) {
super(void 0, void 0, message || "Request was aborted.", void 0);
this.status = void 0;
}
};
var APIConnectionError3 = class extends APIError3 {
constructor({ message, cause }) {
super(void 0, void 0, message || "Connection error.", void 0);
this.status = void 0;
if (cause)
this.cause = cause;
}
};
var APIConnectionTimeoutError3 = class extends APIConnectionError3 {
constructor({ message } = {}) {
super({ message: message != null ? message : "Request timed out." });
}
};
var BadRequestError3 = class extends APIError3 {
constructor() {
super(...arguments);
this.status = 400;
}
};
var AuthenticationError3 = class extends APIError3 {
constructor() {
super(...arguments);
this.status = 401;
}
};
var PermissionDeniedError3 = class extends APIError3 {
constructor() {
super(...arguments);
this.status = 403;
}
};
var NotFoundError3 = class extends APIError3 {
constructor() {
super(...arguments);
this.status = 404;
}
};
var ConflictError3 = class extends APIError3 {
constructor() {
super(...arguments);
this.status = 409;
}
};
var UnprocessableEntityError3 = class extends APIError3 {
constructor() {
super(...arguments);
this.status = 422;
}
};
var RateLimitError3 = class extends APIError3 {
constructor() {
super(...arguments);
this.status = 429;
}
};
var InternalServerError3 = class extends APIError3 {
};
// node_modules/groq-sdk/lib/streaming.mjs
var Stream2 = class {
constructor(iterator, controller) {
this.iterator = iterator;
this.controller = controller;
}
static fromSSEResponse(response, controller) {
let consumed = false;
const decoder = new SSEDecoder2();
async function* iterMessages() {
if (!response.body) {
controller.abort();
throw new GroqError(`Attempted to iterate over a response with no body`);
}
const lineDecoder = new LineDecoder2();
const iter = readableStreamAsyncIterable2(response.body);
for await (const chunk of iter) {
for (const line of lineDecoder.decode(chunk)) {
const sse = decoder.decode(line);
if (sse)
yield sse;
}
}
for (const line of lineDecoder.flush()) {
const sse = decoder.decode(line);
if (sse)
yield sse;
}
}
async function* iterator() {
if (consumed) {
throw new Error("Cannot iterate over a consumed stream, use `.tee()` to split the stream.");
}
consumed = true;
let done = false;
try {
for await (const sse of iterMessages()) {
if (done)
continue;
if (sse.data.startsWith("[DONE]")) {
done = true;
continue;
}
if (sse.event === null) {
let data;
try {
data = JSON.parse(sse.data);
} catch (e) {
console.error(`Could not parse message into JSON:`, sse.data);
console.error(`From chunk:`, sse.raw);
throw e;
}
if (data && data.error) {
throw new APIError3(void 0, data.error, void 0, void 0);
}
yield data;
}
}
done = true;
} catch (e) {
if (e instanceof Error && e.name === "AbortError")
return;
throw e;
} finally {
if (!done)
controller.abort();
}
}
return new Stream2(iterator, controller);
}
/**
* Generates a Stream from a newline-separated ReadableStream
* where each item is a JSON value.
*/
static fromReadableStream(readableStream, controller) {
let consumed = false;
async function* iterLines() {
const lineDecoder = new LineDecoder2();
const iter = readableStreamAsyncIterable2(readableStream);
for await (const chunk of iter) {
for (const line of lineDecoder.decode(chunk)) {
yield line;
}
}
for (const line of lineDecoder.flush()) {
yield line;
}
}
async function* iterator() {
if (consumed) {
throw new Error("Cannot iterate over a consumed stream, use `.tee()` to split the stream.");
}
consumed = true;
let done = false;
try {
for await (const line of iterLines()) {
if (done)
continue;
if (line)
yield JSON.parse(line);
}
done = true;
} catch (e) {
if (e instanceof Error && e.name === "AbortError")
return;
throw e;
} finally {
if (!done)
controller.abort();
}
}
return new Stream2(iterator, controller);
}
[Symbol.asyncIterator]() {
return this.iterator();
}
/**
* Splits the stream into two streams which can be
* independently read from at different speeds.
*/
tee() {
const left = [];
const right = [];
const iterator = this.iterator();
const teeIterator = (queue) => {
return {
next: () => {
if (queue.length === 0) {
const result = iterator.next();
left.push(result);
right.push(result);
}
return queue.shift();
}
};
};
return [
new Stream2(() => teeIterator(left), this.controller),
new Stream2(() => teeIterator(right), this.controller)
];
}
/**
* Converts this stream to a newline-separated ReadableStream of
* JSON stringified values in the stream
* which can be turned back into a Stream with `Stream.fromReadableStream()`.
*/
toReadableStream() {
const self = this;
let iter;
const encoder = new TextEncoder();
return new ReadableStream3({
async start() {
iter = self[Symbol.asyncIterator]();
},
async pull(ctrl) {
try {
const { value, done } = await iter.next();
if (done)
return ctrl.close();
const bytes = encoder.encode(JSON.stringify(value) + "\n");
ctrl.enqueue(bytes);
} catch (err) {
ctrl.error(err);
}
},
async cancel() {
var _a3;
await ((_a3 = iter.return) == null ? void 0 : _a3.call(iter));
}
});
}
};
var SSEDecoder2 = class {
constructor() {
this.event = null;
this.data = [];
this.chunks = [];
}
decode(line) {
if (line.endsWith("\r")) {
line = line.substring(0, line.length - 1);
}
if (!line) {
if (!this.event && !this.data.length)
return null;
const sse = {
event: this.event,
data: this.data.join("\n"),
raw: this.chunks
};
this.event = null;
this.data = [];
this.chunks = [];
return sse;
}
this.chunks.push(line);
if (line.startsWith(":")) {
return null;
}
let [fieldname, _2, value] = partition2(line, ":");
if (value.startsWith(" ")) {
value = value.substring(1);
}
if (fieldname === "event") {
this.event = value;
} else if (fieldname === "data") {
this.data.push(value);
}
return null;
}
};
var LineDecoder2 = class {
constructor() {
this.buffer = [];
this.trailingCR = false;
}
decode(chunk) {
let text = this.decodeText(chunk);
if (this.trailingCR) {
text = "\r" + text;
this.trailingCR = false;
}
if (text.endsWith("\r")) {
this.trailingCR = true;
text = text.slice(0, -1);
}
if (!text) {
return [];
}
const trailingNewline = LineDecoder2.NEWLINE_CHARS.has(text[text.length - 1] || "");
let lines = text.split(LineDecoder2.NEWLINE_REGEXP);
if (lines.length === 1 && !trailingNewline) {
this.buffer.push(lines[0]);
return [];
}
if (this.buffer.length > 0) {
lines = [this.buffer.join("") + lines[0], ...lines.slice(1)];
this.buffer = [];
}
if (!trailingNewline) {
this.buffer = [lines.pop() || ""];
}
return lines;
}
decodeText(bytes) {
var _a3;
if (bytes == null)
return "";
if (typeof bytes === "string")
return bytes;
if (typeof Buffer !== "undefined") {
if (bytes instanceof Buffer) {
return bytes.toString();
}
if (bytes instanceof Uint8Array) {
return Buffer.from(bytes).toString();
}
throw new GroqError(`Unexpected: received non-Uint8Array (${bytes.constructor.name}) stream chunk in an environment with a global "Buffer" defined, which this library assumes to be Node. Please report this error.`);
}
if (typeof TextDecoder !== "undefined") {
if (bytes instanceof Uint8Array || bytes instanceof ArrayBuffer) {
(_a3 = this.textDecoder) != null ? _a3 : this.textDecoder = new TextDecoder("utf8");
return this.textDecoder.decode(bytes);
}
throw new GroqError(`Unexpected: received non-Uint8Array/ArrayBuffer (${bytes.constructor.name}) in a web platform. Please report this error.`);
}
throw new GroqError(`Unexpected: neither Buffer nor TextDecoder are available as globals. Please report this error.`);
}
flush() {
if (!this.buffer.length && !this.trailingCR) {
return [];
}
const lines = [this.buffer.join("")];
this.buffer = [];
this.trailingCR = false;
return lines;
}
};
LineDecoder2.NEWLINE_CHARS = /* @__PURE__ */ new Set(["\n", "\r", "\v", "\f", "", "", "", "\x85", "\u2028", "\u2029"]);
LineDecoder2.NEWLINE_REGEXP = /\r\n|[\n\r\x0b\x0c\x1c\x1d\x1e\x85\u2028\u2029]/g;
function partition2(str2, delimiter) {
const index = str2.indexOf(delimiter);
if (index !== -1) {
return [str2.substring(0, index), delimiter, str2.substring(index + delimiter.length)];
}
return [str2, "", ""];
}
function readableStreamAsyncIterable2(stream) {
if (stream[Symbol.asyncIterator])
return stream;
const reader = stream.getReader();
return {
async next() {
try {
const result = await reader.read();
if (result == null ? void 0 : result.done)
reader.releaseLock();
return result;
} catch (e) {
reader.releaseLock();
throw e;
}
},
async return() {
const cancelPromise = reader.cancel();
reader.releaseLock();
await cancelPromise;
return { done: true, value: void 0 };
},
[Symbol.asyncIterator]() {
return this;
}
};
}
// node_modules/groq-sdk/uploads.mjs
var isResponseLike2 = (value) => value != null && typeof value === "object" && typeof value.url === "string" && typeof value.blob === "function";
var isFileLike2 = (value) => value != null && typeof value === "object" && typeof value.name === "string" && typeof value.lastModified === "number" && isBlobLike2(value);
var isBlobLike2 = (value) => value != null && typeof value === "object" && typeof value.size === "number" && typeof value.type === "string" && typeof value.text === "function" && typeof value.slice === "function" && typeof value.arrayBuffer === "function";
var isUploadable2 = (value) => {
return isFileLike2(value) || isResponseLike2(value) || isFsReadStream2(value);
};
async function toFile2(value, name, options) {
var _a3, _b, _c;
value = await value;
options != null ? options : options = isFileLike2(value) ? { lastModified: value.lastModified, type: value.type } : {};
if (isResponseLike2(value)) {
const blob = await value.blob();
name || (name = (_a3 = new URL(value.url).pathname.split(/[\\/]/).pop()) != null ? _a3 : "unknown_file");
return new File3([blob], name, options);
}
const bits = await getBytes2(value);
name || (name = (_b = getName2(value)) != null ? _b : "unknown_file");
if (!options.type) {
const type = (_c = bits[0]) == null ? void 0 : _c.type;
if (typeof type === "string") {
options = { ...options, type };
}
}
return new File3(bits, name, options);
}
async function getBytes2(value) {
var _a3;
let parts = [];
if (typeof value === "string" || ArrayBuffer.isView(value) || // includes Uint8Array, Buffer, etc.
value instanceof ArrayBuffer) {
parts.push(value);
} else if (isBlobLike2(value)) {
parts.push(await value.arrayBuffer());
} else if (isAsyncIterableIterator2(value)) {
for await (const chunk of value) {
parts.push(chunk);
}
} else {
throw new Error(`Unexpected data type: ${typeof value}; constructor: ${(_a3 = value == null ? void 0 : value.constructor) == null ? void 0 : _a3.name}; props: ${propsForError2(value)}`);
}
return parts;
}
function propsForError2(value) {
const props = Object.getOwnPropertyNames(value);
return `[${props.map((p2) => `"${p2}"`).join(", ")}]`;
}
function getName2(value) {
var _a3;
return getStringFromMaybeBuffer2(value.name) || getStringFromMaybeBuffer2(value.filename) || // For fs.ReadStream
((_a3 = getStringFromMaybeBuffer2(value.path)) == null ? void 0 : _a3.split(/[\\/]/).pop());
}
var getStringFromMaybeBuffer2 = (x2) => {
if (typeof x2 === "string")
return x2;
if (typeof Buffer !== "undefined" && x2 instanceof Buffer)
return String(x2);
return void 0;
};
var isAsyncIterableIterator2 = (value) => value != null && typeof value === "object" && typeof value[Symbol.asyncIterator] === "function";
var isMultipartBody2 = (body) => body && typeof body === "object" && body.body && body[Symbol.toStringTag] === "MultipartBody";
var multipartFormRequestOptions2 = async (opts) => {
const form = await createForm2(opts.body);
return getMultipartRequestOptions2(form, opts);
};
var createForm2 = async (body) => {
const form = new FormData3();
await Promise.all(Object.entries(body || {}).map(([key, value]) => addFormValue2(form, key, value)));
return form;
};
var addFormValue2 = async (form, key, value) => {
if (value === void 0)
return;
if (value == null) {
throw new TypeError(`Received null for "${key}"; to pass null in FormData, you must use the string 'null'`);
}
if (typeof value === "string" || typeof value === "number" || typeof value === "boolean") {
form.append(key, String(value));
} else if (isUploadable2(value)) {
const file = await toFile2(value);
form.append(key, file);
} else if (Array.isArray(value)) {
await Promise.all(value.map((entry) => addFormValue2(form, key + "[]", entry)));
} else if (typeof value === "object") {
await Promise.all(Object.entries(value).map(([name, prop]) => addFormValue2(form, `${key}[${name}]`, prop)));
} else {
throw new TypeError(`Invalid value given to form, expected a string, number, boolean, object, Array, File or Blob but got ${value} instead`);
}
};
// node_modules/groq-sdk/core.mjs
var __classPrivateFieldSet4 = function(receiver, state, value, kind3, f) {
if (kind3 === "m")
throw new TypeError("Private method is not writable");
if (kind3 === "a" && !f)
throw new TypeError("Private accessor was defined without a setter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot write private member to an object whose class did not declare it");
return kind3 === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value), value;
};
var __classPrivateFieldGet4 = function(receiver, state, kind3, f) {
if (kind3 === "a" && !f)
throw new TypeError("Private accessor was defined without a getter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot read private member from an object whose class did not declare it");
return kind3 === "m" ? f : kind3 === "a" ? f.call(receiver) : f ? f.value : state.get(receiver);
};
var _AbstractPage_client2;
async function defaultParseResponse2(props) {
const { response } = props;
if (props.options.stream) {
debug2("response", response.status, response.url, response.headers, response.body);
if (props.options.__streamClass) {
return props.options.__streamClass.fromSSEResponse(response, props.controller);
}
return Stream2.fromSSEResponse(response, props.controller);
}
if (response.status === 204) {
return null;
}
if (props.options.__binaryResponse) {
return response;
}
const contentType = response.headers.get("content-type");
const isJSON = (contentType == null ? void 0 : contentType.includes("application/json")) || (contentType == null ? void 0 : contentType.includes("application/vnd.api+json"));
if (isJSON) {
const json = await response.json();
debug2("response", response.status, response.url, response.headers, json);
return json;
}
const text = await response.text();
debug2("response", response.status, response.url, response.headers, text);
return text;
}
var APIPromise2 = class extends Promise {
constructor(responsePromise, parseResponse = defaultParseResponse2) {
super((resolve) => {
resolve(null);
});
this.responsePromise = responsePromise;
this.parseResponse = parseResponse;
}
_thenUnwrap(transform) {
return new APIPromise2(this.responsePromise, async (props) => transform(await this.parseResponse(props)));
}
/**
* Gets the raw `Response` instance instead of parsing the response
* data.
*
* If you want to parse the response body but still get the `Response`
* instance, you can use {@link withResponse()}.
*
* 👋 Getting the wrong TypeScript type for `Response`?
* Try setting `"moduleResolution": "NodeNext"` if you can,
* or add one of these imports before your first `import … from 'groq-sdk'`:
* - `import 'groq-sdk/shims/node'` (if you're running on Node)
* - `import 'groq-sdk/shims/web'` (otherwise)
*/
asResponse() {
return this.responsePromise.then((p2) => p2.response);
}
/**
* Gets the parsed response data and the raw `Response` instance.
*
* If you just want to get the raw `Response` instance without parsing it,
* you can use {@link asResponse()}.
*
*
* 👋 Getting the wrong TypeScript type for `Response`?
* Try setting `"moduleResolution": "NodeNext"` if you can,
* or add one of these imports before your first `import … from 'groq-sdk'`:
* - `import 'groq-sdk/shims/node'` (if you're running on Node)
* - `import 'groq-sdk/shims/web'` (otherwise)
*/
async withResponse() {
const [data, response] = await Promise.all([this.parse(), this.asResponse()]);
return { data, response };
}
parse() {
if (!this.parsedPromise) {
this.parsedPromise = this.responsePromise.then(this.parseResponse);
}
return this.parsedPromise;
}
then(onfulfilled, onrejected) {
return this.parse().then(onfulfilled, onrejected);
}
catch(onrejected) {
return this.parse().catch(onrejected);
}
finally(onfinally) {
return this.parse().finally(onfinally);
}
};
var APIClient2 = class {
constructor({
baseURL,
maxRetries = 2,
timeout = 6e4,
// 1 minute
httpAgent,
fetch: overridenFetch
}) {
this.baseURL = baseURL;
this.maxRetries = validatePositiveInteger2("maxRetries", maxRetries);
this.timeout = validatePositiveInteger2("timeout", timeout);
this.httpAgent = httpAgent;
this.fetch = overridenFetch != null ? overridenFetch : fetch3;
}
authHeaders(opts) {
return {};
}
/**
* Override this to add your own default headers, for example:
*
* {
* ...super.defaultHeaders(),
* Authorization: 'Bearer 123',
* }
*/
defaultHeaders(opts) {
return {
Accept: "application/json",
"Content-Type": "application/json",
"User-Agent": this.getUserAgent(),
...getPlatformHeaders2(),
...this.authHeaders(opts)
};
}
/**
* Override this to add your own headers validation:
*/
validateHeaders(headers, customHeaders) {
}
defaultIdempotencyKey() {
return `stainless-node-retry-${uuid42()}`;
}
get(path, opts) {
return this.methodRequest("get", path, opts);
}
post(path, opts) {
return this.methodRequest("post", path, opts);
}
patch(path, opts) {
return this.methodRequest("patch", path, opts);
}
put(path, opts) {
return this.methodRequest("put", path, opts);
}
delete(path, opts) {
return this.methodRequest("delete", path, opts);
}
methodRequest(method, path, opts) {
return this.request(Promise.resolve(opts).then((opts2) => ({ method, path, ...opts2 })));
}
getAPIList(path, Page2, opts) {
return this.requestAPIList(Page2, { method: "get", path, ...opts });
}
calculateContentLength(body) {
if (typeof body === "string") {
if (typeof Buffer !== "undefined") {
return Buffer.byteLength(body, "utf8").toString();
}
if (typeof TextEncoder !== "undefined") {
const encoder = new TextEncoder();
const encoded = encoder.encode(body);
return encoded.length.toString();
}
}
return null;
}
buildRequest(options) {
var _a3, _b, _c, _d, _e, _f;
const { method, path, query, headers = {} } = options;
const body = isMultipartBody2(options.body) ? options.body.body : options.body ? JSON.stringify(options.body, null, 2) : null;
const contentLength = this.calculateContentLength(body);
const url = this.buildURL(path, query);
if ("timeout" in options)
validatePositiveInteger2("timeout", options.timeout);
const timeout = (_a3 = options.timeout) != null ? _a3 : this.timeout;
const httpAgent = (_c = (_b = options.httpAgent) != null ? _b : this.httpAgent) != null ? _c : getDefaultAgent2(url);
const minAgentTimeout = timeout + 1e3;
if (typeof ((_d = httpAgent == null ? void 0 : httpAgent.options) == null ? void 0 : _d.timeout) === "number" && minAgentTimeout > ((_e = httpAgent.options.timeout) != null ? _e : 0)) {
httpAgent.options.timeout = minAgentTimeout;
}
if (this.idempotencyHeader && method !== "get") {
if (!options.idempotencyKey)
options.idempotencyKey = this.defaultIdempotencyKey();
headers[this.idempotencyHeader] = options.idempotencyKey;
}
const reqHeaders = this.buildHeaders({ options, headers, contentLength });
const req = {
method,
...body && { body },
headers: reqHeaders,
...httpAgent && { agent: httpAgent },
// @ts-ignore node-fetch uses a custom AbortSignal type that is
// not compatible with standard web types
signal: (_f = options.signal) != null ? _f : null
};
return { req, url, timeout };
}
buildHeaders({ options, headers, contentLength }) {
const reqHeaders = {};
if (contentLength) {
reqHeaders["content-length"] = contentLength;
}
const defaultHeaders = this.defaultHeaders(options);
applyHeadersMut(reqHeaders, defaultHeaders);
applyHeadersMut(reqHeaders, headers);
if (isMultipartBody2(options.body) && kind2 !== "node") {
delete reqHeaders["content-type"];
}
this.validateHeaders(reqHeaders, headers);
return reqHeaders;
}
/**
* Used as a callback for mutating the given `FinalRequestOptions` object.
*/
async prepareOptions(options) {
}
/**
* Used as a callback for mutating the given `RequestInit` object.
*
* This is useful for cases where you want to add certain headers based off of
* the request properties, e.g. `method` or `url`.
*/
async prepareRequest(request, { url, options }) {
}
parseHeaders(headers) {
return !headers ? {} : Symbol.iterator in headers ? Object.fromEntries(Array.from(headers).map((header) => [...header])) : { ...headers };
}
makeStatusError(status, error, message, headers) {
return APIError3.generate(status, error, message, headers);
}
request(options, remainingRetries = null) {
return new APIPromise2(this.makeRequest(options, remainingRetries));
}
async makeRequest(optionsInput, retriesRemaining) {
var _a3, _b, _c;
const options = await optionsInput;
if (retriesRemaining == null) {
retriesRemaining = (_a3 = options.maxRetries) != null ? _a3 : this.maxRetries;
}
await this.prepareOptions(options);
const { req, url, timeout } = this.buildRequest(options);
await this.prepareRequest(req, { url, options });
debug2("request", url, options, req.headers);
if ((_b = options.signal) == null ? void 0 : _b.aborted) {
throw new APIUserAbortError3();
}
const controller = new AbortController();
const response = await this.fetchWithTimeout(url, req, timeout, controller).catch(castToError2);
if (response instanceof Error) {
if ((_c = options.signal) == null ? void 0 : _c.aborted) {
throw new APIUserAbortError3();
}
if (retriesRemaining) {
return this.retryRequest(options, retriesRemaining);
}
if (response.name === "AbortError") {
throw new APIConnectionTimeoutError3();
}
throw new APIConnectionError3({ cause: response });
}
const responseHeaders = createResponseHeaders2(response.headers);
if (!response.ok) {
if (retriesRemaining && this.shouldRetry(response)) {
const retryMessage2 = `retrying, ${retriesRemaining} attempts remaining`;
debug2(`response (error; ${retryMessage2})`, response.status, url, responseHeaders);
return this.retryRequest(options, retriesRemaining, responseHeaders);
}
const errText = await response.text().catch((e) => castToError2(e).message);
const errJSON = safeJSON2(errText);
const errMessage = errJSON ? void 0 : errText;
const retryMessage = retriesRemaining ? `(error; no more retries left)` : `(error; not retryable)`;
debug2(`response (error; ${retryMessage})`, response.status, url, responseHeaders, errMessage);
const err = this.makeStatusError(response.status, errJSON, errMessage, responseHeaders);
throw err;
}
return { response, options, controller };
}
requestAPIList(Page2, options) {
const request = this.makeRequest(options, null);
return new PagePromise2(this, request, Page2);
}
buildURL(path, query) {
const url = isAbsoluteURL2(path) ? new URL(path) : new URL(this.baseURL + (this.baseURL.endsWith("/") && path.startsWith("/") ? path.slice(1) : path));
const defaultQuery = this.defaultQuery();
if (!isEmptyObj2(defaultQuery)) {
query = { ...defaultQuery, ...query };
}
if (typeof query === "object" && query && !Array.isArray(query)) {
url.search = this.stringifyQuery(query);
}
return url.toString();
}
stringifyQuery(query) {
return Object.entries(query).filter(([_2, value]) => typeof value !== "undefined").map(([key, value]) => {
if (typeof value === "string" || typeof value === "number" || typeof value === "boolean") {
return `${encodeURIComponent(key)}=${encodeURIComponent(value)}`;
}
if (value === null) {
return `${encodeURIComponent(key)}=`;
}
throw new GroqError(`Cannot stringify type ${typeof value}; Expected string, number, boolean, or null. If you need to pass nested query parameters, you can manually encode them, e.g. { query: { 'foo[key1]': value1, 'foo[key2]': value2 } }, and please open a GitHub issue requesting better support for your use case.`);
}).join("&");
}
async fetchWithTimeout(url, init, ms, controller) {
const { signal, ...options } = init || {};
if (signal)
signal.addEventListener("abort", () => controller.abort());
const timeout = setTimeout(() => controller.abort(), ms);
return this.getRequestClient().fetch.call(void 0, url, { signal: controller.signal, ...options }).finally(() => {
clearTimeout(timeout);
});
}
getRequestClient() {
return { fetch: this.fetch };
}
shouldRetry(response) {
const shouldRetryHeader = response.headers.get("x-should-retry");
if (shouldRetryHeader === "true")
return true;
if (shouldRetryHeader === "false")
return false;
if (response.status === 408)
return true;
if (response.status === 409)
return true;
if (response.status === 429)
return true;
if (response.status >= 500)
return true;
return false;
}
async retryRequest(options, retriesRemaining, responseHeaders) {
var _a3;
let timeoutMillis;
const retryAfterMillisHeader = responseHeaders == null ? void 0 : responseHeaders["retry-after-ms"];
if (retryAfterMillisHeader) {
const timeoutMs = parseFloat(retryAfterMillisHeader);
if (!Number.isNaN(timeoutMs)) {
timeoutMillis = timeoutMs;
}
}
const retryAfterHeader = responseHeaders == null ? void 0 : responseHeaders["retry-after"];
if (retryAfterHeader && !timeoutMillis) {
const timeoutSeconds = parseFloat(retryAfterHeader);
if (!Number.isNaN(timeoutSeconds)) {
timeoutMillis = timeoutSeconds * 1e3;
} else {
timeoutMillis = Date.parse(retryAfterHeader) - Date.now();
}
}
if (!(timeoutMillis && 0 <= timeoutMillis && timeoutMillis < 60 * 1e3)) {
const maxRetries = (_a3 = options.maxRetries) != null ? _a3 : this.maxRetries;
timeoutMillis = this.calculateDefaultRetryTimeoutMillis(retriesRemaining, maxRetries);
}
await sleep2(timeoutMillis);
return this.makeRequest(options, retriesRemaining - 1);
}
calculateDefaultRetryTimeoutMillis(retriesRemaining, maxRetries) {
const initialRetryDelay = 0.5;
const maxRetryDelay = 8;
const numRetries = maxRetries - retriesRemaining;
const sleepSeconds = Math.min(initialRetryDelay * Math.pow(2, numRetries), maxRetryDelay);
const jitter = 1 - Math.random() * 0.25;
return sleepSeconds * jitter * 1e3;
}
getUserAgent() {
return `${this.constructor.name}/JS ${VERSION2}`;
}
};
var AbstractPage2 = class {
constructor(client, response, body, options) {
_AbstractPage_client2.set(this, void 0);
__classPrivateFieldSet4(this, _AbstractPage_client2, client, "f");
this.options = options;
this.response = response;
this.body = body;
}
hasNextPage() {
const items = this.getPaginatedItems();
if (!items.length)
return false;
return this.nextPageInfo() != null;
}
async getNextPage() {
const nextInfo = this.nextPageInfo();
if (!nextInfo) {
throw new GroqError("No next page expected; please check `.hasNextPage()` before calling `.getNextPage()`.");
}
const nextOptions = { ...this.options };
if ("params" in nextInfo && typeof nextOptions.query === "object") {
nextOptions.query = { ...nextOptions.query, ...nextInfo.params };
} else if ("url" in nextInfo) {
const params = [...Object.entries(nextOptions.query || {}), ...nextInfo.url.searchParams.entries()];
for (const [key, value] of params) {
nextInfo.url.searchParams.set(key, value);
}
nextOptions.query = void 0;
nextOptions.path = nextInfo.url.toString();
}
return await __classPrivateFieldGet4(this, _AbstractPage_client2, "f").requestAPIList(this.constructor, nextOptions);
}
async *iterPages() {
let page = this;
yield page;
while (page.hasNextPage()) {
page = await page.getNextPage();
yield page;
}
}
async *[(_AbstractPage_client2 = /* @__PURE__ */ new WeakMap(), Symbol.asyncIterator)]() {
for await (const page of this.iterPages()) {
for (const item of page.getPaginatedItems()) {
yield item;
}
}
}
};
var PagePromise2 = class extends APIPromise2 {
constructor(client, request, Page2) {
super(request, async (props) => new Page2(client, props.response, await defaultParseResponse2(props), props.options));
}
/**
* Allow auto-paginating iteration on an unawaited list call, eg:
*
* for await (const item of client.items.list()) {
* console.log(item)
* }
*/
async *[Symbol.asyncIterator]() {
const page = await this;
for await (const item of page) {
yield item;
}
}
};
var createResponseHeaders2 = (headers) => {
return new Proxy(Object.fromEntries(
// @ts-ignore
headers.entries()
), {
get(target, name) {
const key = name.toString();
return target[key.toLowerCase()] || target[key];
}
});
};
var getPlatformProperties2 = () => {
var _a3, _b;
if (typeof Deno !== "undefined" && Deno.build != null) {
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION2,
"X-Stainless-OS": normalizePlatform2(Deno.build.os),
"X-Stainless-Arch": normalizeArch2(Deno.build.arch),
"X-Stainless-Runtime": "deno",
"X-Stainless-Runtime-Version": typeof Deno.version === "string" ? Deno.version : (_b = (_a3 = Deno.version) == null ? void 0 : _a3.deno) != null ? _b : "unknown"
};
}
if (typeof EdgeRuntime !== "undefined") {
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION2,
"X-Stainless-OS": "Unknown",
"X-Stainless-Arch": `other:${EdgeRuntime}`,
"X-Stainless-Runtime": "edge",
"X-Stainless-Runtime-Version": process.version
};
}
if (Object.prototype.toString.call(typeof process !== "undefined" ? process : 0) === "[object process]") {
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION2,
"X-Stainless-OS": normalizePlatform2(process.platform),
"X-Stainless-Arch": normalizeArch2(process.arch),
"X-Stainless-Runtime": "node",
"X-Stainless-Runtime-Version": process.version
};
}
const browserInfo = getBrowserInfo2();
if (browserInfo) {
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION2,
"X-Stainless-OS": "Unknown",
"X-Stainless-Arch": "unknown",
"X-Stainless-Runtime": `browser:${browserInfo.browser}`,
"X-Stainless-Runtime-Version": browserInfo.version
};
}
return {
"X-Stainless-Lang": "js",
"X-Stainless-Package-Version": VERSION2,
"X-Stainless-OS": "Unknown",
"X-Stainless-Arch": "unknown",
"X-Stainless-Runtime": "unknown",
"X-Stainless-Runtime-Version": "unknown"
};
};
function getBrowserInfo2() {
if (typeof navigator === "undefined" || !navigator) {
return null;
}
const browserPatterns = [
{ key: "edge", pattern: /Edge(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "ie", pattern: /MSIE(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "ie", pattern: /Trident(?:.*rv\:(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "chrome", pattern: /Chrome(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "firefox", pattern: /Firefox(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ },
{ key: "safari", pattern: /(?:Version\W+(\d+)\.(\d+)(?:\.(\d+))?)?(?:\W+Mobile\S*)?\W+Safari/ }
];
for (const { key, pattern } of browserPatterns) {
const match = pattern.exec(navigator.userAgent);
if (match) {
const major = match[1] || 0;
const minor = match[2] || 0;
const patch = match[3] || 0;
return { browser: key, version: `${major}.${minor}.${patch}` };
}
}
return null;
}
var normalizeArch2 = (arch) => {
if (arch === "x32")
return "x32";
if (arch === "x86_64" || arch === "x64")
return "x64";
if (arch === "arm")
return "arm";
if (arch === "aarch64" || arch === "arm64")
return "arm64";
if (arch)
return `other:${arch}`;
return "unknown";
};
var normalizePlatform2 = (platform) => {
platform = platform.toLowerCase();
if (platform.includes("ios"))
return "iOS";
if (platform === "android")
return "Android";
if (platform === "darwin")
return "MacOS";
if (platform === "win32")
return "Windows";
if (platform === "freebsd")
return "FreeBSD";
if (platform === "openbsd")
return "OpenBSD";
if (platform === "linux")
return "Linux";
if (platform)
return `Other:${platform}`;
return "Unknown";
};
var _platformHeaders2;
var getPlatformHeaders2 = () => {
return _platformHeaders2 != null ? _platformHeaders2 : _platformHeaders2 = getPlatformProperties2();
};
var safeJSON2 = (text) => {
try {
return JSON.parse(text);
} catch (err) {
return void 0;
}
};
var startsWithSchemeRegexp2 = new RegExp("^(?:[a-z]+:)?//", "i");
var isAbsoluteURL2 = (url) => {
return startsWithSchemeRegexp2.test(url);
};
var sleep2 = (ms) => new Promise((resolve) => setTimeout(resolve, ms));
var validatePositiveInteger2 = (name, n) => {
if (typeof n !== "number" || !Number.isInteger(n)) {
throw new GroqError(`${name} must be an integer`);
}
if (n < 0) {
throw new GroqError(`${name} must be a positive integer`);
}
return n;
};
var castToError2 = (err) => {
if (err instanceof Error)
return err;
return new Error(err);
};
var readEnv2 = (env) => {
var _a3, _b, _c, _d, _e, _f;
if (typeof process !== "undefined") {
return (_c = (_b = (_a3 = process.env) == null ? void 0 : _a3[env]) == null ? void 0 : _b.trim()) != null ? _c : void 0;
}
if (typeof Deno !== "undefined") {
return (_f = (_e = (_d = Deno.env) == null ? void 0 : _d.get) == null ? void 0 : _e.call(_d, env)) == null ? void 0 : _f.trim();
}
return void 0;
};
function isEmptyObj2(obj) {
if (!obj)
return true;
for (const _k in obj)
return false;
return true;
}
function hasOwn2(obj, key) {
return Object.prototype.hasOwnProperty.call(obj, key);
}
function applyHeadersMut(targetHeaders, newHeaders) {
for (const k2 in newHeaders) {
if (!hasOwn2(newHeaders, k2))
continue;
const lowerKey = k2.toLowerCase();
if (!lowerKey)
continue;
const val = newHeaders[k2];
if (val === null) {
delete targetHeaders[lowerKey];
} else if (val !== void 0) {
targetHeaders[lowerKey] = val;
}
}
}
function debug2(action, ...args) {
var _a3;
if (typeof process !== "undefined" && ((_a3 = process == null ? void 0 : process.env) == null ? void 0 : _a3["DEBUG"]) === "true") {
console.log(`Groq:DEBUG:${action}`, ...args);
}
}
var uuid42 = () => {
return "xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx".replace(/[xy]/g, (c2) => {
const r2 = Math.random() * 16 | 0;
const v = c2 === "x" ? r2 : r2 & 3 | 8;
return v.toString(16);
});
};
var isRunningInBrowser2 = () => {
return (
// @ts-ignore
typeof window !== "undefined" && // @ts-ignore
typeof window.document !== "undefined" && // @ts-ignore
typeof navigator !== "undefined"
);
};
// node_modules/groq-sdk/resource.mjs
var APIResource2 = class {
constructor(client) {
this._client = client;
}
};
// node_modules/groq-sdk/resources/audio/transcriptions.mjs
var Transcriptions2 = class extends APIResource2 {
/**
* Transcribes audio into the input language.
*/
create(body, options) {
return this._client.post("/openai/v1/audio/transcriptions", multipartFormRequestOptions2({ body, ...options }));
}
};
(function(Transcriptions3) {
})(Transcriptions2 || (Transcriptions2 = {}));
// node_modules/groq-sdk/resources/audio/translations.mjs
var Translations2 = class extends APIResource2 {
/**
* Translates audio into English.
*/
create(body, options) {
return this._client.post("/openai/v1/audio/translations", multipartFormRequestOptions2({ body, ...options }));
}
};
(function(Translations3) {
})(Translations2 || (Translations2 = {}));
// node_modules/groq-sdk/resources/audio/audio.mjs
var Audio2 = class extends APIResource2 {
constructor() {
super(...arguments);
this.transcriptions = new Transcriptions2(this._client);
this.translations = new Translations2(this._client);
}
};
(function(Audio3) {
Audio3.Transcriptions = Transcriptions2;
Audio3.Translations = Translations2;
})(Audio2 || (Audio2 = {}));
// node_modules/groq-sdk/resources/chat/completions.mjs
var Completions4 = class extends APIResource2 {
create(body, options) {
var _a3;
return this._client.post("/openai/v1/chat/completions", {
body,
...options,
stream: (_a3 = body.stream) != null ? _a3 : false
});
}
};
(function(Completions6) {
})(Completions4 || (Completions4 = {}));
// node_modules/groq-sdk/resources/chat/chat.mjs
var Chat3 = class extends APIResource2 {
constructor() {
super(...arguments);
this.completions = new Completions4(this._client);
}
};
(function(Chat4) {
Chat4.Completions = Completions4;
})(Chat3 || (Chat3 = {}));
// node_modules/groq-sdk/resources/completions.mjs
var Completions5 = class extends APIResource2 {
};
(function(Completions6) {
})(Completions5 || (Completions5 = {}));
// node_modules/groq-sdk/resources/embeddings.mjs
var Embeddings2 = class extends APIResource2 {
/**
* Creates an embedding vector representing the input text.
*/
create(body, options) {
return this._client.post("/openai/v1/embeddings", { body, ...options });
}
};
(function(Embeddings3) {
})(Embeddings2 || (Embeddings2 = {}));
// node_modules/groq-sdk/resources/models.mjs
var Models2 = class extends APIResource2 {
/**
* Get a specific model
*/
retrieve(model, options) {
return this._client.get(`/openai/v1/models/${model}`, options);
}
/**
* get all available models
*/
list(options) {
return this._client.get("/openai/v1/models", options);
}
/**
* Delete a model
*/
delete(model, options) {
return this._client.delete(`/openai/v1/models/${model}`, options);
}
};
(function(Models3) {
})(Models2 || (Models2 = {}));
// node_modules/groq-sdk/index.mjs
var _a2;
var Groq = class extends APIClient2 {
/**
* API Client for interfacing with the Groq API.
*
* @param {string | undefined} [opts.apiKey=process.env['GROQ_API_KEY'] ?? undefined]
* @param {string} [opts.baseURL=process.env['GROQ_BASE_URL'] ?? https://api.groq.com] - Override the default base URL for the API.
* @param {number} [opts.timeout=1 minute] - The maximum amount of time (in milliseconds) the client will wait for a response before timing out.
* @param {number} [opts.httpAgent] - An HTTP agent used to manage HTTP(s) connections.
* @param {Core.Fetch} [opts.fetch] - Specify a custom `fetch` function implementation.
* @param {number} [opts.maxRetries=2] - The maximum number of times the client will retry a request.
* @param {Core.Headers} opts.defaultHeaders - Default headers to include with every request to the API.
* @param {Core.DefaultQuery} opts.defaultQuery - Default query parameters to include with every request to the API.
* @param {boolean} [opts.dangerouslyAllowBrowser=false] - By default, client-side use of this library is not allowed, as it risks exposing your secret API credentials to attackers.
*/
constructor({ baseURL = readEnv2("GROQ_BASE_URL"), apiKey = readEnv2("GROQ_API_KEY"), ...opts } = {}) {
var _a3;
if (apiKey === void 0) {
throw new GroqError("The GROQ_API_KEY environment variable is missing or empty; either provide it, or instantiate the Groq client with an apiKey option, like new Groq({ apiKey: 'My API Key' }).");
}
const options = {
apiKey,
...opts,
baseURL: baseURL || `https://api.groq.com`
};
if (!options.dangerouslyAllowBrowser && isRunningInBrowser2()) {
throw new GroqError("It looks like you're running in a browser-like environment.\n\nThis is disabled by default, as it risks exposing your secret API credentials to attackers.\nIf you understand the risks and have appropriate mitigations in place,\nyou can set the `dangerouslyAllowBrowser` option to `true`, e.g.,\n\nnew Groq({ apiKey, dangerouslyAllowBrowser: true })");
}
super({
baseURL: options.baseURL,
timeout: (_a3 = options.timeout) != null ? _a3 : 6e4,
httpAgent: options.httpAgent,
maxRetries: options.maxRetries,
fetch: options.fetch
});
this.completions = new Completions5(this);
this.chat = new Chat3(this);
this.embeddings = new Embeddings2(this);
this.audio = new Audio2(this);
this.models = new Models2(this);
this._options = options;
this.apiKey = apiKey;
}
defaultQuery() {
return this._options.defaultQuery;
}
defaultHeaders(opts) {
return {
...super.defaultHeaders(opts),
...this._options.defaultHeaders
};
}
authHeaders(opts) {
return { Authorization: `Bearer ${this.apiKey}` };
}
};
_a2 = Groq;
Groq.Groq = _a2;
Groq.GroqError = GroqError;
Groq.APIError = APIError3;
Groq.APIConnectionError = APIConnectionError3;
Groq.APIConnectionTimeoutError = APIConnectionTimeoutError3;
Groq.APIUserAbortError = APIUserAbortError3;
Groq.NotFoundError = NotFoundError3;
Groq.ConflictError = ConflictError3;
Groq.RateLimitError = RateLimitError3;
Groq.BadRequestError = BadRequestError3;
Groq.AuthenticationError = AuthenticationError3;
Groq.InternalServerError = InternalServerError3;
Groq.PermissionDeniedError = PermissionDeniedError3;
Groq.UnprocessableEntityError = UnprocessableEntityError3;
Groq.toFile = toFile2;
Groq.fileFromPath = fileFromPath2;
var { GroqError: GroqError2, APIError: APIError4, APIConnectionError: APIConnectionError4, APIConnectionTimeoutError: APIConnectionTimeoutError4, APIUserAbortError: APIUserAbortError4, NotFoundError: NotFoundError4, ConflictError: ConflictError4, RateLimitError: RateLimitError4, BadRequestError: BadRequestError4, AuthenticationError: AuthenticationError4, InternalServerError: InternalServerError4, PermissionDeniedError: PermissionDeniedError4, UnprocessableEntityError: UnprocessableEntityError4 } = error_exports2;
(function(Groq2) {
Groq2.Completions = Completions5;
Groq2.Chat = Chat3;
Groq2.Embeddings = Embeddings2;
Groq2.Audio = Audio2;
Groq2.Models = Models2;
})(Groq || (Groq = {}));
var groq_sdk_default = Groq;
// src/complete/completers/groq/groq.tsx
var GroqModel = class {
constructor(provider_settings, id, name, description) {
this.rate_limit_notice = null;
this.rate_limit_notice_timeout = null;
this.Settings = SettingsUI10;
this.id = id;
this.name = name;
this.description = description;
this.provider_settings = parse_settings9(provider_settings);
this.cancel_generations = [];
this.groq = new groq_sdk_default({
apiKey: this.provider_settings.api_key,
dangerouslyAllowBrowser: true
});
}
async prepare(prompt, settings) {
const cropped = {
prefix: prompt.prefix.slice(-(settings.prompt_length || 6e3)),
suffix: prompt.suffix.slice(0, settings.prompt_length || 6e3)
};
const last_line = cropped.prefix.split("\n").filter((x2) => x2.length > 0).pop();
return {
...cropped,
last_line: last_line || "",
context: cropped.prefix.split("\n").filter((x2) => x2 !== last_line).join("\n")
};
}
formulate_system_message(settings) {
return settings.system_prompt.length ? [
{
role: "system",
content: settings.system_prompt
}
] : [];
}
formulate_messages(prompt, settings) {
return this.formulate_system_message(settings).concat([
{
role: "user",
content: mustache_default.render(settings.user_prompt, {
...prompt,
...settings
})
}
]);
}
async complete(prompt, settings) {
var _a3, _b;
const model_settings = parse_settings10(settings);
const chatCompletion = await this.groq.chat.completions.create({
messages: this.formulate_messages(
await this.prepare(prompt, model_settings),
model_settings
),
model: this.id,
temperature: model_settings.temperature,
max_tokens: model_settings.max_tokens
});
return this.interpret(
prompt,
((_b = (_a3 = chatCompletion.choices[0]) == null ? void 0 : _a3.message) == null ? void 0 : _b.content) || ""
);
}
async *iterate(prompt, settings) {
const model_settings = parse_settings10(settings);
const prompt_data = await this.prepare(
prompt,
parse_settings10(settings)
);
const chatCompletion = await this.groq.chat.completions.create({
messages: this.formulate_messages(prompt_data, model_settings),
model: this.id,
temperature: model_settings.temperature,
max_tokens: model_settings.max_tokens,
stream: true
});
let initialized = false;
let generated = "";
let started = false;
for await (const chunk of chatCompletion) {
let token = chunk.choices[0].delta.content || "";
generated += token;
if (prompt_data.last_line.includes(generated)) {
continue;
}
if (!started) {
for (let i = generated.length - 1; i >= 0; i--) {
if (prompt_data.last_line.endsWith(generated.slice(0, i))) {
token = generated.slice(i);
started = true;
break;
}
}
}
if (!token) {
continue;
}
if (!initialized) {
yield this.interpret(prompt, token);
initialized = true;
} else {
yield token;
}
}
}
interpret(prompt, completion) {
const response_punctuation = " \n.,?!:;";
const prompt_punctuation = " \n";
if (prompt.prefix.length !== 0 && !prompt_punctuation.includes(
prompt.prefix[prompt.prefix.length - 1]
) && !response_punctuation.includes(completion[0])) {
completion = " " + completion;
}
return completion;
}
};
var GroqComplete = class {
constructor() {
this.id = "groq";
this.name = "Groq";
this.description = "Groq API, for ultra-fast generation";
this.Settings = SettingsUI9;
}
async get_models(settings) {
const provider_settings = parse_settings9(settings);
const groq = new groq_sdk_default({
apiKey: provider_settings.api_key,
dangerouslyAllowBrowser: true
});
const models = await groq.models.list();
return models.data.map((model) => {
return new GroqModel(
settings,
model.id,
`${model.owned_by} ${model.id}`,
`${model.owned_by} ${model.id}`
);
});
}
};
// src/complete/completers.ts
var available = [
new ChatGPTComplete(),
new OpenAIComplete(),
new JurassicJ2Complete(),
new GooseAIComplete(),
new OobaboogaComplete(),
new OllamaComplete(),
new GroqComplete()
];
// src/settings/settings.tsx
var import_react5 = __toESM(require_react());
function Presets({
plugin,
setModel,
setProvider,
reload_signal
}) {
const [name, setName] = (0, import_react5.useState)("");
const [force_update, setForceUpdate] = (0, import_react5.useState)(0);
const savePreset = () => {
if (!name)
return;
plugin.savePreset(name);
setName("");
};
return /* @__PURE__ */ React15.createElement(React15.Fragment, null, /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Presets",
description: "\n Quickly switch between different settings."
}
), /* @__PURE__ */ React15.createElement(React15.Fragment, null, plugin.settings.presets.map((preset) => /* @__PURE__ */ React15.createElement(SettingsItem, { key: preset.name, name: preset.name }, /* @__PURE__ */ React15.createElement(
"div",
{
className: "checkbox-container" + (preset.enable_editor_command ? " is-enabled" : ""),
onClick: (_e) => {
preset.enable_editor_command = !preset.enable_editor_command;
plugin.saveSettings();
setForceUpdate(force_update + 1);
reload_signal.reload = true;
}
}
), "Command", /* @__PURE__ */ React15.createElement(
"button",
{
onClick: () => {
plugin.loadPreset(preset.name);
setProvider(preset.provider);
setModel(preset.model);
}
},
"Load"
), /* @__PURE__ */ React15.createElement(
"button",
{
onClick: () => {
plugin.deletePreset(preset.name);
setForceUpdate(force_update + 1);
}
},
"Delete"
)))), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Save preset",
description: "Save the current settings as a preset"
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "text",
placeholder: "Preset name",
value: name,
onChange: (e) => setName(e.target.value)
}
),
/* @__PURE__ */ React15.createElement("button", { onClick: savePreset }, "Save preset")
), plugin.settings.presets.length ? /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Fallback",
description: /* @__PURE__ */ React15.createElement(React15.Fragment, null, "You can use a preset as the fallback if the current model is not available, for example when you are rate limited.")
},
/* @__PURE__ */ React15.createElement(
"select",
{
className: "dropdown",
value: plugin.settings.fallback || "",
onChange: (e) => {
plugin.settings.fallback = e.target.value;
plugin.saveSettings();
setForceUpdate(force_update + 1);
}
},
/* @__PURE__ */ React15.createElement("option", { value: "" }, "Don't use a fallback"),
plugin.settings.presets.map((preset) => /* @__PURE__ */ React15.createElement("option", { value: preset.name }, preset.name))
)
) : null);
}
function ProviderModelChooser({
plugin,
reload_signal
}) {
const [provider, _setProvider] = (0, import_react5.useState)(null);
const [providerSettings, _setProviderSettings] = (0, import_react5.useState)(
null
);
const [available_models, setAvailableModels] = (0, import_react5.useState)([]);
const [model, _setModel] = (0, import_react5.useState)(null);
const [modelSettings, _setModelSettings] = (0, import_react5.useState)(null);
(0, import_react5.useEffect)(() => {
var _a3;
const candidates = available.filter(
(provider2) => provider2.id === plugin.settings.provider
);
_setProvider(candidates.length > 0 ? candidates[0] : available[0]);
_setProviderSettings(
(_a3 = plugin.settings.provider_settings[plugin.settings.provider]) == null ? void 0 : _a3.settings
);
}, [plugin.settings.provider]);
(0, import_react5.useEffect)(() => {
const fetch_model = async () => {
var _a3, _b;
if (!provider)
return;
setAvailableModels([]);
_setModel(null);
const available_models2 = await provider.get_models(
(_a3 = plugin.settings.provider_settings[provider.id]) == null ? void 0 : _a3.settings
);
setAvailableModels(available_models2);
const candidates = available_models2.filter(
(model2) => model2.id === plugin.settings.model
);
_setModel(
candidates.length > 0 ? candidates[0] : available_models2[0]
);
plugin.settings.model = candidates.length > 0 ? candidates[0].id : available_models2[0].id;
_setModelSettings(
(_b = plugin.settings.provider_settings[provider.id]) == null ? void 0 : _b.models[plugin.settings.model]
);
};
fetch_model();
}, [plugin.settings.model, provider, providerSettings]);
const setProvider = (provider_id) => {
var _a3;
_setProvider(
available.filter((provider2) => provider2.id === provider_id)[0]
);
_setProviderSettings(
(_a3 = plugin.settings.provider_settings[provider_id]) == null ? void 0 : _a3.settings
);
plugin.settings.provider = provider_id;
plugin.saveData(plugin.settings);
};
const setProviderSettings = (settings) => {
var _a3;
if (!provider)
return;
_setProviderSettings(settings);
plugin.settings.provider_settings[provider.id] = {
settings,
models: {
...(_a3 = plugin.settings.provider_settings[provider.id]) == null ? void 0 : _a3.models
}
};
plugin.models = [];
plugin.saveData(plugin.settings);
};
const setModel = (model_id) => {
var _a3;
if (!provider)
return;
_setModel(available_models.filter((model2) => model2.id === model_id)[0]);
plugin.settings.model = model_id;
_setModelSettings(
(_a3 = plugin.settings.provider_settings[provider.id]) == null ? void 0 : _a3.models[model_id]
);
plugin.saveData(plugin.settings);
};
const setModelSettings = (settings) => {
var _a3, _b;
if (!provider || !model)
return;
_setModelSettings(settings);
plugin.settings.provider_settings[provider.id] = {
settings: (_a3 = plugin.settings.provider_settings[provider.id]) == null ? void 0 : _a3.settings,
models: {
...(_b = plugin.settings.provider_settings[provider.id]) == null ? void 0 : _b.models,
[model.id]: settings
}
};
plugin.models = [];
plugin.saveData(plugin.settings);
};
const ProviderSettings4 = provider == null ? void 0 : provider.Settings;
const ModelSettings4 = model == null ? void 0 : model.Settings;
return /* @__PURE__ */ React15.createElement(React15.Fragment, null, /* @__PURE__ */ React15.createElement(React15.Fragment, null, /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Provider",
description: provider ? provider.description : ""
},
/* @__PURE__ */ React15.createElement(
"select",
{
className: "dropdown",
value: provider ? provider.id : "",
onChange: (e) => {
setProvider(e.target.value);
}
},
available.map((provider2) => /* @__PURE__ */ React15.createElement("option", { value: provider2.id }, provider2.name))
)
), ProviderSettings4 && /* @__PURE__ */ React15.createElement(
ProviderSettings4,
{
settings: providerSettings,
saveSettings: setProviderSettings
}
)), /* @__PURE__ */ React15.createElement(React15.Fragment, null, /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Model",
description: model ? model.description : ""
},
/* @__PURE__ */ React15.createElement(
"select",
{
className: "dropdown",
value: model ? model.id : "",
onChange: (e) => {
setModel(e.target.value);
}
},
provider && available_models.map((model2) => /* @__PURE__ */ React15.createElement("option", { value: model2.id }, model2.name))
)
), ModelSettings4 && /* @__PURE__ */ React15.createElement(
ModelSettings4,
{
settings: modelSettings,
saveSettings: setModelSettings
}
)), /* @__PURE__ */ React15.createElement(
Presets,
{
plugin,
setModel,
setProvider,
reload_signal
}
));
}
function AcceptSettingsComponent({
plugin,
reload_signal
}) {
const [accept_settings, _setAcceptSettings] = (0, import_react5.useState)(
plugin.settings.accept
);
const [delay, _setDelay] = (0, import_react5.useState)(plugin.settings.delay_ms);
const [keybind, _setKeybind] = (0, import_react5.useState)(plugin.settings.keybind);
const [expanded, setExpanded] = (0, import_react5.useState)(false);
const setAcceptSettings = (settings) => {
_setAcceptSettings(settings);
plugin.settings.accept = settings;
for (const model of plugin.models) {
model.cacher.accept_settings = settings;
}
plugin.saveData(plugin.settings);
};
const setDelay = (delay2) => {
_setDelay(delay2);
plugin.settings.delay_ms = delay2;
plugin.saveData(plugin.settings);
reload_signal.reload = true;
};
const setKeybind = (keybind2) => {
_setKeybind(keybind2);
plugin.settings.keybind = keybind2;
plugin.saveData(plugin.settings);
reload_signal.reload = true;
};
return /* @__PURE__ */ React15.createElement(React15.Fragment, null, /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Delay",
description: /* @__PURE__ */ React15.createElement(React15.Fragment, null, "The plugin will wait this long before getting a completion. The lower the delay, the faster the completions, but the more they cost.")
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "number",
value: delay,
onChange: (e) => {
setDelay(parseInt(e.target.value));
}
}
),
/* @__PURE__ */ React15.createElement("span", null, "ms")
), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Use a CodeMiror Keybind",
description: /* @__PURE__ */ React15.createElement(React15.Fragment, null, "Allows you to use simpler keybinds like ", /* @__PURE__ */ React15.createElement("code", null, "Tab"), " ", "but might not work with other plugins.")
},
/* @__PURE__ */ React15.createElement(
"div",
{
className: "checkbox-container" + (keybind !== null ? " is-enabled" : ""),
onClick: (_e) => {
setKeybind(keybind === null ? "Tab" : null);
}
}
)
), keybind === null ? null : /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "CodeMiror Keybind",
description: /* @__PURE__ */ React15.createElement(React15.Fragment, null, /* @__PURE__ */ React15.createElement("a", { href: "https://codemirror.net/docs/ref/#h_key_bindings" }, "Keybind format"))
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "text",
value: keybind || "",
onChange: (e) => {
setKeybind(e.target.value);
}
}
)
), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Accept",
description: /* @__PURE__ */ React15.createElement("div", { style: { minWidth: "max-content" } }, /* @__PURE__ */ React15.createElement("div", null, "These are presets."), /* @__PURE__ */ React15.createElement("div", { onClick: () => setExpanded(!expanded) }, expanded ? "\u25BE" : "\u25B8", " Advanced controls"))
},
/* @__PURE__ */ React15.createElement("div", { className: "ai-complete-accept-presets" }, /* @__PURE__ */ React15.createElement(
"button",
{
onClick: () => setAcceptSettings({
splitter_regex: " ",
display_splitter_regex: "[.?!:;]",
completion_completeness_regex: ".*(?!p{L})[^d]$",
min_accept_length: 4,
min_display_length: 50,
retrigger_threshold: 48
})
},
"One word at a time"
), /* @__PURE__ */ React15.createElement(
"button",
{
onClick: () => setAcceptSettings({
splitter_regex: "\\.",
display_splitter_regex: "[.?!:;]",
completion_completeness_regex: ".*[^d]$",
min_accept_length: 4,
min_display_length: 50,
retrigger_threshold: 128
})
},
"One sentence at a time"
), /* @__PURE__ */ React15.createElement(
"button",
{
onClick: () => setAcceptSettings({
splitter_regex: "\n",
display_splitter_regex: "\n",
completion_completeness_regex: ".*$",
min_accept_length: 4,
min_display_length: 50,
retrigger_threshold: 128
})
},
"One line at a time"
), /* @__PURE__ */ React15.createElement(
"button",
{
onClick: () => setAcceptSettings({
splitter_regex: "$",
display_splitter_regex: "$",
completion_completeness_regex: ".*",
min_accept_length: 0,
min_display_length: 0,
retrigger_threshold: 128
})
},
"Whole completion"
))
), expanded && /* @__PURE__ */ React15.createElement("div", { className: "ai-complete-advanced-settings" }, /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Splitter regex",
description: "Defines how to split the completion chunks;\n only one chunk is accepted at a time when the completion is triggered"
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "text",
value: accept_settings.splitter_regex,
onChange: (e) => {
setAcceptSettings({
...accept_settings,
splitter_regex: e.target.value
});
}
}
)
), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Preview splitter regex",
description: "Defines how to split the preview chunks;\n only one chunk is displayed at a time when the completion is triggered"
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "text",
value: accept_settings.display_splitter_regex,
onChange: (e) => {
setAcceptSettings({
...accept_settings,
display_splitter_regex: e.target.value
});
}
}
)
), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Completion completeness regex",
description: "If this is not matched, the last chunk\n (according to the preview splitter regex) is discarded"
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "text",
value: accept_settings.completion_completeness_regex,
onChange: (e) => {
setAcceptSettings({
...accept_settings,
completion_completeness_regex: e.target.value
});
}
}
)
), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Minimum completion length",
description: "Will complete the fewest chunks\n that add up to more than this many characters"
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "number",
value: accept_settings.min_accept_length,
onChange: (e) => {
setAcceptSettings({
...accept_settings,
min_accept_length: parseInt(e.target.value)
});
}
}
)
), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Minimum display length",
description: "Will display the fewest preview chunks\n that add up to more than this many characters"
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "number",
value: accept_settings.min_display_length,
onChange: (e) => {
setAcceptSettings({
...accept_settings,
min_display_length: parseInt(
e.target.value
)
});
}
}
)
), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Retrigger threshold",
description: "When this many characters is left,\n the API will be pinged again"
},
/* @__PURE__ */ React15.createElement(
"input",
{
type: "number",
value: accept_settings.retrigger_threshold,
onChange: (e) => {
setAcceptSettings({
...accept_settings,
retrigger_threshold: parseInt(
e.target.value
)
});
}
}
)
)));
}
function SettingsComponent({
plugin,
reload_signal
}) {
const [enable_by_default, setEnableByDefault] = (0, import_react5.useState)(
plugin.settings.enable_by_default
);
const [streaming_mode, setStreamingMode] = (0, import_react5.useState)(plugin.settings.stream);
return /* @__PURE__ */ React15.createElement(React15.Fragment, null, /* @__PURE__ */ React15.createElement(React15.Fragment, null, /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Enable by default",
description: /* @__PURE__ */ React15.createElement(React15.Fragment, null, "If the plugin isn't enabled by default, use Ctrl+P and search for Toggle Completion. You can also add a shortcut to it")
},
/* @__PURE__ */ React15.createElement(
"div",
{
className: "checkbox-container" + (enable_by_default ? " is-enabled" : ""),
onClick: (_e) => {
setEnableByDefault(!enable_by_default);
plugin.settings.enable_by_default = !enable_by_default;
plugin.saveData(plugin.settings);
}
}
)
), /* @__PURE__ */ React15.createElement(
SettingsItem,
{
name: "Streaming mode (experimental)",
description: /* @__PURE__ */ React15.createElement(React15.Fragment, null, "When enabled, the completion will be updated as it comes in, instead of waiting for the whole completion to be ready. This is useful for completions that take a long time to generate, but may produce buggy results in some cases.")
},
/* @__PURE__ */ React15.createElement(
"div",
{
className: "checkbox-container" + (streaming_mode ? " is-enabled" : ""),
onClick: (_e) => {
setStreamingMode(!streaming_mode);
plugin.settings.stream = !streaming_mode;
plugin.saveData(plugin.settings);
}
}
)
), /* @__PURE__ */ React15.createElement(
AcceptSettingsComponent,
{
plugin,
reload_signal
}
)), /* @__PURE__ */ React15.createElement(
ProviderModelChooser,
{
plugin,
reload_signal
}
));
}
// src/cache.ts
function findLastRegexIndex(regex, str2) {
let match;
let lastIndex = -1;
while ((match = regex.exec(str2)) !== null) {
lastIndex = match.index;
}
return lastIndex;
}
var ExhaustableConsumable = class {
constructor(exhausted = false) {
this.exhausted = false;
this.queue = [];
this.consumers = [];
this.exhausted = exhausted;
}
enqueue(item) {
this.queue.push(item);
const old_consumers = this.consumers;
this.consumers = [];
for (let consumer of old_consumers) {
consumer({ item });
}
}
exhaust() {
this.exhausted = true;
for (let consumer of this.consumers) {
consumer(null);
}
}
reset() {
this.consumers = [];
this.exhausted = false;
}
async *iter() {
for (let item of this.queue) {
yield item;
}
let next_items = [];
let next_item_promise = Promise.resolve();
const add_resolver = () => {
next_item_promise = new Promise((resolve) => {
this.consumers.push((item) => {
if (item === null) {
next_item_promise = null;
return resolve();
}
next_items.push(item);
add_resolver();
resolve();
});
});
};
add_resolver();
while (!this.exhausted && next_item_promise !== null) {
await next_item_promise;
while (next_items.length > 0) {
const next_item = next_items.shift();
if (next_item) {
yield next_item.item;
} else {
return;
}
}
}
}
};
var CompletionCacher = class {
constructor(model, model_settings, accept_settings, accept_with_obsidian) {
this.last_suggestion = "";
this.cache = /* @__PURE__ */ new Map();
this.model = model;
this.model_settings = model_settings;
this.accept_settings = accept_settings;
this.accept_with_obsidian = accept_with_obsidian;
}
get_cached_queue(prompt) {
for (let [cached_prompt, cached_suggestions] of this.cache) {
const cached_prompt_and_continuation = cached_prompt.prefix + cached_suggestions.queue.join("");
if (prompt.suffix != cached_prompt.suffix) {
continue;
}
if (!prompt.prefix.startsWith(cached_prompt.prefix) || !cached_prompt_and_continuation.startsWith(prompt.prefix)) {
continue;
}
return [cached_prompt, cached_suggestions];
}
return null;
}
async fetch(prompt, stream) {
if (this.model.iterate && stream) {
await this.fetch_iteratively(prompt);
}
await this.fetch_blockwise(prompt);
}
async fetch_iteratively(prompt) {
var _a3, _b;
if (!this.model.iterate) {
return;
}
const queue = (_b = (_a3 = this.get_cached_queue(prompt)) == null ? void 0 : _a3[1]) != null ? _b : this.cache.set(prompt, new ExhaustableConsumable()).get(prompt);
if (!queue.exhausted)
return;
queue.reset();
for await (const token of this.model.iterate(
{
prefix: prompt.prefix + queue.queue.join(""),
suffix: prompt.suffix
},
this.model_settings
)) {
queue.enqueue(token);
}
queue.exhaust();
}
async fetch_blockwise(prompt) {
var _a3, _b;
const queue = (_b = (_a3 = this.get_cached_queue(prompt)) == null ? void 0 : _a3[1]) != null ? _b : this.cache.set(prompt, new ExhaustableConsumable()).get(prompt);
if (!queue.exhausted)
return;
queue.reset();
const completion = await this.model.complete(
{
prefix: prompt.prefix + queue.queue.join(""),
suffix: prompt.suffix
},
this.model_settings
);
if (completion == null) {
return;
}
queue.enqueue(completion);
queue.exhaust();
}
ensure_fetched(prompt, queue, stream) {
if (queue.queue.length > 0) {
return;
}
this.fetch(prompt, stream);
}
async *complete(prompt, stream = true) {
var _a3;
const [starting_prompt, queue] = (_a3 = this.get_cached_queue(prompt)) != null ? _a3 : [
prompt,
this.cache.set(prompt, new ExhaustableConsumable(true)).get(prompt)
];
this.ensure_fetched(prompt, queue, stream);
let completion = "";
let need_continuation = false;
for await (const token of queue.iter()) {
need_continuation = false;
completion += token;
const suggestion = this.suggestion_from_completion(
completion.slice(
prompt.prefix.length - starting_prompt.prefix.length
),
() => {
need_continuation = true;
}
);
if (suggestion == null) {
continue;
}
yield this.strip(suggestion);
}
if (need_continuation)
this.fetch(prompt, stream);
}
strip(suggestion) {
this.last_suggestion = suggestion.complete_suggestion;
if (this.accept_with_obsidian) {
return {
display_suggestion: suggestion.display_suggestion,
complete_suggestion: ""
};
}
return suggestion;
}
suggestion_from_completion(completion, launch_refetch) {
if (completion.length == 0) {
return null;
}
let partial_completion = new RegExp(
this.accept_settings.completion_completeness_regex
).test(completion) ? completion : completion.slice(
0,
findLastRegexIndex(
new RegExp(this.accept_settings.splitter_regex, "gi"),
completion
)
);
const display_splitter_match = completion.slice(this.accept_settings.min_display_length).match(new RegExp(this.accept_settings.display_splitter_regex));
const display_splitter_index = display_splitter_match && display_splitter_match.index != void 0 ? display_splitter_match.index + display_splitter_match.length + 50 : -1;
partial_completion = partial_completion.slice(
0,
display_splitter_index
);
const complete_splitter_match = completion.slice(this.accept_settings.min_accept_length).match(new RegExp(this.accept_settings.splitter_regex));
const complete_splitter_index = complete_splitter_match && complete_splitter_match.index != void 0 ? complete_splitter_match.index + this.accept_settings.min_accept_length : void 0;
const first_word = completion.slice(0, complete_splitter_index);
if (partial_completion.length - first_word.length < 48) {
launch_refetch == null ? void 0 : launch_refetch();
}
return {
display_suggestion: partial_completion.length > 0 ? partial_completion : completion,
complete_suggestion: first_word
};
}
};
// src/main.tsx
var DEFAULT_SETTINGS = {
provider: "openai-chatgpt",
model: "gpt3.5-turbo",
enable_by_default: false,
keybind: "Tab",
delay_ms: 2e3,
stream: true,
accept: {
splitter_regex: " ",
display_splitter_regex: "[.?!:;]",
completion_completeness_regex: ".*(?!p{L})[^d]$",
min_accept_length: 4,
min_display_length: 50,
retrigger_threshold: 48
},
provider_settings: {},
presets: [],
fallback: null
};
var Companion = class extends import_obsidian4.Plugin {
constructor() {
super(...arguments);
this.enabled = false;
this.force_fetch = () => {
};
this.last_used_model = null;
this.models = [];
this.statusBarItemEl = null;
}
async setupModelChoice() {
await this.loadSettings();
this.enabled = this.settings.enable_by_default;
this.addCommand({
id: "load-preset",
name: "Load preset",
callback: () => {
new PresetChooserModal(this).open();
}
});
for (const preset of this.settings.presets) {
if (!preset.enable_editor_command)
continue;
this.addCommand({
id: `load-preset-${preset.name}`,
name: `Load preset: ${preset.name}`,
callback: () => {
this.loadPreset(preset.name);
}
});
}
}
async setupToggle() {
this.addRibbonIcon(
"terminal",
"Toggle completion",
(_evt) => {
this.enabled = !this.enabled;
this.fillStatusbar();
new import_obsidian4.Notice(
`Completion is now ${this.enabled ? "enabled" : "disabled"}`
);
}
);
this.addCommand({
id: "toggle",
name: "Toggle completion",
callback: () => {
this.enabled = !this.enabled;
this.fillStatusbar();
new import_obsidian4.Notice(
`Completion is now ${this.enabled ? "enabled" : "disabled"}`
);
}
});
}
async setupSuggestions() {
const { extension, force_fetch } = K({
fetchFn: () => this.triggerCompletion(),
delay: this.settings.delay_ms,
continue_suggesting: true,
accept_shortcut: this.settings.keybind
});
this.force_fetch = force_fetch;
this.registerEditorExtension(extension);
}
async setupStatusbar() {
this.statusBarItemEl = this.addStatusBarItem();
this.fillStatusbar();
}
async setupSuggestionCommands() {
this.addCommand({
id: "accept",
name: "Accept completion",
editorCallback: (editor) => this.acceptCompletion(editor)
});
this.addCommand({
id: "suggest",
name: "Generate completion",
editorCallback: () => this.force_fetch()
});
}
async onload() {
await this.setupModelChoice();
await this.setupToggle();
await this.setupSuggestions();
await this.setupStatusbar();
await this.setupSuggestionCommands();
this.addSettingTab(new CompanionSettingsTab(this.app, this));
}
onunload() {
}
fillStatusbar() {
if (!this.statusBarItemEl)
return;
this.statusBarItemEl.setText(
`Completion: ${this.enabled ? "enabled" : "disabled"}`
);
}
loadPreset(name) {
const preset = this.settings.presets.find(
(preset2) => preset2.name == name
);
if (!preset)
return;
this.settings.provider = preset.provider;
this.settings.model = preset.model;
this.settings.provider_settings[preset.provider] = {
settings: preset.provider_settings,
models: {
[preset.model]: preset.model_settings
}
};
this.saveSettings();
}
savePreset(name) {
const preset = this.settings.presets.find(
(preset2) => preset2.name == name
);
if (preset) {
preset.provider = this.settings.provider;
preset.model = this.settings.model;
preset.provider_settings = this.settings.provider_settings[this.settings.provider].settings;
preset.model_settings = this.settings.provider_settings[this.settings.provider].models[this.settings.model];
} else {
this.settings.presets.push({
name,
provider: this.settings.provider,
model: this.settings.model,
provider_settings: this.settings.provider_settings[this.settings.provider].settings,
model_settings: this.settings.provider_settings[this.settings.provider].models[this.settings.model],
enable_editor_command: false
});
}
this.saveSettings();
}
deletePreset(name) {
this.settings.presets = this.settings.presets.filter(
(preset) => preset.name != name
);
this.saveSettings();
}
async loadSettings() {
this.settings = Object.assign(
{},
DEFAULT_SETTINGS,
await this.loadData()
);
}
async saveSettings() {
await this.saveData(this.settings);
}
async *triggerCompletion() {
var _a3, _b, _c, _d;
const view = this.app.workspace.getActiveViewOfType(import_obsidian4.MarkdownView);
if (!view)
return;
if (!this.enabled)
return;
if (((_d = (_c = (_b = (_a3 = view.editor) == null ? void 0 : _a3.cm) == null ? void 0 : _b.cm) == null ? void 0 : _c.state) == null ? void 0 : _d.keyMap) === "vim") {
return;
}
const cursor = view.editor.getCursor();
const currentLine = view.editor.getLine(cursor.line);
if (!currentLine.length) {
yield {
display_suggestion: "",
complete_suggestion: ""
};
return;
}
const prefix = view.editor.getRange({ line: 0, ch: 0 }, cursor);
const suffix = view.editor.getRange(cursor, {
line: view.editor.lastLine(),
ch: view.editor.getLine(view.editor.lastLine()).length
});
yield* this.complete(prefix, suffix);
}
async acceptCompletion(editor) {
var _a3;
const suggestion = (_a3 = this.last_used_model) == null ? void 0 : _a3.last_suggestion;
if (suggestion) {
editor.replaceRange(suggestion, editor.getCursor());
editor.setCursor({
ch: suggestion.split("\n").length > 1 ? suggestion.split("\n")[suggestion.split("\n").length - 1].length : editor.getCursor().ch + suggestion.length,
line: editor.getCursor().line + suggestion.split("\n").length - 1
});
this.force_fetch();
}
}
async get_model(provider, model) {
for (const cached_model of this.models) {
if (cached_model.provider === provider && cached_model.model === model) {
return cached_model.cacher;
}
}
const available_provider = available.find(
(available_provider2) => available_provider2.id === provider
);
if (!available_provider)
return null;
const provider_settings = this.settings.provider_settings[provider];
const available_models = await available_provider.get_models(
provider_settings ? provider_settings.settings : ""
);
const available_model = available_models.find(
(available_model2) => available_model2.id == model
);
if (!available_model)
return null;
const cached = new CompletionCacher(
available_model,
provider_settings ? provider_settings.models[available_model.id] : "",
this.settings.accept,
this.settings.keybind == null
);
this.models.push({
provider,
model: available_model.id,
cacher: cached
});
return cached;
}
async load_model(model) {
var _a3, _b, _c, _d, _e, _f;
if (((_a3 = this.last_used_model) == null ? void 0 : _a3.model.id) === model.model.id)
return;
await ((_d = (_c = (_b = this.last_used_model) == null ? void 0 : _b.model) == null ? void 0 : _c.unload) == null ? void 0 : _d.call(_c));
await ((_f = (_e = model == null ? void 0 : model.model) == null ? void 0 : _e.load) == null ? void 0 : _f.call(_e));
}
async *_complete(prefix, suffix, provider, model) {
const cacher = await this.get_model(provider, model);
if (!cacher)
throw { name: "ModelNotFound" };
await this.load_model(cacher);
for await (let completion of cacher.complete(
{
prefix,
suffix
},
this.settings.stream
)) {
this.last_used_model = cacher;
yield completion;
}
}
async select_first_available_model() {
const provider = available.find(
(provider2) => provider2.id === this.settings.provider
);
const provider_settings = this.settings.provider_settings[this.settings.provider];
this.settings.model = await (provider == null ? void 0 : provider.get_models(
provider_settings ? provider_settings.settings : ""
).then((models) => models[0].id)) || "";
}
async *fallback_complete(prefix, suffix) {
if (this.settings.fallback) {
try {
const fallback = this.settings.presets.find(
(preset) => preset.name === this.settings.fallback
);
if (!fallback)
return;
const completion = this._complete(
prefix,
suffix,
fallback.provider,
fallback.model
);
if (!completion)
return;
yield* completion;
} catch (e) {
new import_obsidian4.Notice(`Error completing (fallback): ${e.message}`);
}
}
}
async *complete(prefix, suffix) {
try {
try {
const completion = this._complete(
prefix,
suffix,
this.settings.provider,
this.settings.model
);
yield* completion;
} catch (e) {
if (e.name === "ModelNotFound") {
this.select_first_available_model();
yield* this.complete(prefix, suffix);
return;
}
throw e;
}
} catch (e) {
if (e.message) {
new import_obsidian4.Notice(`Error completing: ${e.message}`);
}
return this.fallback_complete(prefix, suffix);
}
}
};
var PresetChooserModal = class extends import_obsidian4.FuzzySuggestModal {
constructor(plugin) {
super(plugin.app);
this.plugin = plugin;
}
getItems() {
return this.plugin.settings.presets;
}
getItemText(item) {
return item.name;
}
onChooseItem(preset, _evt) {
this.plugin.loadPreset(preset.name);
new import_obsidian4.Notice("Loaded preset " + preset.name);
}
};
var CompanionSettingsTab = class extends import_obsidian4.PluginSettingTab {
constructor(app, plugin) {
super(app, plugin);
this.plugin = plugin;
this.reload_signal = { reload: false };
}
display() {
const { containerEl } = this;
this.reload_signal.reload = false;
this.root = (0, import_client.createRoot)(containerEl);
this.root.render(
/* @__PURE__ */ import_react6.default.createElement(import_react6.default.StrictMode, null, /* @__PURE__ */ import_react6.default.createElement(
SettingsComponent,
{
plugin: this.plugin,
reload_signal: this.reload_signal
}
))
);
}
hide() {
this.root.unmount();
super.hide();
if (this.reload_signal.reload) {
this.reload_signal.reload = false;
const reload = async () => {
const app = this.plugin.app;
await app.plugins.disablePlugin("companion");
await app.plugins.enablePlugin("companion");
};
reload();
}
}
};
/*! Bundled license information:
react/cjs/react.development.js:
(**
* @license React
* react.development.js
*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
scheduler/cjs/scheduler.development.js:
(**
* @license React
* scheduler.development.js
*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
react-dom/cjs/react-dom.development.js:
(**
* @license React
* react-dom.development.js
*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
(**
* Checks if an event is supported in the current execution environment.
*
* NOTE: This will not work correctly for non-generic events such as `change`,
* `reset`, `load`, `error`, and `select`.
*
* Borrows from Modernizr.
*
* @param {string} eventNameSuffix Event name, e.g. "click".
* @return {boolean} True if the event is supported.
* @internal
* @license Modernizr 3.0.0pre (Custom Build) | MIT
*)
mustache/mustache.mjs:
(*!
* mustache.js - Logic-less {{mustache}} templates with JavaScript
* http://github.com/janl/mustache.js
*)
*/
/* nosourcemap */
Reference in a new issue Copy permalink