Server IP : 85.214.239.14 / Your IP : 3.14.255.58 Web Server : Apache/2.4.62 (Debian) System : Linux h2886529.stratoserver.net 4.9.0 #1 SMP Tue Jan 9 19:45:01 MSK 2024 x86_64 User : www-data ( 33) PHP Version : 7.4.18 Disable Function : pcntl_alarm,pcntl_fork,pcntl_waitpid,pcntl_wait,pcntl_wifexited,pcntl_wifstopped,pcntl_wifsignaled,pcntl_wifcontinued,pcntl_wexitstatus,pcntl_wtermsig,pcntl_wstopsig,pcntl_signal,pcntl_signal_get_handler,pcntl_signal_dispatch,pcntl_get_last_error,pcntl_strerror,pcntl_sigprocmask,pcntl_sigwaitinfo,pcntl_sigtimedwait,pcntl_exec,pcntl_getpriority,pcntl_setpriority,pcntl_async_signals,pcntl_unshare, MySQL : OFF | cURL : OFF | WGET : ON | Perl : ON | Python : ON | Sudo : ON | Pkexec : OFF Directory : /proc/2/root/proc/3/task/3/root/proc/2/cwd/var/www/wordpress/wp-includes/js/dist/ |
Upload File : |
/******/ (() => { // webpackBootstrap /******/ "use strict"; /******/ var __webpack_modules__ = ({ /***/ 66: /***/ ((module) => { var isMergeableObject = function isMergeableObject(value) { return isNonNullObject(value) && !isSpecial(value) }; function isNonNullObject(value) { return !!value && typeof value === 'object' } function isSpecial(value) { var stringValue = Object.prototype.toString.call(value); return stringValue === '[object RegExp]' || stringValue === '[object Date]' || isReactElement(value) } // see https://github.com/facebook/react/blob/b5ac963fb791d1298e7f396236383bc955f916c1/src/isomorphic/classic/element/ReactElement.js#L21-L25 var canUseSymbol = typeof Symbol === 'function' && Symbol.for; var REACT_ELEMENT_TYPE = canUseSymbol ? Symbol.for('react.element') : 0xeac7; function isReactElement(value) { return value.$$typeof === REACT_ELEMENT_TYPE } function emptyTarget(val) { return Array.isArray(val) ? [] : {} } function cloneUnlessOtherwiseSpecified(value, options) { return (options.clone !== false && options.isMergeableObject(value)) ? deepmerge(emptyTarget(value), value, options) : value } function defaultArrayMerge(target, source, options) { return target.concat(source).map(function(element) { return cloneUnlessOtherwiseSpecified(element, options) }) } function getMergeFunction(key, options) { if (!options.customMerge) { return deepmerge } var customMerge = options.customMerge(key); return typeof customMerge === 'function' ? customMerge : deepmerge } function getEnumerableOwnPropertySymbols(target) { return Object.getOwnPropertySymbols ? Object.getOwnPropertySymbols(target).filter(function(symbol) { return Object.propertyIsEnumerable.call(target, symbol) }) : [] } function getKeys(target) { return Object.keys(target).concat(getEnumerableOwnPropertySymbols(target)) } function propertyIsOnObject(object, property) { try { return property in object } catch(_) { return false } } // Protects from prototype poisoning and unexpected merging up the prototype chain. function propertyIsUnsafe(target, key) { return propertyIsOnObject(target, key) // Properties are safe to merge if they don't exist in the target yet, && !(Object.hasOwnProperty.call(target, key) // unsafe if they exist up the prototype chain, && Object.propertyIsEnumerable.call(target, key)) // and also unsafe if they're nonenumerable. } function mergeObject(target, source, options) { var destination = {}; if (options.isMergeableObject(target)) { getKeys(target).forEach(function(key) { destination[key] = cloneUnlessOtherwiseSpecified(target[key], options); }); } getKeys(source).forEach(function(key) { if (propertyIsUnsafe(target, key)) { return } if (propertyIsOnObject(target, key) && options.isMergeableObject(source[key])) { destination[key] = getMergeFunction(key, options)(target[key], source[key], options); } else { destination[key] = cloneUnlessOtherwiseSpecified(source[key], options); } }); return destination } function deepmerge(target, source, options) { options = options || {}; options.arrayMerge = options.arrayMerge || defaultArrayMerge; options.isMergeableObject = options.isMergeableObject || isMergeableObject; // cloneUnlessOtherwiseSpecified is added to `options` so that custom arrayMerge() // implementations can use it. The caller may not replace it. options.cloneUnlessOtherwiseSpecified = cloneUnlessOtherwiseSpecified; var sourceIsArray = Array.isArray(source); var targetIsArray = Array.isArray(target); var sourceAndTargetTypesMatch = sourceIsArray === targetIsArray; if (!sourceAndTargetTypesMatch) { return cloneUnlessOtherwiseSpecified(source, options) } else if (sourceIsArray) { return options.arrayMerge(target, source, options) } else { return mergeObject(target, source, options) } } deepmerge.all = function deepmergeAll(array, options) { if (!Array.isArray(array)) { throw new Error('first argument should be an array') } return array.reduce(function(prev, next) { return deepmerge(prev, next, options) }, {}) }; var deepmerge_1 = deepmerge; module.exports = deepmerge_1; /***/ }), /***/ 3249: /***/ ((module) => { function _typeof(obj) { if (typeof Symbol === "function" && typeof Symbol.iterator === "symbol") { _typeof = function (obj) { return typeof obj; }; } else { _typeof = function (obj) { return obj && typeof Symbol === "function" && obj.constructor === Symbol && obj !== Symbol.prototype ? "symbol" : typeof obj; }; } return _typeof(obj); } function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; } /** * Given an instance of EquivalentKeyMap, returns its internal value pair tuple * for a key, if one exists. The tuple members consist of the last reference * value for the key (used in efficient subsequent lookups) and the value * assigned for the key at the leaf node. * * @param {EquivalentKeyMap} instance EquivalentKeyMap instance. * @param {*} key The key for which to return value pair. * * @return {?Array} Value pair, if exists. */ function getValuePair(instance, key) { var _map = instance._map, _arrayTreeMap = instance._arrayTreeMap, _objectTreeMap = instance._objectTreeMap; // Map keeps a reference to the last object-like key used to set the // value, which can be used to shortcut immediately to the value. if (_map.has(key)) { return _map.get(key); } // Sort keys to ensure stable retrieval from tree. var properties = Object.keys(key).sort(); // Tree by type to avoid conflicts on numeric object keys, empty value. var map = Array.isArray(key) ? _arrayTreeMap : _objectTreeMap; for (var i = 0; i < properties.length; i++) { var property = properties[i]; map = map.get(property); if (map === undefined) { return; } var propertyValue = key[property]; map = map.get(propertyValue); if (map === undefined) { return; } } var valuePair = map.get('_ekm_value'); if (!valuePair) { return; } // If reached, it implies that an object-like key was set with another // reference, so delete the reference and replace with the current. _map.delete(valuePair[0]); valuePair[0] = key; map.set('_ekm_value', valuePair); _map.set(key, valuePair); return valuePair; } /** * Variant of a Map object which enables lookup by equivalent (deeply equal) * object and array keys. */ var EquivalentKeyMap = /*#__PURE__*/ function () { /** * Constructs a new instance of EquivalentKeyMap. * * @param {Iterable.<*>} iterable Initial pair of key, value for map. */ function EquivalentKeyMap(iterable) { _classCallCheck(this, EquivalentKeyMap); this.clear(); if (iterable instanceof EquivalentKeyMap) { // Map#forEach is only means of iterating with support for IE11. var iterablePairs = []; iterable.forEach(function (value, key) { iterablePairs.push([key, value]); }); iterable = iterablePairs; } if (iterable != null) { for (var i = 0; i < iterable.length; i++) { this.set(iterable[i][0], iterable[i][1]); } } } /** * Accessor property returning the number of elements. * * @return {number} Number of elements. */ _createClass(EquivalentKeyMap, [{ key: "set", /** * Add or update an element with a specified key and value. * * @param {*} key The key of the element to add. * @param {*} value The value of the element to add. * * @return {EquivalentKeyMap} Map instance. */ value: function set(key, value) { // Shortcut non-object-like to set on internal Map. if (key === null || _typeof(key) !== 'object') { this._map.set(key, value); return this; } // Sort keys to ensure stable assignment into tree. var properties = Object.keys(key).sort(); var valuePair = [key, value]; // Tree by type to avoid conflicts on numeric object keys, empty value. var map = Array.isArray(key) ? this._arrayTreeMap : this._objectTreeMap; for (var i = 0; i < properties.length; i++) { var property = properties[i]; if (!map.has(property)) { map.set(property, new EquivalentKeyMap()); } map = map.get(property); var propertyValue = key[property]; if (!map.has(propertyValue)) { map.set(propertyValue, new EquivalentKeyMap()); } map = map.get(propertyValue); } // If an _ekm_value exists, there was already an equivalent key. Before // overriding, ensure that the old key reference is removed from map to // avoid memory leak of accumulating equivalent keys. This is, in a // sense, a poor man's WeakMap, while still enabling iterability. var previousValuePair = map.get('_ekm_value'); if (previousValuePair) { this._map.delete(previousValuePair[0]); } map.set('_ekm_value', valuePair); this._map.set(key, valuePair); return this; } /** * Returns a specified element. * * @param {*} key The key of the element to return. * * @return {?*} The element associated with the specified key or undefined * if the key can't be found. */ }, { key: "get", value: function get(key) { // Shortcut non-object-like to get from internal Map. if (key === null || _typeof(key) !== 'object') { return this._map.get(key); } var valuePair = getValuePair(this, key); if (valuePair) { return valuePair[1]; } } /** * Returns a boolean indicating whether an element with the specified key * exists or not. * * @param {*} key The key of the element to test for presence. * * @return {boolean} Whether an element with the specified key exists. */ }, { key: "has", value: function has(key) { if (key === null || _typeof(key) !== 'object') { return this._map.has(key); } // Test on the _presence_ of the pair, not its value, as even undefined // can be a valid member value for a key. return getValuePair(this, key) !== undefined; } /** * Removes the specified element. * * @param {*} key The key of the element to remove. * * @return {boolean} Returns true if an element existed and has been * removed, or false if the element does not exist. */ }, { key: "delete", value: function _delete(key) { if (!this.has(key)) { return false; } // This naive implementation will leave orphaned child trees. A better // implementation should traverse and remove orphans. this.set(key, undefined); return true; } /** * Executes a provided function once per each key/value pair, in insertion * order. * * @param {Function} callback Function to execute for each element. * @param {*} thisArg Value to use as `this` when executing * `callback`. */ }, { key: "forEach", value: function forEach(callback) { var _this = this; var thisArg = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : this; this._map.forEach(function (value, key) { // Unwrap value from object-like value pair. if (key !== null && _typeof(key) === 'object') { value = value[1]; } callback.call(thisArg, value, key, _this); }); } /** * Removes all elements. */ }, { key: "clear", value: function clear() { this._map = new Map(); this._arrayTreeMap = new Map(); this._objectTreeMap = new Map(); } }, { key: "size", get: function get() { return this._map.size; } }]); return EquivalentKeyMap; }(); module.exports = EquivalentKeyMap; /***/ }) /******/ }); /************************************************************************/ /******/ // The module cache /******/ var __webpack_module_cache__ = {}; /******/ /******/ // The require function /******/ function __webpack_require__(moduleId) { /******/ // Check if module is in cache /******/ var cachedModule = __webpack_module_cache__[moduleId]; /******/ if (cachedModule !== undefined) { /******/ return cachedModule.exports; /******/ } /******/ // Create a new module (and put it into the cache) /******/ var module = __webpack_module_cache__[moduleId] = { /******/ // no module.id needed /******/ // no module.loaded needed /******/ exports: {} /******/ }; /******/ /******/ // Execute the module function /******/ __webpack_modules__[moduleId](module, module.exports, __webpack_require__); /******/ /******/ // Return the exports of the module /******/ return module.exports; /******/ } /******/ /************************************************************************/ /******/ /* webpack/runtime/compat get default export */ /******/ (() => { /******/ // getDefaultExport function for compatibility with non-harmony modules /******/ __webpack_require__.n = (module) => { /******/ var getter = module && module.__esModule ? /******/ () => (module['default']) : /******/ () => (module); /******/ __webpack_require__.d(getter, { a: getter }); /******/ return getter; /******/ }; /******/ })(); /******/ /******/ /* webpack/runtime/define property getters */ /******/ (() => { /******/ // define getter functions for harmony exports /******/ __webpack_require__.d = (exports, definition) => { /******/ for(var key in definition) { /******/ if(__webpack_require__.o(definition, key) && !__webpack_require__.o(exports, key)) { /******/ Object.defineProperty(exports, key, { enumerable: true, get: definition[key] }); /******/ } /******/ } /******/ }; /******/ })(); /******/ /******/ /* webpack/runtime/hasOwnProperty shorthand */ /******/ (() => { /******/ __webpack_require__.o = (obj, prop) => (Object.prototype.hasOwnProperty.call(obj, prop)) /******/ })(); /******/ /******/ /* webpack/runtime/make namespace object */ /******/ (() => { /******/ // define __esModule on exports /******/ __webpack_require__.r = (exports) => { /******/ if(typeof Symbol !== 'undefined' && Symbol.toStringTag) { /******/ Object.defineProperty(exports, Symbol.toStringTag, { value: 'Module' }); /******/ } /******/ Object.defineProperty(exports, '__esModule', { value: true }); /******/ }; /******/ })(); /******/ /************************************************************************/ var __webpack_exports__ = {}; // This entry need to be wrapped in an IIFE because it need to be isolated against other modules in the chunk. (() => { // ESM COMPAT FLAG __webpack_require__.r(__webpack_exports__); // EXPORTS __webpack_require__.d(__webpack_exports__, { AsyncModeProvider: () => (/* reexport */ async_mode_provider_context), RegistryConsumer: () => (/* reexport */ RegistryConsumer), RegistryProvider: () => (/* reexport */ context), combineReducers: () => (/* binding */ build_module_combineReducers), controls: () => (/* reexport */ controls), createReduxStore: () => (/* reexport */ createReduxStore), createRegistry: () => (/* reexport */ createRegistry), createRegistryControl: () => (/* reexport */ createRegistryControl), createRegistrySelector: () => (/* reexport */ createRegistrySelector), createSelector: () => (/* reexport */ rememo), dispatch: () => (/* reexport */ dispatch_dispatch), plugins: () => (/* reexport */ plugins_namespaceObject), register: () => (/* binding */ register), registerGenericStore: () => (/* binding */ registerGenericStore), registerStore: () => (/* binding */ registerStore), resolveSelect: () => (/* binding */ build_module_resolveSelect), select: () => (/* reexport */ select_select), subscribe: () => (/* binding */ subscribe), suspendSelect: () => (/* binding */ suspendSelect), use: () => (/* binding */ use), useDispatch: () => (/* reexport */ use_dispatch), useRegistry: () => (/* reexport */ useRegistry), useSelect: () => (/* reexport */ useSelect), useSuspenseSelect: () => (/* reexport */ useSuspenseSelect), withDispatch: () => (/* reexport */ with_dispatch), withRegistry: () => (/* reexport */ with_registry), withSelect: () => (/* reexport */ with_select) }); // NAMESPACE OBJECT: ./node_modules/@wordpress/data/build-module/redux-store/metadata/selectors.js var selectors_namespaceObject = {}; __webpack_require__.r(selectors_namespaceObject); __webpack_require__.d(selectors_namespaceObject, { countSelectorsByStatus: () => (countSelectorsByStatus), getCachedResolvers: () => (getCachedResolvers), getIsResolving: () => (getIsResolving), getResolutionError: () => (getResolutionError), getResolutionState: () => (getResolutionState), hasFinishedResolution: () => (hasFinishedResolution), hasResolutionFailed: () => (hasResolutionFailed), hasResolvingSelectors: () => (hasResolvingSelectors), hasStartedResolution: () => (hasStartedResolution), isResolving: () => (isResolving) }); // NAMESPACE OBJECT: ./node_modules/@wordpress/data/build-module/redux-store/metadata/actions.js var actions_namespaceObject = {}; __webpack_require__.r(actions_namespaceObject); __webpack_require__.d(actions_namespaceObject, { failResolution: () => (failResolution), failResolutions: () => (failResolutions), finishResolution: () => (finishResolution), finishResolutions: () => (finishResolutions), invalidateResolution: () => (invalidateResolution), invalidateResolutionForStore: () => (invalidateResolutionForStore), invalidateResolutionForStoreSelector: () => (invalidateResolutionForStoreSelector), startResolution: () => (startResolution), startResolutions: () => (startResolutions) }); // NAMESPACE OBJECT: ./node_modules/@wordpress/data/build-module/plugins/index.js var plugins_namespaceObject = {}; __webpack_require__.r(plugins_namespaceObject); __webpack_require__.d(plugins_namespaceObject, { persistence: () => (persistence) }); ;// CONCATENATED MODULE: external ["wp","deprecated"] const external_wp_deprecated_namespaceObject = window["wp"]["deprecated"]; var external_wp_deprecated_default = /*#__PURE__*/__webpack_require__.n(external_wp_deprecated_namespaceObject); ;// CONCATENATED MODULE: ./node_modules/@babel/runtime/helpers/esm/typeof.js function _typeof(o) { "@babel/helpers - typeof"; return _typeof = "function" == typeof Symbol && "symbol" == typeof Symbol.iterator ? function (o) { return typeof o; } : function (o) { return o && "function" == typeof Symbol && o.constructor === Symbol && o !== Symbol.prototype ? "symbol" : typeof o; }, _typeof(o); } ;// CONCATENATED MODULE: ./node_modules/@babel/runtime/helpers/esm/toPrimitive.js function _toPrimitive(input, hint) { if (_typeof(input) !== "object" || input === null) return input; var prim = input[Symbol.toPrimitive]; if (prim !== undefined) { var res = prim.call(input, hint || "default"); if (_typeof(res) !== "object") return res; throw new TypeError("@@toPrimitive must return a primitive value."); } return (hint === "string" ? String : Number)(input); } ;// CONCATENATED MODULE: ./node_modules/@babel/runtime/helpers/esm/toPropertyKey.js function _toPropertyKey(arg) { var key = _toPrimitive(arg, "string"); return _typeof(key) === "symbol" ? key : String(key); } ;// CONCATENATED MODULE: ./node_modules/@babel/runtime/helpers/esm/defineProperty.js function _defineProperty(obj, key, value) { key = _toPropertyKey(key); if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; } ;// CONCATENATED MODULE: ./node_modules/@babel/runtime/helpers/esm/objectSpread2.js function ownKeys(e, r) { var t = Object.keys(e); if (Object.getOwnPropertySymbols) { var o = Object.getOwnPropertySymbols(e); r && (o = o.filter(function (r) { return Object.getOwnPropertyDescriptor(e, r).enumerable; })), t.push.apply(t, o); } return t; } function _objectSpread2(e) { for (var r = 1; r < arguments.length; r++) { var t = null != arguments[r] ? arguments[r] : {}; r % 2 ? ownKeys(Object(t), !0).forEach(function (r) { _defineProperty(e, r, t[r]); }) : Object.getOwnPropertyDescriptors ? Object.defineProperties(e, Object.getOwnPropertyDescriptors(t)) : ownKeys(Object(t)).forEach(function (r) { Object.defineProperty(e, r, Object.getOwnPropertyDescriptor(t, r)); }); } return e; } ;// CONCATENATED MODULE: ./node_modules/redux/es/redux.js /** * Adapted from React: https://github.com/facebook/react/blob/master/packages/shared/formatProdErrorMessage.js * * Do not require this module directly! Use normal throw error calls. These messages will be replaced with error codes * during build. * @param {number} code */ function formatProdErrorMessage(code) { return "Minified Redux error #" + code + "; visit https://redux.js.org/Errors?code=" + code + " for the full message or " + 'use the non-minified dev environment for full errors. '; } // Inlined version of the `symbol-observable` polyfill var $$observable = (function () { return typeof Symbol === 'function' && Symbol.observable || '@@observable'; })(); /** * These are private action types reserved by Redux. * For any unknown actions, you must return the current state. * If the current state is undefined, you must return the initial state. * Do not reference these action types directly in your code. */ var randomString = function randomString() { return Math.random().toString(36).substring(7).split('').join('.'); }; var ActionTypes = { INIT: "@@redux/INIT" + randomString(), REPLACE: "@@redux/REPLACE" + randomString(), PROBE_UNKNOWN_ACTION: function PROBE_UNKNOWN_ACTION() { return "@@redux/PROBE_UNKNOWN_ACTION" + randomString(); } }; /** * @param {any} obj The object to inspect. * @returns {boolean} True if the argument appears to be a plain object. */ function isPlainObject(obj) { if (typeof obj !== 'object' || obj === null) return false; var proto = obj; while (Object.getPrototypeOf(proto) !== null) { proto = Object.getPrototypeOf(proto); } return Object.getPrototypeOf(obj) === proto; } // Inlined / shortened version of `kindOf` from https://github.com/jonschlinkert/kind-of function miniKindOf(val) { if (val === void 0) return 'undefined'; if (val === null) return 'null'; var type = typeof val; switch (type) { case 'boolean': case 'string': case 'number': case 'symbol': case 'function': { return type; } } if (Array.isArray(val)) return 'array'; if (isDate(val)) return 'date'; if (isError(val)) return 'error'; var constructorName = ctorName(val); switch (constructorName) { case 'Symbol': case 'Promise': case 'WeakMap': case 'WeakSet': case 'Map': case 'Set': return constructorName; } // other return type.slice(8, -1).toLowerCase().replace(/\s/g, ''); } function ctorName(val) { return typeof val.constructor === 'function' ? val.constructor.name : null; } function isError(val) { return val instanceof Error || typeof val.message === 'string' && val.constructor && typeof val.constructor.stackTraceLimit === 'number'; } function isDate(val) { if (val instanceof Date) return true; return typeof val.toDateString === 'function' && typeof val.getDate === 'function' && typeof val.setDate === 'function'; } function kindOf(val) { var typeOfVal = typeof val; if (false) {} return typeOfVal; } /** * @deprecated * * **We recommend using the `configureStore` method * of the `@reduxjs/toolkit` package**, which replaces `createStore`. * * Redux Toolkit is our recommended approach for writing Redux logic today, * including store setup, reducers, data fetching, and more. * * **For more details, please read this Redux docs page:** * **https://redux.js.org/introduction/why-rtk-is-redux-today** * * `configureStore` from Redux Toolkit is an improved version of `createStore` that * simplifies setup and helps avoid common bugs. * * You should not be using the `redux` core package by itself today, except for learning purposes. * The `createStore` method from the core `redux` package will not be removed, but we encourage * all users to migrate to using Redux Toolkit for all Redux code. * * If you want to use `createStore` without this visual deprecation warning, use * the `legacy_createStore` import instead: * * `import { legacy_createStore as createStore} from 'redux'` * */ function createStore(reducer, preloadedState, enhancer) { var _ref2; if (typeof preloadedState === 'function' && typeof enhancer === 'function' || typeof enhancer === 'function' && typeof arguments[3] === 'function') { throw new Error( true ? formatProdErrorMessage(0) : 0); } if (typeof preloadedState === 'function' && typeof enhancer === 'undefined') { enhancer = preloadedState; preloadedState = undefined; } if (typeof enhancer !== 'undefined') { if (typeof enhancer !== 'function') { throw new Error( true ? formatProdErrorMessage(1) : 0); } return enhancer(createStore)(reducer, preloadedState); } if (typeof reducer !== 'function') { throw new Error( true ? formatProdErrorMessage(2) : 0); } var currentReducer = reducer; var currentState = preloadedState; var currentListeners = []; var nextListeners = currentListeners; var isDispatching = false; /** * This makes a shallow copy of currentListeners so we can use * nextListeners as a temporary list while dispatching. * * This prevents any bugs around consumers calling * subscribe/unsubscribe in the middle of a dispatch. */ function ensureCanMutateNextListeners() { if (nextListeners === currentListeners) { nextListeners = currentListeners.slice(); } } /** * Reads the state tree managed by the store. * * @returns {any} The current state tree of your application. */ function getState() { if (isDispatching) { throw new Error( true ? formatProdErrorMessage(3) : 0); } return currentState; } /** * Adds a change listener. It will be called any time an action is dispatched, * and some part of the state tree may potentially have changed. You may then * call `getState()` to read the current state tree inside the callback. * * You may call `dispatch()` from a change listener, with the following * caveats: * * 1. The subscriptions are snapshotted just before every `dispatch()` call. * If you subscribe or unsubscribe while the listeners are being invoked, this * will not have any effect on the `dispatch()` that is currently in progress. * However, the next `dispatch()` call, whether nested or not, will use a more * recent snapshot of the subscription list. * * 2. The listener should not expect to see all state changes, as the state * might have been updated multiple times during a nested `dispatch()` before * the listener is called. It is, however, guaranteed that all subscribers * registered before the `dispatch()` started will be called with the latest * state by the time it exits. * * @param {Function} listener A callback to be invoked on every dispatch. * @returns {Function} A function to remove this change listener. */ function subscribe(listener) { if (typeof listener !== 'function') { throw new Error( true ? formatProdErrorMessage(4) : 0); } if (isDispatching) { throw new Error( true ? formatProdErrorMessage(5) : 0); } var isSubscribed = true; ensureCanMutateNextListeners(); nextListeners.push(listener); return function unsubscribe() { if (!isSubscribed) { return; } if (isDispatching) { throw new Error( true ? formatProdErrorMessage(6) : 0); } isSubscribed = false; ensureCanMutateNextListeners(); var index = nextListeners.indexOf(listener); nextListeners.splice(index, 1); currentListeners = null; }; } /** * Dispatches an action. It is the only way to trigger a state change. * * The `reducer` function, used to create the store, will be called with the * current state tree and the given `action`. Its return value will * be considered the **next** state of the tree, and the change listeners * will be notified. * * The base implementation only supports plain object actions. If you want to * dispatch a Promise, an Observable, a thunk, or something else, you need to * wrap your store creating function into the corresponding middleware. For * example, see the documentation for the `redux-thunk` package. Even the * middleware will eventually dispatch plain object actions using this method. * * @param {Object} action A plain object representing “what changed”. It is * a good idea to keep actions serializable so you can record and replay user * sessions, or use the time travelling `redux-devtools`. An action must have * a `type` property which may not be `undefined`. It is a good idea to use * string constants for action types. * * @returns {Object} For convenience, the same action object you dispatched. * * Note that, if you use a custom middleware, it may wrap `dispatch()` to * return something else (for example, a Promise you can await). */ function dispatch(action) { if (!isPlainObject(action)) { throw new Error( true ? formatProdErrorMessage(7) : 0); } if (typeof action.type === 'undefined') { throw new Error( true ? formatProdErrorMessage(8) : 0); } if (isDispatching) { throw new Error( true ? formatProdErrorMessage(9) : 0); } try { isDispatching = true; currentState = currentReducer(currentState, action); } finally { isDispatching = false; } var listeners = currentListeners = nextListeners; for (var i = 0; i < listeners.length; i++) { var listener = listeners[i]; listener(); } return action; } /** * Replaces the reducer currently used by the store to calculate the state. * * You might need this if your app implements code splitting and you want to * load some of the reducers dynamically. You might also need this if you * implement a hot reloading mechanism for Redux. * * @param {Function} nextReducer The reducer for the store to use instead. * @returns {void} */ function replaceReducer(nextReducer) { if (typeof nextReducer !== 'function') { throw new Error( true ? formatProdErrorMessage(10) : 0); } currentReducer = nextReducer; // This action has a similiar effect to ActionTypes.INIT. // Any reducers that existed in both the new and old rootReducer // will receive the previous state. This effectively populates // the new state tree with any relevant data from the old one. dispatch({ type: ActionTypes.REPLACE }); } /** * Interoperability point for observable/reactive libraries. * @returns {observable} A minimal observable of state changes. * For more information, see the observable proposal: * https://github.com/tc39/proposal-observable */ function observable() { var _ref; var outerSubscribe = subscribe; return _ref = { /** * The minimal observable subscription method. * @param {Object} observer Any object that can be used as an observer. * The observer object should have a `next` method. * @returns {subscription} An object with an `unsubscribe` method that can * be used to unsubscribe the observable from the store, and prevent further * emission of values from the observable. */ subscribe: function subscribe(observer) { if (typeof observer !== 'object' || observer === null) { throw new Error( true ? formatProdErrorMessage(11) : 0); } function observeState() { if (observer.next) { observer.next(getState()); } } observeState(); var unsubscribe = outerSubscribe(observeState); return { unsubscribe: unsubscribe }; } }, _ref[$$observable] = function () { return this; }, _ref; } // When a store is created, an "INIT" action is dispatched so that every // reducer returns their initial state. This effectively populates // the initial state tree. dispatch({ type: ActionTypes.INIT }); return _ref2 = { dispatch: dispatch, subscribe: subscribe, getState: getState, replaceReducer: replaceReducer }, _ref2[$$observable] = observable, _ref2; } /** * Creates a Redux store that holds the state tree. * * **We recommend using `configureStore` from the * `@reduxjs/toolkit` package**, which replaces `createStore`: * **https://redux.js.org/introduction/why-rtk-is-redux-today** * * The only way to change the data in the store is to call `dispatch()` on it. * * There should only be a single store in your app. To specify how different * parts of the state tree respond to actions, you may combine several reducers * into a single reducer function by using `combineReducers`. * * @param {Function} reducer A function that returns the next state tree, given * the current state tree and the action to handle. * * @param {any} [preloadedState] The initial state. You may optionally specify it * to hydrate the state from the server in universal apps, or to restore a * previously serialized user session. * If you use `combineReducers` to produce the root reducer function, this must be * an object with the same shape as `combineReducers` keys. * * @param {Function} [enhancer] The store enhancer. You may optionally specify it * to enhance the store with third-party capabilities such as middleware, * time travel, persistence, etc. The only store enhancer that ships with Redux * is `applyMiddleware()`. * * @returns {Store} A Redux store that lets you read the state, dispatch actions * and subscribe to changes. */ var legacy_createStore = (/* unused pure expression or super */ null && (createStore)); /** * Prints a warning in the console if it exists. * * @param {String} message The warning message. * @returns {void} */ function warning(message) { /* eslint-disable no-console */ if (typeof console !== 'undefined' && typeof console.error === 'function') { console.error(message); } /* eslint-enable no-console */ try { // This error was thrown as a convenience so that if you enable // "break on all exceptions" in your console, // it would pause the execution at this line. throw new Error(message); } catch (e) {} // eslint-disable-line no-empty } function getUnexpectedStateShapeWarningMessage(inputState, reducers, action, unexpectedKeyCache) { var reducerKeys = Object.keys(reducers); var argumentName = action && action.type === ActionTypes.INIT ? 'preloadedState argument passed to createStore' : 'previous state received by the reducer'; if (reducerKeys.length === 0) { return 'Store does not have a valid reducer. Make sure the argument passed ' + 'to combineReducers is an object whose values are reducers.'; } if (!isPlainObject(inputState)) { return "The " + argumentName + " has unexpected type of \"" + kindOf(inputState) + "\". Expected argument to be an object with the following " + ("keys: \"" + reducerKeys.join('", "') + "\""); } var unexpectedKeys = Object.keys(inputState).filter(function (key) { return !reducers.hasOwnProperty(key) && !unexpectedKeyCache[key]; }); unexpectedKeys.forEach(function (key) { unexpectedKeyCache[key] = true; }); if (action && action.type === ActionTypes.REPLACE) return; if (unexpectedKeys.length > 0) { return "Unexpected " + (unexpectedKeys.length > 1 ? 'keys' : 'key') + " " + ("\"" + unexpectedKeys.join('", "') + "\" found in " + argumentName + ". ") + "Expected to find one of the known reducer keys instead: " + ("\"" + reducerKeys.join('", "') + "\". Unexpected keys will be ignored."); } } function assertReducerShape(reducers) { Object.keys(reducers).forEach(function (key) { var reducer = reducers[key]; var initialState = reducer(undefined, { type: ActionTypes.INIT }); if (typeof initialState === 'undefined') { throw new Error( true ? formatProdErrorMessage(12) : 0); } if (typeof reducer(undefined, { type: ActionTypes.PROBE_UNKNOWN_ACTION() }) === 'undefined') { throw new Error( true ? formatProdErrorMessage(13) : 0); } }); } /** * Turns an object whose values are different reducer functions, into a single * reducer function. It will call every child reducer, and gather their results * into a single state object, whose keys correspond to the keys of the passed * reducer functions. * * @param {Object} reducers An object whose values correspond to different * reducer functions that need to be combined into one. One handy way to obtain * it is to use ES6 `import * as reducers` syntax. The reducers may never return * undefined for any action. Instead, they should return their initial state * if the state passed to them was undefined, and the current state for any * unrecognized action. * * @returns {Function} A reducer function that invokes every reducer inside the * passed object, and builds a state object with the same shape. */ function combineReducers(reducers) { var reducerKeys = Object.keys(reducers); var finalReducers = {}; for (var i = 0; i < reducerKeys.length; i++) { var key = reducerKeys[i]; if (false) {} if (typeof reducers[key] === 'function') { finalReducers[key] = reducers[key]; } } var finalReducerKeys = Object.keys(finalReducers); // This is used to make sure we don't warn about the same // keys multiple times. var unexpectedKeyCache; if (false) {} var shapeAssertionError; try { assertReducerShape(finalReducers); } catch (e) { shapeAssertionError = e; } return function combination(state, action) { if (state === void 0) { state = {}; } if (shapeAssertionError) { throw shapeAssertionError; } if (false) { var warningMessage; } var hasChanged = false; var nextState = {}; for (var _i = 0; _i < finalReducerKeys.length; _i++) { var _key = finalReducerKeys[_i]; var reducer = finalReducers[_key]; var previousStateForKey = state[_key]; var nextStateForKey = reducer(previousStateForKey, action); if (typeof nextStateForKey === 'undefined') { var actionType = action && action.type; throw new Error( true ? formatProdErrorMessage(14) : 0); } nextState[_key] = nextStateForKey; hasChanged = hasChanged || nextStateForKey !== previousStateForKey; } hasChanged = hasChanged || finalReducerKeys.length !== Object.keys(state).length; return hasChanged ? nextState : state; }; } function bindActionCreator(actionCreator, dispatch) { return function () { return dispatch(actionCreator.apply(this, arguments)); }; } /** * Turns an object whose values are action creators, into an object with the * same keys, but with every function wrapped into a `dispatch` call so they * may be invoked directly. This is just a convenience method, as you can call * `store.dispatch(MyActionCreators.doSomething())` yourself just fine. * * For convenience, you can also pass an action creator as the first argument, * and get a dispatch wrapped function in return. * * @param {Function|Object} actionCreators An object whose values are action * creator functions. One handy way to obtain it is to use ES6 `import * as` * syntax. You may also pass a single function. * * @param {Function} dispatch The `dispatch` function available on your Redux * store. * * @returns {Function|Object} The object mimicking the original object, but with * every action creator wrapped into the `dispatch` call. If you passed a * function as `actionCreators`, the return value will also be a single * function. */ function bindActionCreators(actionCreators, dispatch) { if (typeof actionCreators === 'function') { return bindActionCreator(actionCreators, dispatch); } if (typeof actionCreators !== 'object' || actionCreators === null) { throw new Error( true ? formatProdErrorMessage(16) : 0); } var boundActionCreators = {}; for (var key in actionCreators) { var actionCreator = actionCreators[key]; if (typeof actionCreator === 'function') { boundActionCreators[key] = bindActionCreator(actionCreator, dispatch); } } return boundActionCreators; } /** * Composes single-argument functions from right to left. The rightmost * function can take multiple arguments as it provides the signature for * the resulting composite function. * * @param {...Function} funcs The functions to compose. * @returns {Function} A function obtained by composing the argument functions * from right to left. For example, compose(f, g, h) is identical to doing * (...args) => f(g(h(...args))). */ function compose() { for (var _len = arguments.length, funcs = new Array(_len), _key = 0; _key < _len; _key++) { funcs[_key] = arguments[_key]; } if (funcs.length === 0) { return function (arg) { return arg; }; } if (funcs.length === 1) { return funcs[0]; } return funcs.reduce(function (a, b) { return function () { return a(b.apply(void 0, arguments)); }; }); } /** * Creates a store enhancer that applies middleware to the dispatch method * of the Redux store. This is handy for a variety of tasks, such as expressing * asynchronous actions in a concise manner, or logging every action payload. * * See `redux-thunk` package as an example of the Redux middleware. * * Because middleware is potentially asynchronous, this should be the first * store enhancer in the composition chain. * * Note that each middleware will be given the `dispatch` and `getState` functions * as named arguments. * * @param {...Function} middlewares The middleware chain to be applied. * @returns {Function} A store enhancer applying the middleware. */ function applyMiddleware() { for (var _len = arguments.length, middlewares = new Array(_len), _key = 0; _key < _len; _key++) { middlewares[_key] = arguments[_key]; } return function (createStore) { return function () { var store = createStore.apply(void 0, arguments); var _dispatch = function dispatch() { throw new Error( true ? formatProdErrorMessage(15) : 0); }; var middlewareAPI = { getState: store.getState, dispatch: function dispatch() { return _dispatch.apply(void 0, arguments); } }; var chain = middlewares.map(function (middleware) { return middleware(middlewareAPI); }); _dispatch = compose.apply(void 0, chain)(store.dispatch); return _objectSpread2(_objectSpread2({}, store), {}, { dispatch: _dispatch }); }; }; } // EXTERNAL MODULE: ./node_modules/equivalent-key-map/equivalent-key-map.js var equivalent_key_map = __webpack_require__(3249); var equivalent_key_map_default = /*#__PURE__*/__webpack_require__.n(equivalent_key_map); ;// CONCATENATED MODULE: external ["wp","reduxRoutine"] const external_wp_reduxRoutine_namespaceObject = window["wp"]["reduxRoutine"]; var external_wp_reduxRoutine_default = /*#__PURE__*/__webpack_require__.n(external_wp_reduxRoutine_namespaceObject); ;// CONCATENATED MODULE: external ["wp","compose"] const external_wp_compose_namespaceObject = window["wp"]["compose"]; ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/redux-store/combine-reducers.js function combine_reducers_combineReducers(reducers) { const keys = Object.keys(reducers); return function combinedReducer(state = {}, action) { const nextState = {}; let hasChanged = false; for (const key of keys) { const reducer = reducers[key]; const prevStateForKey = state[key]; const nextStateForKey = reducer(prevStateForKey, action); nextState[key] = nextStateForKey; hasChanged = hasChanged || nextStateForKey !== prevStateForKey; } return hasChanged ? nextState : state; }; } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/factory.js /** * Creates a selector function that takes additional curried argument with the * registry `select` function. While a regular selector has signature * ```js * ( state, ...selectorArgs ) => ( result ) * ``` * that allows to select data from the store's `state`, a registry selector * has signature: * ```js * ( select ) => ( state, ...selectorArgs ) => ( result ) * ``` * that supports also selecting from other registered stores. * * @example * ```js * import { store as coreStore } from '@wordpress/core-data'; * import { store as editorStore } from '@wordpress/editor'; * * const getCurrentPostId = createRegistrySelector( ( select ) => ( state ) => { * return select( editorStore ).getCurrentPostId(); * } ); * * const getPostEdits = createRegistrySelector( ( select ) => ( state ) => { * // calling another registry selector just like any other function * const postType = getCurrentPostType( state ); * const postId = getCurrentPostId( state ); * return select( coreStore ).getEntityRecordEdits( 'postType', postType, postId ); * } ); * ``` * * Note how the `getCurrentPostId` selector can be called just like any other function, * (it works even inside a regular non-registry selector) and we don't need to pass the * registry as argument. The registry binding happens automatically when registering the selector * with a store. * * @param {Function} registrySelector Function receiving a registry `select` * function and returning a state selector. * * @return {Function} Registry selector that can be registered with a store. */ function createRegistrySelector(registrySelector) { const selectorsByRegistry = new WeakMap(); // Create a selector function that is bound to the registry referenced by `selector.registry` // and that has the same API as a regular selector. Binding it in such a way makes it // possible to call the selector directly from another selector. const wrappedSelector = (...args) => { let selector = selectorsByRegistry.get(wrappedSelector.registry); // We want to make sure the cache persists even when new registry // instances are created. For example patterns create their own editors // with their own core/block-editor stores, so we should keep track of // the cache for each registry instance. if (!selector) { selector = registrySelector(wrappedSelector.registry.select); selectorsByRegistry.set(wrappedSelector.registry, selector); } return selector(...args); }; /** * Flag indicating that the selector is a registry selector that needs the correct registry * reference to be assigned to `selector.registry` to make it work correctly. * be mapped as a registry selector. * * @type {boolean} */ wrappedSelector.isRegistrySelector = true; return wrappedSelector; } /** * Creates a control function that takes additional curried argument with the `registry` object. * While a regular control has signature * ```js * ( action ) => ( iteratorOrPromise ) * ``` * where the control works with the `action` that it's bound to, a registry control has signature: * ```js * ( registry ) => ( action ) => ( iteratorOrPromise ) * ``` * A registry control is typically used to select data or dispatch an action to a registered * store. * * When registering a control created with `createRegistryControl` with a store, the store * knows which calling convention to use when executing the control. * * @param {Function} registryControl Function receiving a registry object and returning a control. * * @return {Function} Registry control that can be registered with a store. */ function createRegistryControl(registryControl) { registryControl.isRegistryControl = true; return registryControl; } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/controls.js /** * Internal dependencies */ /** @typedef {import('./types').StoreDescriptor} StoreDescriptor */ const SELECT = '@@data/SELECT'; const RESOLVE_SELECT = '@@data/RESOLVE_SELECT'; const DISPATCH = '@@data/DISPATCH'; function isObject(object) { return object !== null && typeof object === 'object'; } /** * Dispatches a control action for triggering a synchronous registry select. * * Note: This control synchronously returns the current selector value, triggering the * resolution, but not waiting for it. * * @param {string|StoreDescriptor} storeNameOrDescriptor Unique namespace identifier for the store * @param {string} selectorName The name of the selector. * @param {Array} args Arguments for the selector. * * @example * ```js * import { controls } from '@wordpress/data'; * * // Action generator using `select`. * export function* myAction() { * const isEditorSideBarOpened = yield controls.select( 'core/edit-post', 'isEditorSideBarOpened' ); * // Do stuff with the result from the `select`. * } * ``` * * @return {Object} The control descriptor. */ function controls_select(storeNameOrDescriptor, selectorName, ...args) { return { type: SELECT, storeKey: isObject(storeNameOrDescriptor) ? storeNameOrDescriptor.name : storeNameOrDescriptor, selectorName, args }; } /** * Dispatches a control action for triggering and resolving a registry select. * * Note: when this control action is handled, it automatically considers * selectors that may have a resolver. In such case, it will return a `Promise` that resolves * after the selector finishes resolving, with the final result value. * * @param {string|StoreDescriptor} storeNameOrDescriptor Unique namespace identifier for the store * @param {string} selectorName The name of the selector * @param {Array} args Arguments for the selector. * * @example * ```js * import { controls } from '@wordpress/data'; * * // Action generator using resolveSelect * export function* myAction() { * const isSidebarOpened = yield controls.resolveSelect( 'core/edit-post', 'isEditorSideBarOpened' ); * // do stuff with the result from the select. * } * ``` * * @return {Object} The control descriptor. */ function resolveSelect(storeNameOrDescriptor, selectorName, ...args) { return { type: RESOLVE_SELECT, storeKey: isObject(storeNameOrDescriptor) ? storeNameOrDescriptor.name : storeNameOrDescriptor, selectorName, args }; } /** * Dispatches a control action for triggering a registry dispatch. * * @param {string|StoreDescriptor} storeNameOrDescriptor Unique namespace identifier for the store * @param {string} actionName The name of the action to dispatch * @param {Array} args Arguments for the dispatch action. * * @example * ```js * import { controls } from '@wordpress/data-controls'; * * // Action generator using dispatch * export function* myAction() { * yield controls.dispatch( 'core/editor', 'togglePublishSidebar' ); * // do some other things. * } * ``` * * @return {Object} The control descriptor. */ function dispatch(storeNameOrDescriptor, actionName, ...args) { return { type: DISPATCH, storeKey: isObject(storeNameOrDescriptor) ? storeNameOrDescriptor.name : storeNameOrDescriptor, actionName, args }; } const controls = { select: controls_select, resolveSelect, dispatch }; const builtinControls = { [SELECT]: createRegistryControl(registry => ({ storeKey, selectorName, args }) => registry.select(storeKey)[selectorName](...args)), [RESOLVE_SELECT]: createRegistryControl(registry => ({ storeKey, selectorName, args }) => { const method = registry.select(storeKey)[selectorName].hasResolver ? 'resolveSelect' : 'select'; return registry[method](storeKey)[selectorName](...args); }), [DISPATCH]: createRegistryControl(registry => ({ storeKey, actionName, args }) => registry.dispatch(storeKey)[actionName](...args)) }; ;// CONCATENATED MODULE: external ["wp","privateApis"] const external_wp_privateApis_namespaceObject = window["wp"]["privateApis"]; ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/lock-unlock.js /** * WordPress dependencies */ const { lock, unlock } = (0,external_wp_privateApis_namespaceObject.__dangerousOptInToUnstableAPIsOnlyForCoreModules)('I acknowledge private features are not for use in themes or plugins and doing so will break in the next version of WordPress.', '@wordpress/data'); ;// CONCATENATED MODULE: ./node_modules/is-promise/index.mjs function isPromise(obj) { return !!obj && (typeof obj === 'object' || typeof obj === 'function') && typeof obj.then === 'function'; } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/promise-middleware.js /** * External dependencies */ /** * Simplest possible promise redux middleware. * * @type {import('redux').Middleware} */ const promiseMiddleware = () => next => action => { if (isPromise(action)) { return action.then(resolvedAction => { if (resolvedAction) { return next(resolvedAction); } }); } return next(action); }; /* harmony default export */ const promise_middleware = (promiseMiddleware); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/resolvers-cache-middleware.js /** @typedef {import('./registry').WPDataRegistry} WPDataRegistry */ /** * Creates a middleware handling resolvers cache invalidation. * * @param {WPDataRegistry} registry Registry for which to create the middleware. * @param {string} storeName Name of the store for which to create the middleware. * * @return {Function} Middleware function. */ const createResolversCacheMiddleware = (registry, storeName) => () => next => action => { const resolvers = registry.select(storeName).getCachedResolvers(); const resolverEntries = Object.entries(resolvers); resolverEntries.forEach(([selectorName, resolversByArgs]) => { const resolver = registry.stores[storeName]?.resolvers?.[selectorName]; if (!resolver || !resolver.shouldInvalidate) { return; } resolversByArgs.forEach((value, args) => { // Works around a bug in `EquivalentKeyMap` where `map.delete` merely sets an entry value // to `undefined` and `map.forEach` then iterates also over these orphaned entries. if (value === undefined) { return; } // resolversByArgs is the map Map([ args ] => boolean) storing the cache resolution status for a given selector. // If the value is "finished" or "error" it means this resolver has finished its resolution which means we need // to invalidate it, if it's true it means it's inflight and the invalidation is not necessary. if (value.status !== 'finished' && value.status !== 'error') { return; } if (!resolver.shouldInvalidate(action, ...args)) { return; } // Trigger cache invalidation registry.dispatch(storeName).invalidateResolution(selectorName, args); }); }); return next(action); }; /* harmony default export */ const resolvers_cache_middleware = (createResolversCacheMiddleware); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/redux-store/thunk-middleware.js function createThunkMiddleware(args) { return () => next => action => { if (typeof action === 'function') { return action(args); } return next(action); }; } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/redux-store/metadata/utils.js /** * External dependencies */ /** * Higher-order reducer creator which creates a combined reducer object, keyed * by a property on the action object. * * @param actionProperty Action property by which to key object. * @return Higher-order reducer. */ const onSubKey = actionProperty => reducer => (state = {}, action) => { // Retrieve subkey from action. Do not track if undefined; useful for cases // where reducer is scoped by action shape. const key = action[actionProperty]; if (key === undefined) { return state; } // Avoid updating state if unchanged. Note that this also accounts for a // reducer which returns undefined on a key which is not yet tracked. const nextKeyState = reducer(state[key], action); if (nextKeyState === state[key]) { return state; } return { ...state, [key]: nextKeyState }; }; /** * Normalize selector argument array by defaulting `undefined` value to an empty array * and removing trailing `undefined` values. * * @param args Selector argument array * @return Normalized state key array */ function selectorArgsToStateKey(args) { if (args === undefined || args === null) { return []; } const len = args.length; let idx = len; while (idx > 0 && args[idx - 1] === undefined) { idx--; } return idx === len ? args : args.slice(0, idx); } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/redux-store/metadata/reducer.js /** * External dependencies */ /** * Internal dependencies */ /** * Reducer function returning next state for selector resolution of * subkeys, object form: * * selectorName -> EquivalentKeyMap<Array,boolean> */ const subKeysIsResolved = onSubKey('selectorName')((state = new (equivalent_key_map_default())(), action) => { switch (action.type) { case 'START_RESOLUTION': { const nextState = new (equivalent_key_map_default())(state); nextState.set(selectorArgsToStateKey(action.args), { status: 'resolving' }); return nextState; } case 'FINISH_RESOLUTION': { const nextState = new (equivalent_key_map_default())(state); nextState.set(selectorArgsToStateKey(action.args), { status: 'finished' }); return nextState; } case 'FAIL_RESOLUTION': { const nextState = new (equivalent_key_map_default())(state); nextState.set(selectorArgsToStateKey(action.args), { status: 'error', error: action.error }); return nextState; } case 'START_RESOLUTIONS': { const nextState = new (equivalent_key_map_default())(state); for (const resolutionArgs of action.args) { nextState.set(selectorArgsToStateKey(resolutionArgs), { status: 'resolving' }); } return nextState; } case 'FINISH_RESOLUTIONS': { const nextState = new (equivalent_key_map_default())(state); for (const resolutionArgs of action.args) { nextState.set(selectorArgsToStateKey(resolutionArgs), { status: 'finished' }); } return nextState; } case 'FAIL_RESOLUTIONS': { const nextState = new (equivalent_key_map_default())(state); action.args.forEach((resolutionArgs, idx) => { const resolutionState = { status: 'error', error: undefined }; const error = action.errors[idx]; if (error) { resolutionState.error = error; } nextState.set(selectorArgsToStateKey(resolutionArgs), resolutionState); }); return nextState; } case 'INVALIDATE_RESOLUTION': { const nextState = new (equivalent_key_map_default())(state); nextState.delete(selectorArgsToStateKey(action.args)); return nextState; } } return state; }); /** * Reducer function returning next state for selector resolution, object form: * * selectorName -> EquivalentKeyMap<Array, boolean> * * @param state Current state. * @param action Dispatched action. * * @return Next state. */ const isResolved = (state = {}, action) => { switch (action.type) { case 'INVALIDATE_RESOLUTION_FOR_STORE': return {}; case 'INVALIDATE_RESOLUTION_FOR_STORE_SELECTOR': { if (action.selectorName in state) { const { [action.selectorName]: removedSelector, ...restState } = state; return restState; } return state; } case 'START_RESOLUTION': case 'FINISH_RESOLUTION': case 'FAIL_RESOLUTION': case 'START_RESOLUTIONS': case 'FINISH_RESOLUTIONS': case 'FAIL_RESOLUTIONS': case 'INVALIDATE_RESOLUTION': return subKeysIsResolved(state, action); } return state; }; /* harmony default export */ const metadata_reducer = (isResolved); ;// CONCATENATED MODULE: ./node_modules/rememo/rememo.js /** @typedef {(...args: any[]) => *[]} GetDependants */ /** @typedef {() => void} Clear */ /** * @typedef {{ * getDependants: GetDependants, * clear: Clear * }} EnhancedSelector */ /** * Internal cache entry. * * @typedef CacheNode * * @property {?CacheNode|undefined} [prev] Previous node. * @property {?CacheNode|undefined} [next] Next node. * @property {*[]} args Function arguments for cache entry. * @property {*} val Function result. */ /** * @typedef Cache * * @property {Clear} clear Function to clear cache. * @property {boolean} [isUniqueByDependants] Whether dependants are valid in * considering cache uniqueness. A cache is unique if dependents are all arrays * or objects. * @property {CacheNode?} [head] Cache head. * @property {*[]} [lastDependants] Dependants from previous invocation. */ /** * Arbitrary value used as key for referencing cache object in WeakMap tree. * * @type {{}} */ var LEAF_KEY = {}; /** * Returns the first argument as the sole entry in an array. * * @template T * * @param {T} value Value to return. * * @return {[T]} Value returned as entry in array. */ function arrayOf(value) { return [value]; } /** * Returns true if the value passed is object-like, or false otherwise. A value * is object-like if it can support property assignment, e.g. object or array. * * @param {*} value Value to test. * * @return {boolean} Whether value is object-like. */ function isObjectLike(value) { return !!value && 'object' === typeof value; } /** * Creates and returns a new cache object. * * @return {Cache} Cache object. */ function createCache() { /** @type {Cache} */ var cache = { clear: function () { cache.head = null; }, }; return cache; } /** * Returns true if entries within the two arrays are strictly equal by * reference from a starting index. * * @param {*[]} a First array. * @param {*[]} b Second array. * @param {number} fromIndex Index from which to start comparison. * * @return {boolean} Whether arrays are shallowly equal. */ function isShallowEqual(a, b, fromIndex) { var i; if (a.length !== b.length) { return false; } for (i = fromIndex; i < a.length; i++) { if (a[i] !== b[i]) { return false; } } return true; } /** * Returns a memoized selector function. The getDependants function argument is * called before the memoized selector and is expected to return an immutable * reference or array of references on which the selector depends for computing * its own return value. The memoize cache is preserved only as long as those * dependant references remain the same. If getDependants returns a different * reference(s), the cache is cleared and the selector value regenerated. * * @template {(...args: *[]) => *} S * * @param {S} selector Selector function. * @param {GetDependants=} getDependants Dependant getter returning an array of * references used in cache bust consideration. */ /* harmony default export */ function rememo(selector, getDependants) { /** @type {WeakMap<*,*>} */ var rootCache; /** @type {GetDependants} */ var normalizedGetDependants = getDependants ? getDependants : arrayOf; /** * Returns the cache for a given dependants array. When possible, a WeakMap * will be used to create a unique cache for each set of dependants. This * is feasible due to the nature of WeakMap in allowing garbage collection * to occur on entries where the key object is no longer referenced. Since * WeakMap requires the key to be an object, this is only possible when the * dependant is object-like. The root cache is created as a hierarchy where * each top-level key is the first entry in a dependants set, the value a * WeakMap where each key is the next dependant, and so on. This continues * so long as the dependants are object-like. If no dependants are object- * like, then the cache is shared across all invocations. * * @see isObjectLike * * @param {*[]} dependants Selector dependants. * * @return {Cache} Cache object. */ function getCache(dependants) { var caches = rootCache, isUniqueByDependants = true, i, dependant, map, cache; for (i = 0; i < dependants.length; i++) { dependant = dependants[i]; // Can only compose WeakMap from object-like key. if (!isObjectLike(dependant)) { isUniqueByDependants = false; break; } // Does current segment of cache already have a WeakMap? if (caches.has(dependant)) { // Traverse into nested WeakMap. caches = caches.get(dependant); } else { // Create, set, and traverse into a new one. map = new WeakMap(); caches.set(dependant, map); caches = map; } } // We use an arbitrary (but consistent) object as key for the last item // in the WeakMap to serve as our running cache. if (!caches.has(LEAF_KEY)) { cache = createCache(); cache.isUniqueByDependants = isUniqueByDependants; caches.set(LEAF_KEY, cache); } return caches.get(LEAF_KEY); } /** * Resets root memoization cache. */ function clear() { rootCache = new WeakMap(); } /* eslint-disable jsdoc/check-param-names */ /** * The augmented selector call, considering first whether dependants have * changed before passing it to underlying memoize function. * * @param {*} source Source object for derivation. * @param {...*} extraArgs Additional arguments to pass to selector. * * @return {*} Selector result. */ /* eslint-enable jsdoc/check-param-names */ function callSelector(/* source, ...extraArgs */) { var len = arguments.length, cache, node, i, args, dependants; // Create copy of arguments (avoid leaking deoptimization). args = new Array(len); for (i = 0; i < len; i++) { args[i] = arguments[i]; } dependants = normalizedGetDependants.apply(null, args); cache = getCache(dependants); // If not guaranteed uniqueness by dependants (primitive type), shallow // compare against last dependants and, if references have changed, // destroy cache to recalculate result. if (!cache.isUniqueByDependants) { if ( cache.lastDependants && !isShallowEqual(dependants, cache.lastDependants, 0) ) { cache.clear(); } cache.lastDependants = dependants; } node = cache.head; while (node) { // Check whether node arguments match arguments if (!isShallowEqual(node.args, args, 1)) { node = node.next; continue; } // At this point we can assume we've found a match // Surface matched node to head if not already if (node !== cache.head) { // Adjust siblings to point to each other. /** @type {CacheNode} */ (node.prev).next = node.next; if (node.next) { node.next.prev = node.prev; } node.next = cache.head; node.prev = null; /** @type {CacheNode} */ (cache.head).prev = node; cache.head = node; } // Return immediately return node.val; } // No cached value found. Continue to insertion phase: node = /** @type {CacheNode} */ ({ // Generate the result from original function val: selector.apply(null, args), }); // Avoid including the source object in the cache. args[0] = null; node.args = args; // Don't need to check whether node is already head, since it would // have been returned above already if it was // Shift existing head down list if (cache.head) { cache.head.prev = node; node.next = cache.head; } cache.head = node; return node.val; } callSelector.getDependants = normalizedGetDependants; callSelector.clear = clear; clear(); return /** @type {S & EnhancedSelector} */ (callSelector); } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/redux-store/metadata/selectors.js /** * WordPress dependencies */ /** * Internal dependencies */ /** @typedef {Record<string, import('./reducer').State>} State */ /** @typedef {import('./reducer').StateValue} StateValue */ /** @typedef {import('./reducer').Status} Status */ /** * Returns the raw resolution state value for a given selector name, * and arguments set. May be undefined if the selector has never been resolved * or not resolved for the given set of arguments, otherwise true or false for * resolution started and completed respectively. * * @param {State} state Data state. * @param {string} selectorName Selector name. * @param {unknown[]?} args Arguments passed to selector. * * @return {StateValue|undefined} isResolving value. */ function getResolutionState(state, selectorName, args) { const map = state[selectorName]; if (!map) { return; } return map.get(selectorArgsToStateKey(args)); } /** * Returns an `isResolving`-like value for a given selector name and arguments set. * Its value is either `undefined` if the selector has never been resolved or has been * invalidated, or a `true`/`false` boolean value if the resolution is in progress or * has finished, respectively. * * This is a legacy selector that was implemented when the "raw" internal data had * this `undefined | boolean` format. Nowadays the internal value is an object that * can be retrieved with `getResolutionState`. * * @deprecated * * @param {State} state Data state. * @param {string} selectorName Selector name. * @param {unknown[]?} args Arguments passed to selector. * * @return {boolean | undefined} isResolving value. */ function getIsResolving(state, selectorName, args) { external_wp_deprecated_default()('wp.data.select( store ).getIsResolving', { since: '6.6', version: '6.8', alternative: 'wp.data.select( store ).getResolutionState' }); const resolutionState = getResolutionState(state, selectorName, args); return resolutionState && resolutionState.status === 'resolving'; } /** * Returns true if resolution has already been triggered for a given * selector name, and arguments set. * * @param {State} state Data state. * @param {string} selectorName Selector name. * @param {unknown[]?} args Arguments passed to selector. * * @return {boolean} Whether resolution has been triggered. */ function hasStartedResolution(state, selectorName, args) { return getResolutionState(state, selectorName, args) !== undefined; } /** * Returns true if resolution has completed for a given selector * name, and arguments set. * * @param {State} state Data state. * @param {string} selectorName Selector name. * @param {unknown[]?} args Arguments passed to selector. * * @return {boolean} Whether resolution has completed. */ function hasFinishedResolution(state, selectorName, args) { const status = getResolutionState(state, selectorName, args)?.status; return status === 'finished' || status === 'error'; } /** * Returns true if resolution has failed for a given selector * name, and arguments set. * * @param {State} state Data state. * @param {string} selectorName Selector name. * @param {unknown[]?} args Arguments passed to selector. * * @return {boolean} Has resolution failed */ function hasResolutionFailed(state, selectorName, args) { return getResolutionState(state, selectorName, args)?.status === 'error'; } /** * Returns the resolution error for a given selector name, and arguments set. * Note it may be of an Error type, but may also be null, undefined, or anything else * that can be `throw`-n. * * @param {State} state Data state. * @param {string} selectorName Selector name. * @param {unknown[]?} args Arguments passed to selector. * * @return {Error|unknown} Last resolution error */ function getResolutionError(state, selectorName, args) { const resolutionState = getResolutionState(state, selectorName, args); return resolutionState?.status === 'error' ? resolutionState.error : null; } /** * Returns true if resolution has been triggered but has not yet completed for * a given selector name, and arguments set. * * @param {State} state Data state. * @param {string} selectorName Selector name. * @param {unknown[]?} args Arguments passed to selector. * * @return {boolean} Whether resolution is in progress. */ function isResolving(state, selectorName, args) { return getResolutionState(state, selectorName, args)?.status === 'resolving'; } /** * Returns the list of the cached resolvers. * * @param {State} state Data state. * * @return {State} Resolvers mapped by args and selectorName. */ function getCachedResolvers(state) { return state; } /** * Whether the store has any currently resolving selectors. * * @param {State} state Data state. * * @return {boolean} True if one or more selectors are resolving, false otherwise. */ function hasResolvingSelectors(state) { return Object.values(state).some(selectorState => /** * This uses the internal `_map` property of `EquivalentKeyMap` for * optimization purposes, since the `EquivalentKeyMap` implementation * does not support a `.values()` implementation. * * @see https://github.com/aduth/equivalent-key-map */ Array.from(selectorState._map.values()).some(resolution => resolution[1]?.status === 'resolving')); } /** * Retrieves the total number of selectors, grouped per status. * * @param {State} state Data state. * * @return {Object} Object, containing selector totals by status. */ const countSelectorsByStatus = rememo(state => { const selectorsByStatus = {}; Object.values(state).forEach(selectorState => /** * This uses the internal `_map` property of `EquivalentKeyMap` for * optimization purposes, since the `EquivalentKeyMap` implementation * does not support a `.values()` implementation. * * @see https://github.com/aduth/equivalent-key-map */ Array.from(selectorState._map.values()).forEach(resolution => { var _resolution$1$status; const currentStatus = (_resolution$1$status = resolution[1]?.status) !== null && _resolution$1$status !== void 0 ? _resolution$1$status : 'error'; if (!selectorsByStatus[currentStatus]) { selectorsByStatus[currentStatus] = 0; } selectorsByStatus[currentStatus]++; })); return selectorsByStatus; }, state => [state]); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/redux-store/metadata/actions.js /** * Returns an action object used in signalling that selector resolution has * started. * * @param {string} selectorName Name of selector for which resolver triggered. * @param {unknown[]} args Arguments to associate for uniqueness. * * @return {{ type: 'START_RESOLUTION', selectorName: string, args: unknown[] }} Action object. */ function startResolution(selectorName, args) { return { type: 'START_RESOLUTION', selectorName, args }; } /** * Returns an action object used in signalling that selector resolution has * completed. * * @param {string} selectorName Name of selector for which resolver triggered. * @param {unknown[]} args Arguments to associate for uniqueness. * * @return {{ type: 'FINISH_RESOLUTION', selectorName: string, args: unknown[] }} Action object. */ function finishResolution(selectorName, args) { return { type: 'FINISH_RESOLUTION', selectorName, args }; } /** * Returns an action object used in signalling that selector resolution has * failed. * * @param {string} selectorName Name of selector for which resolver triggered. * @param {unknown[]} args Arguments to associate for uniqueness. * @param {Error|unknown} error The error that caused the failure. * * @return {{ type: 'FAIL_RESOLUTION', selectorName: string, args: unknown[], error: Error|unknown }} Action object. */ function failResolution(selectorName, args, error) { return { type: 'FAIL_RESOLUTION', selectorName, args, error }; } /** * Returns an action object used in signalling that a batch of selector resolutions has * started. * * @param {string} selectorName Name of selector for which resolver triggered. * @param {unknown[][]} args Array of arguments to associate for uniqueness, each item * is associated to a resolution. * * @return {{ type: 'START_RESOLUTIONS', selectorName: string, args: unknown[][] }} Action object. */ function startResolutions(selectorName, args) { return { type: 'START_RESOLUTIONS', selectorName, args }; } /** * Returns an action object used in signalling that a batch of selector resolutions has * completed. * * @param {string} selectorName Name of selector for which resolver triggered. * @param {unknown[][]} args Array of arguments to associate for uniqueness, each item * is associated to a resolution. * * @return {{ type: 'FINISH_RESOLUTIONS', selectorName: string, args: unknown[][] }} Action object. */ function finishResolutions(selectorName, args) { return { type: 'FINISH_RESOLUTIONS', selectorName, args }; } /** * Returns an action object used in signalling that a batch of selector resolutions has * completed and at least one of them has failed. * * @param {string} selectorName Name of selector for which resolver triggered. * @param {unknown[]} args Array of arguments to associate for uniqueness, each item * is associated to a resolution. * @param {(Error|unknown)[]} errors Array of errors to associate for uniqueness, each item * is associated to a resolution. * @return {{ type: 'FAIL_RESOLUTIONS', selectorName: string, args: unknown[], errors: Array<Error|unknown> }} Action object. */ function failResolutions(selectorName, args, errors) { return { type: 'FAIL_RESOLUTIONS', selectorName, args, errors }; } /** * Returns an action object used in signalling that we should invalidate the resolution cache. * * @param {string} selectorName Name of selector for which resolver should be invalidated. * @param {unknown[]} args Arguments to associate for uniqueness. * * @return {{ type: 'INVALIDATE_RESOLUTION', selectorName: string, args: any[] }} Action object. */ function invalidateResolution(selectorName, args) { return { type: 'INVALIDATE_RESOLUTION', selectorName, args }; } /** * Returns an action object used in signalling that the resolution * should be invalidated. * * @return {{ type: 'INVALIDATE_RESOLUTION_FOR_STORE' }} Action object. */ function invalidateResolutionForStore() { return { type: 'INVALIDATE_RESOLUTION_FOR_STORE' }; } /** * Returns an action object used in signalling that the resolution cache for a * given selectorName should be invalidated. * * @param {string} selectorName Name of selector for which all resolvers should * be invalidated. * * @return {{ type: 'INVALIDATE_RESOLUTION_FOR_STORE_SELECTOR', selectorName: string }} Action object. */ function invalidateResolutionForStoreSelector(selectorName) { return { type: 'INVALIDATE_RESOLUTION_FOR_STORE_SELECTOR', selectorName }; } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/redux-store/index.js /** * External dependencies */ /** * WordPress dependencies */ /** * Internal dependencies */ /** @typedef {import('../types').DataRegistry} DataRegistry */ /** @typedef {import('../types').ListenerFunction} ListenerFunction */ /** * @typedef {import('../types').StoreDescriptor<C>} StoreDescriptor * @template {import('../types').AnyConfig} C */ /** * @typedef {import('../types').ReduxStoreConfig<State,Actions,Selectors>} ReduxStoreConfig * @template State * @template {Record<string,import('../types').ActionCreator>} Actions * @template Selectors */ const trimUndefinedValues = array => { const result = [...array]; for (let i = result.length - 1; i >= 0; i--) { if (result[i] === undefined) { result.splice(i, 1); } } return result; }; /** * Creates a new object with the same keys, but with `callback()` called as * a transformer function on each of the values. * * @param {Object} obj The object to transform. * @param {Function} callback The function to transform each object value. * @return {Array} Transformed object. */ const mapValues = (obj, callback) => Object.fromEntries(Object.entries(obj !== null && obj !== void 0 ? obj : {}).map(([key, value]) => [key, callback(value, key)])); // Convert non serializable types to plain objects const devToolsReplacer = (key, state) => { if (state instanceof Map) { return Object.fromEntries(state); } if (state instanceof window.HTMLElement) { return null; } return state; }; /** * Create a cache to track whether resolvers started running or not. * * @return {Object} Resolvers Cache. */ function createResolversCache() { const cache = {}; return { isRunning(selectorName, args) { return cache[selectorName] && cache[selectorName].get(trimUndefinedValues(args)); }, clear(selectorName, args) { if (cache[selectorName]) { cache[selectorName].delete(trimUndefinedValues(args)); } }, markAsRunning(selectorName, args) { if (!cache[selectorName]) { cache[selectorName] = new (equivalent_key_map_default())(); } cache[selectorName].set(trimUndefinedValues(args), true); } }; } function createBindingCache(bind) { const cache = new WeakMap(); return { get(item, itemName) { let boundItem = cache.get(item); if (!boundItem) { boundItem = bind(item, itemName); cache.set(item, boundItem); } return boundItem; } }; } /** * Creates a data store descriptor for the provided Redux store configuration containing * properties describing reducer, actions, selectors, controls and resolvers. * * @example * ```js * import { createReduxStore } from '@wordpress/data'; * * const store = createReduxStore( 'demo', { * reducer: ( state = 'OK' ) => state, * selectors: { * getValue: ( state ) => state, * }, * } ); * ``` * * @template State * @template {Record<string,import('../types').ActionCreator>} Actions * @template Selectors * @param {string} key Unique namespace identifier. * @param {ReduxStoreConfig<State,Actions,Selectors>} options Registered store options, with properties * describing reducer, actions, selectors, * and resolvers. * * @return {StoreDescriptor<ReduxStoreConfig<State,Actions,Selectors>>} Store Object. */ function createReduxStore(key, options) { const privateActions = {}; const privateSelectors = {}; const privateRegistrationFunctions = { privateActions, registerPrivateActions: actions => { Object.assign(privateActions, actions); }, privateSelectors, registerPrivateSelectors: selectors => { Object.assign(privateSelectors, selectors); } }; const storeDescriptor = { name: key, instantiate: registry => { /** * Stores listener functions registered with `subscribe()`. * * When functions register to listen to store changes with * `subscribe()` they get added here. Although Redux offers * its own `subscribe()` function directly, by wrapping the * subscription in this store instance it's possible to * optimize checking if the state has changed before calling * each listener. * * @type {Set<ListenerFunction>} */ const listeners = new Set(); const reducer = options.reducer; const thunkArgs = { registry, get dispatch() { return thunkActions; }, get select() { return thunkSelectors; }, get resolveSelect() { return getResolveSelectors(); } }; const store = instantiateReduxStore(key, options, registry, thunkArgs); // Expose the private registration functions on the store // so they can be copied to a sub registry in registry.js. lock(store, privateRegistrationFunctions); const resolversCache = createResolversCache(); function bindAction(action) { return (...args) => Promise.resolve(store.dispatch(action(...args))); } const actions = { ...mapValues(actions_namespaceObject, bindAction), ...mapValues(options.actions, bindAction) }; const boundPrivateActions = createBindingCache(bindAction); const allActions = new Proxy(() => {}, { get: (target, prop) => { const privateAction = privateActions[prop]; return privateAction ? boundPrivateActions.get(privateAction, prop) : actions[prop]; } }); const thunkActions = new Proxy(allActions, { apply: (target, thisArg, [action]) => store.dispatch(action) }); lock(actions, allActions); const resolvers = options.resolvers ? mapResolvers(options.resolvers) : {}; function bindSelector(selector, selectorName) { if (selector.isRegistrySelector) { selector.registry = registry; } const boundSelector = (...args) => { args = normalize(selector, args); const state = store.__unstableOriginalGetState(); // Before calling the selector, switch to the correct // registry. if (selector.isRegistrySelector) { selector.registry = registry; } return selector(state.root, ...args); }; // Expose normalization method on the bound selector // in order that it can be called when fullfilling // the resolver. boundSelector.__unstableNormalizeArgs = selector.__unstableNormalizeArgs; const resolver = resolvers[selectorName]; if (!resolver) { boundSelector.hasResolver = false; return boundSelector; } return mapSelectorWithResolver(boundSelector, selectorName, resolver, store, resolversCache); } function bindMetadataSelector(metaDataSelector) { const boundSelector = (...args) => { const state = store.__unstableOriginalGetState(); const originalSelectorName = args && args[0]; const originalSelectorArgs = args && args[1]; const targetSelector = options?.selectors?.[originalSelectorName]; // Normalize the arguments passed to the target selector. if (originalSelectorName && targetSelector) { args[1] = normalize(targetSelector, originalSelectorArgs); } return metaDataSelector(state.metadata, ...args); }; boundSelector.hasResolver = false; return boundSelector; } const selectors = { ...mapValues(selectors_namespaceObject, bindMetadataSelector), ...mapValues(options.selectors, bindSelector) }; const boundPrivateSelectors = createBindingCache(bindSelector); // Pre-bind the private selectors that have been registered by the time of // instantiation, so that registry selectors are bound to the registry. for (const [selectorName, selector] of Object.entries(privateSelectors)) { boundPrivateSelectors.get(selector, selectorName); } const allSelectors = new Proxy(() => {}, { get: (target, prop) => { const privateSelector = privateSelectors[prop]; return privateSelector ? boundPrivateSelectors.get(privateSelector, prop) : selectors[prop]; } }); const thunkSelectors = new Proxy(allSelectors, { apply: (target, thisArg, [selector]) => selector(store.__unstableOriginalGetState()) }); lock(selectors, allSelectors); const resolveSelectors = mapResolveSelectors(selectors, store); const suspendSelectors = mapSuspendSelectors(selectors, store); const getSelectors = () => selectors; const getActions = () => actions; const getResolveSelectors = () => resolveSelectors; const getSuspendSelectors = () => suspendSelectors; // We have some modules monkey-patching the store object // It's wrong to do so but until we refactor all of our effects to controls // We need to keep the same "store" instance here. store.__unstableOriginalGetState = store.getState; store.getState = () => store.__unstableOriginalGetState().root; // Customize subscribe behavior to call listeners only on effective change, // not on every dispatch. const subscribe = store && (listener => { listeners.add(listener); return () => listeners.delete(listener); }); let lastState = store.__unstableOriginalGetState(); store.subscribe(() => { const state = store.__unstableOriginalGetState(); const hasChanged = state !== lastState; lastState = state; if (hasChanged) { for (const listener of listeners) { listener(); } } }); // This can be simplified to just { subscribe, getSelectors, getActions } // Once we remove the use function. return { reducer, store, actions, selectors, resolvers, getSelectors, getResolveSelectors, getSuspendSelectors, getActions, subscribe }; } }; // Expose the private registration functions on the store // descriptor. That's a natural choice since that's where the // public actions and selectors are stored . lock(storeDescriptor, privateRegistrationFunctions); return storeDescriptor; } /** * Creates a redux store for a namespace. * * @param {string} key Unique namespace identifier. * @param {Object} options Registered store options, with properties * describing reducer, actions, selectors, * and resolvers. * @param {DataRegistry} registry Registry reference. * @param {Object} thunkArgs Argument object for the thunk middleware. * @return {Object} Newly created redux store. */ function instantiateReduxStore(key, options, registry, thunkArgs) { const controls = { ...options.controls, ...builtinControls }; const normalizedControls = mapValues(controls, control => control.isRegistryControl ? control(registry) : control); const middlewares = [resolvers_cache_middleware(registry, key), promise_middleware, external_wp_reduxRoutine_default()(normalizedControls), createThunkMiddleware(thunkArgs)]; const enhancers = [applyMiddleware(...middlewares)]; if (typeof window !== 'undefined' && window.__REDUX_DEVTOOLS_EXTENSION__) { enhancers.push(window.__REDUX_DEVTOOLS_EXTENSION__({ name: key, instanceId: key, serialize: { replacer: devToolsReplacer } })); } const { reducer, initialState } = options; const enhancedReducer = combine_reducers_combineReducers({ metadata: metadata_reducer, root: reducer }); return createStore(enhancedReducer, { root: initialState }, (0,external_wp_compose_namespaceObject.compose)(enhancers)); } /** * Maps selectors to functions that return a resolution promise for them * * @param {Object} selectors Selectors to map. * @param {Object} store The redux store the selectors select from. * * @return {Object} Selectors mapped to their resolution functions. */ function mapResolveSelectors(selectors, store) { const { getIsResolving, hasStartedResolution, hasFinishedResolution, hasResolutionFailed, isResolving, getCachedResolvers, getResolutionState, getResolutionError, hasResolvingSelectors, countSelectorsByStatus, ...storeSelectors } = selectors; return mapValues(storeSelectors, (selector, selectorName) => { // If the selector doesn't have a resolver, just convert the return value // (including exceptions) to a Promise, no additional extra behavior is needed. if (!selector.hasResolver) { return async (...args) => selector.apply(null, args); } return (...args) => { return new Promise((resolve, reject) => { const hasFinished = () => selectors.hasFinishedResolution(selectorName, args); const finalize = result => { const hasFailed = selectors.hasResolutionFailed(selectorName, args); if (hasFailed) { const error = selectors.getResolutionError(selectorName, args); reject(error); } else { resolve(result); } }; const getResult = () => selector.apply(null, args); // Trigger the selector (to trigger the resolver) const result = getResult(); if (hasFinished()) { return finalize(result); } const unsubscribe = store.subscribe(() => { if (hasFinished()) { unsubscribe(); finalize(getResult()); } }); }); }; }); } /** * Maps selectors to functions that throw a suspense promise if not yet resolved. * * @param {Object} selectors Selectors to map. * @param {Object} store The redux store the selectors select from. * * @return {Object} Selectors mapped to their suspense functions. */ function mapSuspendSelectors(selectors, store) { return mapValues(selectors, (selector, selectorName) => { // Selector without a resolver doesn't have any extra suspense behavior. if (!selector.hasResolver) { return selector; } return (...args) => { const result = selector.apply(null, args); if (selectors.hasFinishedResolution(selectorName, args)) { if (selectors.hasResolutionFailed(selectorName, args)) { throw selectors.getResolutionError(selectorName, args); } return result; } throw new Promise(resolve => { const unsubscribe = store.subscribe(() => { if (selectors.hasFinishedResolution(selectorName, args)) { resolve(); unsubscribe(); } }); }); }; }); } /** * Convert resolvers to a normalized form, an object with `fulfill` method and * optional methods like `isFulfilled`. * * @param {Object} resolvers Resolver to convert */ function mapResolvers(resolvers) { return mapValues(resolvers, resolver => { if (resolver.fulfill) { return resolver; } return { ...resolver, // Copy the enumerable properties of the resolver function. fulfill: resolver // Add the fulfill method. }; }); } /** * Returns a selector with a matched resolver. * Resolvers are side effects invoked once per argument set of a given selector call, * used in ensuring that the data needs for the selector are satisfied. * * @param {Object} selector The selector function to be bound. * @param {string} selectorName The selector name. * @param {Object} resolver Resolver to call. * @param {Object} store The redux store to which the resolvers should be mapped. * @param {Object} resolversCache Resolvers Cache. */ function mapSelectorWithResolver(selector, selectorName, resolver, store, resolversCache) { function fulfillSelector(args) { const state = store.getState(); if (resolversCache.isRunning(selectorName, args) || typeof resolver.isFulfilled === 'function' && resolver.isFulfilled(state, ...args)) { return; } const { metadata } = store.__unstableOriginalGetState(); if (hasStartedResolution(metadata, selectorName, args)) { return; } resolversCache.markAsRunning(selectorName, args); setTimeout(async () => { resolversCache.clear(selectorName, args); store.dispatch(startResolution(selectorName, args)); try { const action = resolver.fulfill(...args); if (action) { await store.dispatch(action); } store.dispatch(finishResolution(selectorName, args)); } catch (error) { store.dispatch(failResolution(selectorName, args, error)); } }, 0); } const selectorResolver = (...args) => { args = normalize(selector, args); fulfillSelector(args); return selector(...args); }; selectorResolver.hasResolver = true; return selectorResolver; } /** * Applies selector's normalization function to the given arguments * if it exists. * * @param {Object} selector The selector potentially with a normalization method property. * @param {Array} args selector arguments to normalize. * @return {Array} Potentially normalized arguments. */ function normalize(selector, args) { if (selector.__unstableNormalizeArgs && typeof selector.__unstableNormalizeArgs === 'function' && args?.length) { return selector.__unstableNormalizeArgs(args); } return args; } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/store/index.js const coreDataStore = { name: 'core/data', instantiate(registry) { const getCoreDataSelector = selectorName => (key, ...args) => { return registry.select(key)[selectorName](...args); }; const getCoreDataAction = actionName => (key, ...args) => { return registry.dispatch(key)[actionName](...args); }; return { getSelectors() { return Object.fromEntries(['getIsResolving', 'hasStartedResolution', 'hasFinishedResolution', 'isResolving', 'getCachedResolvers'].map(selectorName => [selectorName, getCoreDataSelector(selectorName)])); }, getActions() { return Object.fromEntries(['startResolution', 'finishResolution', 'invalidateResolution', 'invalidateResolutionForStore', 'invalidateResolutionForStoreSelector'].map(actionName => [actionName, getCoreDataAction(actionName)])); }, subscribe() { // There's no reasons to trigger any listener when we subscribe to this store // because there's no state stored in this store that need to retrigger selectors // if a change happens, the corresponding store where the tracking stated live // would have already triggered a "subscribe" call. return () => () => {}; } }; } }; /* harmony default export */ const store = (coreDataStore); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/utils/emitter.js /** * Create an event emitter. * * @return {import("../types").DataEmitter} Emitter. */ function createEmitter() { let isPaused = false; let isPending = false; const listeners = new Set(); const notifyListeners = () => // We use Array.from to clone the listeners Set // This ensures that we don't run a listener // that was added as a response to another listener. Array.from(listeners).forEach(listener => listener()); return { get isPaused() { return isPaused; }, subscribe(listener) { listeners.add(listener); return () => listeners.delete(listener); }, pause() { isPaused = true; }, resume() { isPaused = false; if (isPending) { isPending = false; notifyListeners(); } }, emit() { if (isPaused) { isPending = true; return; } notifyListeners(); } }; } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/registry.js /** * WordPress dependencies */ /** * Internal dependencies */ /** @typedef {import('./types').StoreDescriptor} StoreDescriptor */ /** * @typedef {Object} WPDataRegistry An isolated orchestrator of store registrations. * * @property {Function} registerGenericStore Given a namespace key and settings * object, registers a new generic * store. * @property {Function} registerStore Given a namespace key and settings * object, registers a new namespace * store. * @property {Function} subscribe Given a function callback, invokes * the callback on any change to state * within any registered store. * @property {Function} select Given a namespace key, returns an * object of the store's registered * selectors. * @property {Function} dispatch Given a namespace key, returns an * object of the store's registered * action dispatchers. */ /** * @typedef {Object} WPDataPlugin An object of registry function overrides. * * @property {Function} registerStore registers store. */ function getStoreName(storeNameOrDescriptor) { return typeof storeNameOrDescriptor === 'string' ? storeNameOrDescriptor : storeNameOrDescriptor.name; } /** * Creates a new store registry, given an optional object of initial store * configurations. * * @param {Object} storeConfigs Initial store configurations. * @param {Object?} parent Parent registry. * * @return {WPDataRegistry} Data registry. */ function createRegistry(storeConfigs = {}, parent = null) { const stores = {}; const emitter = createEmitter(); let listeningStores = null; /** * Global listener called for each store's update. */ function globalListener() { emitter.emit(); } /** * Subscribe to changes to any data, either in all stores in registry, or * in one specific store. * * @param {Function} listener Listener function. * @param {string|StoreDescriptor?} storeNameOrDescriptor Optional store name. * * @return {Function} Unsubscribe function. */ const subscribe = (listener, storeNameOrDescriptor) => { // subscribe to all stores if (!storeNameOrDescriptor) { return emitter.subscribe(listener); } // subscribe to one store const storeName = getStoreName(storeNameOrDescriptor); const store = stores[storeName]; if (store) { return store.subscribe(listener); } // Trying to access a store that hasn't been registered, // this is a pattern rarely used but seen in some places. // We fallback to global `subscribe` here for backward-compatibility for now. // See https://github.com/WordPress/gutenberg/pull/27466 for more info. if (!parent) { return emitter.subscribe(listener); } return parent.subscribe(listener, storeNameOrDescriptor); }; /** * Calls a selector given the current state and extra arguments. * * @param {string|StoreDescriptor} storeNameOrDescriptor Unique namespace identifier for the store * or the store descriptor. * * @return {*} The selector's returned value. */ function select(storeNameOrDescriptor) { const storeName = getStoreName(storeNameOrDescriptor); listeningStores?.add(storeName); const store = stores[storeName]; if (store) { return store.getSelectors(); } return parent?.select(storeName); } function __unstableMarkListeningStores(callback, ref) { listeningStores = new Set(); try { return callback.call(this); } finally { ref.current = Array.from(listeningStores); listeningStores = null; } } /** * Given a store descriptor, returns an object containing the store's selectors pre-bound to * state so that you only need to supply additional arguments, and modified so that they return * promises that resolve to their eventual values, after any resolvers have ran. * * @param {StoreDescriptor|string} storeNameOrDescriptor The store descriptor. The legacy calling * convention of passing the store name is * also supported. * * @return {Object} Each key of the object matches the name of a selector. */ function resolveSelect(storeNameOrDescriptor) { const storeName = getStoreName(storeNameOrDescriptor); listeningStores?.add(storeName); const store = stores[storeName]; if (store) { return store.getResolveSelectors(); } return parent && parent.resolveSelect(storeName); } /** * Given a store descriptor, returns an object containing the store's selectors pre-bound to * state so that you only need to supply additional arguments, and modified so that they throw * promises in case the selector is not resolved yet. * * @param {StoreDescriptor|string} storeNameOrDescriptor The store descriptor. The legacy calling * convention of passing the store name is * also supported. * * @return {Object} Object containing the store's suspense-wrapped selectors. */ function suspendSelect(storeNameOrDescriptor) { const storeName = getStoreName(storeNameOrDescriptor); listeningStores?.add(storeName); const store = stores[storeName]; if (store) { return store.getSuspendSelectors(); } return parent && parent.suspendSelect(storeName); } /** * Returns the available actions for a part of the state. * * @param {string|StoreDescriptor} storeNameOrDescriptor Unique namespace identifier for the store * or the store descriptor. * * @return {*} The action's returned value. */ function dispatch(storeNameOrDescriptor) { const storeName = getStoreName(storeNameOrDescriptor); const store = stores[storeName]; if (store) { return store.getActions(); } return parent && parent.dispatch(storeName); } // // Deprecated // TODO: Remove this after `use()` is removed. function withPlugins(attributes) { return Object.fromEntries(Object.entries(attributes).map(([key, attribute]) => { if (typeof attribute !== 'function') { return [key, attribute]; } return [key, function () { return registry[key].apply(null, arguments); }]; })); } /** * Registers a store instance. * * @param {string} name Store registry name. * @param {Function} createStore Function that creates a store object (getSelectors, getActions, subscribe). */ function registerStoreInstance(name, createStore) { if (stores[name]) { // eslint-disable-next-line no-console console.error('Store "' + name + '" is already registered.'); return stores[name]; } const store = createStore(); if (typeof store.getSelectors !== 'function') { throw new TypeError('store.getSelectors must be a function'); } if (typeof store.getActions !== 'function') { throw new TypeError('store.getActions must be a function'); } if (typeof store.subscribe !== 'function') { throw new TypeError('store.subscribe must be a function'); } // The emitter is used to keep track of active listeners when the registry // get paused, that way, when resumed we should be able to call all these // pending listeners. store.emitter = createEmitter(); const currentSubscribe = store.subscribe; store.subscribe = listener => { const unsubscribeFromEmitter = store.emitter.subscribe(listener); const unsubscribeFromStore = currentSubscribe(() => { if (store.emitter.isPaused) { store.emitter.emit(); return; } listener(); }); return () => { unsubscribeFromStore?.(); unsubscribeFromEmitter?.(); }; }; stores[name] = store; store.subscribe(globalListener); // Copy private actions and selectors from the parent store. if (parent) { try { unlock(store.store).registerPrivateActions(unlock(parent).privateActionsOf(name)); unlock(store.store).registerPrivateSelectors(unlock(parent).privateSelectorsOf(name)); } catch (e) { // unlock() throws if store.store was not locked. // The error indicates there's nothing to do here so let's // ignore it. } } return store; } /** * Registers a new store given a store descriptor. * * @param {StoreDescriptor} store Store descriptor. */ function register(store) { registerStoreInstance(store.name, () => store.instantiate(registry)); } function registerGenericStore(name, store) { external_wp_deprecated_default()('wp.data.registerGenericStore', { since: '5.9', alternative: 'wp.data.register( storeDescriptor )' }); registerStoreInstance(name, () => store); } /** * Registers a standard `@wordpress/data` store. * * @param {string} storeName Unique namespace identifier. * @param {Object} options Store description (reducer, actions, selectors, resolvers). * * @return {Object} Registered store object. */ function registerStore(storeName, options) { if (!options.reducer) { throw new TypeError('Must specify store reducer'); } const store = registerStoreInstance(storeName, () => createReduxStore(storeName, options).instantiate(registry)); return store.store; } function batch(callback) { // If we're already batching, just call the callback. if (emitter.isPaused) { callback(); return; } emitter.pause(); Object.values(stores).forEach(store => store.emitter.pause()); try { callback(); } finally { emitter.resume(); Object.values(stores).forEach(store => store.emitter.resume()); } } let registry = { batch, stores, namespaces: stores, // TODO: Deprecate/remove this. subscribe, select, resolveSelect, suspendSelect, dispatch, use, register, registerGenericStore, registerStore, __unstableMarkListeningStores }; // // TODO: // This function will be deprecated as soon as it is no longer internally referenced. function use(plugin, options) { if (!plugin) { return; } registry = { ...registry, ...plugin(registry, options) }; return registry; } registry.register(store); for (const [name, config] of Object.entries(storeConfigs)) { registry.register(createReduxStore(name, config)); } if (parent) { parent.subscribe(globalListener); } const registryWithPlugins = withPlugins(registry); lock(registryWithPlugins, { privateActionsOf: name => { try { return unlock(stores[name].store).privateActions; } catch (e) { // unlock() throws an error the store was not locked – this means // there no private actions are available return {}; } }, privateSelectorsOf: name => { try { return unlock(stores[name].store).privateSelectors; } catch (e) { return {}; } } }); return registryWithPlugins; } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/default-registry.js /** * Internal dependencies */ /* harmony default export */ const default_registry = (createRegistry()); ;// CONCATENATED MODULE: ./node_modules/is-plain-object/dist/is-plain-object.mjs /*! * is-plain-object <https://github.com/jonschlinkert/is-plain-object> * * Copyright (c) 2014-2017, Jon Schlinkert. * Released under the MIT License. */ function is_plain_object_isObject(o) { return Object.prototype.toString.call(o) === '[object Object]'; } function is_plain_object_isPlainObject(o) { var ctor,prot; if (is_plain_object_isObject(o) === false) return false; // If has modified constructor ctor = o.constructor; if (ctor === undefined) return true; // If has modified prototype prot = ctor.prototype; if (is_plain_object_isObject(prot) === false) return false; // If constructor does not have an Object-specific method if (prot.hasOwnProperty('isPrototypeOf') === false) { return false; } // Most likely a plain Object return true; } // EXTERNAL MODULE: ./node_modules/deepmerge/dist/cjs.js var cjs = __webpack_require__(66); var cjs_default = /*#__PURE__*/__webpack_require__.n(cjs); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/plugins/persistence/storage/object.js let objectStorage; const storage = { getItem(key) { if (!objectStorage || !objectStorage[key]) { return null; } return objectStorage[key]; }, setItem(key, value) { if (!objectStorage) { storage.clear(); } objectStorage[key] = String(value); }, clear() { objectStorage = Object.create(null); } }; /* harmony default export */ const object = (storage); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/plugins/persistence/storage/default.js /** * Internal dependencies */ let default_storage; try { // Private Browsing in Safari 10 and earlier will throw an error when // attempting to set into localStorage. The test here is intentional in // causing a thrown error as condition for using fallback object storage. default_storage = window.localStorage; default_storage.setItem('__wpDataTestLocalStorage', ''); default_storage.removeItem('__wpDataTestLocalStorage'); } catch (error) { default_storage = object; } /* harmony default export */ const storage_default = (default_storage); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/plugins/persistence/index.js /** * External dependencies */ /** * Internal dependencies */ /** @typedef {import('../../registry').WPDataRegistry} WPDataRegistry */ /** @typedef {import('../../registry').WPDataPlugin} WPDataPlugin */ /** * @typedef {Object} WPDataPersistencePluginOptions Persistence plugin options. * * @property {Storage} storage Persistent storage implementation. This must * at least implement `getItem` and `setItem` of * the Web Storage API. * @property {string} storageKey Key on which to set in persistent storage. */ /** * Default plugin storage. * * @type {Storage} */ const DEFAULT_STORAGE = storage_default; /** * Default plugin storage key. * * @type {string} */ const DEFAULT_STORAGE_KEY = 'WP_DATA'; /** * Higher-order reducer which invokes the original reducer only if state is * inequal from that of the action's `nextState` property, otherwise returning * the original state reference. * * @param {Function} reducer Original reducer. * * @return {Function} Enhanced reducer. */ const withLazySameState = reducer => (state, action) => { if (action.nextState === state) { return state; } return reducer(state, action); }; /** * Creates a persistence interface, exposing getter and setter methods (`get` * and `set` respectively). * * @param {WPDataPersistencePluginOptions} options Plugin options. * * @return {Object} Persistence interface. */ function createPersistenceInterface(options) { const { storage = DEFAULT_STORAGE, storageKey = DEFAULT_STORAGE_KEY } = options; let data; /** * Returns the persisted data as an object, defaulting to an empty object. * * @return {Object} Persisted data. */ function getData() { if (data === undefined) { // If unset, getItem is expected to return null. Fall back to // empty object. const persisted = storage.getItem(storageKey); if (persisted === null) { data = {}; } else { try { data = JSON.parse(persisted); } catch (error) { // Similarly, should any error be thrown during parse of // the string (malformed JSON), fall back to empty object. data = {}; } } } return data; } /** * Merges an updated reducer state into the persisted data. * * @param {string} key Key to update. * @param {*} value Updated value. */ function setData(key, value) { data = { ...data, [key]: value }; storage.setItem(storageKey, JSON.stringify(data)); } return { get: getData, set: setData }; } /** * Data plugin to persist store state into a single storage key. * * @param {WPDataRegistry} registry Data registry. * @param {?WPDataPersistencePluginOptions} pluginOptions Plugin options. * * @return {WPDataPlugin} Data plugin. */ function persistencePlugin(registry, pluginOptions) { const persistence = createPersistenceInterface(pluginOptions); /** * Creates an enhanced store dispatch function, triggering the state of the * given store name to be persisted when changed. * * @param {Function} getState Function which returns current state. * @param {string} storeName Store name. * @param {?Array<string>} keys Optional subset of keys to save. * * @return {Function} Enhanced dispatch function. */ function createPersistOnChange(getState, storeName, keys) { let getPersistedState; if (Array.isArray(keys)) { // Given keys, the persisted state should by produced as an object // of the subset of keys. This implementation uses combineReducers // to leverage its behavior of returning the same object when none // of the property values changes. This allows a strict reference // equality to bypass a persistence set on an unchanging state. const reducers = keys.reduce((accumulator, key) => Object.assign(accumulator, { [key]: (state, action) => action.nextState[key] }), {}); getPersistedState = withLazySameState(build_module_combineReducers(reducers)); } else { getPersistedState = (state, action) => action.nextState; } let lastState = getPersistedState(undefined, { nextState: getState() }); return () => { const state = getPersistedState(lastState, { nextState: getState() }); if (state !== lastState) { persistence.set(storeName, state); lastState = state; } }; } return { registerStore(storeName, options) { if (!options.persist) { return registry.registerStore(storeName, options); } // Load from persistence to use as initial state. const persistedState = persistence.get()[storeName]; if (persistedState !== undefined) { let initialState = options.reducer(options.initialState, { type: '@@WP/PERSISTENCE_RESTORE' }); if (is_plain_object_isPlainObject(initialState) && is_plain_object_isPlainObject(persistedState)) { // If state is an object, ensure that: // - Other keys are left intact when persisting only a // subset of keys. // - New keys in what would otherwise be used as initial // state are deeply merged as base for persisted value. initialState = cjs_default()(initialState, persistedState, { isMergeableObject: is_plain_object_isPlainObject }); } else { // If there is a mismatch in object-likeness of default // initial or persisted state, defer to persisted value. initialState = persistedState; } options = { ...options, initialState }; } const store = registry.registerStore(storeName, options); store.subscribe(createPersistOnChange(store.getState, storeName, options.persist)); return store; } }; } persistencePlugin.__unstableMigrate = () => {}; /* harmony default export */ const persistence = (persistencePlugin); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/plugins/index.js ;// CONCATENATED MODULE: external ["wp","priorityQueue"] const external_wp_priorityQueue_namespaceObject = window["wp"]["priorityQueue"]; ;// CONCATENATED MODULE: external ["wp","element"] const external_wp_element_namespaceObject = window["wp"]["element"]; ;// CONCATENATED MODULE: external ["wp","isShallowEqual"] const external_wp_isShallowEqual_namespaceObject = window["wp"]["isShallowEqual"]; var external_wp_isShallowEqual_default = /*#__PURE__*/__webpack_require__.n(external_wp_isShallowEqual_namespaceObject); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/registry-provider/context.js /** * WordPress dependencies */ /** * Internal dependencies */ const Context = (0,external_wp_element_namespaceObject.createContext)(default_registry); const { Consumer, Provider } = Context; /** * A custom react Context consumer exposing the provided `registry` to * children components. Used along with the RegistryProvider. * * You can read more about the react context api here: * https://react.dev/learn/passing-data-deeply-with-context#step-3-provide-the-context * * @example * ```js * import { * RegistryProvider, * RegistryConsumer, * createRegistry * } from '@wordpress/data'; * * const registry = createRegistry( {} ); * * const App = ( { props } ) => { * return <RegistryProvider value={ registry }> * <div>Hello There</div> * <RegistryConsumer> * { ( registry ) => ( * <ComponentUsingRegistry * { ...props } * registry={ registry } * ) } * </RegistryConsumer> * </RegistryProvider> * } * ``` */ const RegistryConsumer = Consumer; /** * A custom Context provider for exposing the provided `registry` to children * components via a consumer. * * See <a name="#RegistryConsumer">RegistryConsumer</a> documentation for * example. */ /* harmony default export */ const context = (Provider); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/registry-provider/use-registry.js /** * WordPress dependencies */ /** * Internal dependencies */ /** * A custom react hook exposing the registry context for use. * * This exposes the `registry` value provided via the * <a href="#RegistryProvider">Registry Provider</a> to a component implementing * this hook. * * It acts similarly to the `useContext` react hook. * * Note: Generally speaking, `useRegistry` is a low level hook that in most cases * won't be needed for implementation. Most interactions with the `@wordpress/data` * API can be performed via the `useSelect` hook, or the `withSelect` and * `withDispatch` higher order components. * * @example * ```js * import { * RegistryProvider, * createRegistry, * useRegistry, * } from '@wordpress/data'; * * const registry = createRegistry( {} ); * * const SomeChildUsingRegistry = ( props ) => { * const registry = useRegistry(); * // ...logic implementing the registry in other react hooks. * }; * * * const ParentProvidingRegistry = ( props ) => { * return <RegistryProvider value={ registry }> * <SomeChildUsingRegistry { ...props } /> * </RegistryProvider> * }; * ``` * * @return {Function} A custom react hook exposing the registry context value. */ function useRegistry() { return (0,external_wp_element_namespaceObject.useContext)(Context); } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/async-mode-provider/context.js /** * WordPress dependencies */ const context_Context = (0,external_wp_element_namespaceObject.createContext)(false); const { Consumer: context_Consumer, Provider: context_Provider } = context_Context; const AsyncModeConsumer = (/* unused pure expression or super */ null && (context_Consumer)); /** * Context Provider Component used to switch the data module component rerendering * between Sync and Async modes. * * @example * * ```js * import { useSelect, AsyncModeProvider } from '@wordpress/data'; * import { store as blockEditorStore } from '@wordpress/block-editor'; * * function BlockCount() { * const count = useSelect( ( select ) => { * return select( blockEditorStore ).getBlockCount() * }, [] ); * * return count; * } * * function App() { * return ( * <AsyncModeProvider value={ true }> * <BlockCount /> * </AsyncModeProvider> * ); * } * ``` * * In this example, the BlockCount component is rerendered asynchronously. * It means if a more critical task is being performed (like typing in an input), * the rerendering is delayed until the browser becomes IDLE. * It is possible to nest multiple levels of AsyncModeProvider to fine-tune the rendering behavior. * * @param {boolean} props.value Enable Async Mode. * @return {Component} The component to be rendered. */ /* harmony default export */ const async_mode_provider_context = (context_Provider); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/async-mode-provider/use-async-mode.js /** * WordPress dependencies */ /** * Internal dependencies */ function useAsyncMode() { return (0,external_wp_element_namespaceObject.useContext)(context_Context); } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/use-select/index.js /** * WordPress dependencies */ /** * Internal dependencies */ const renderQueue = (0,external_wp_priorityQueue_namespaceObject.createQueue)(); /** * @typedef {import('../../types').StoreDescriptor<C>} StoreDescriptor * @template {import('../../types').AnyConfig} C */ /** * @typedef {import('../../types').ReduxStoreConfig<State,Actions,Selectors>} ReduxStoreConfig * @template State * @template {Record<string,import('../../types').ActionCreator>} Actions * @template Selectors */ /** @typedef {import('../../types').MapSelect} MapSelect */ /** * @typedef {import('../../types').UseSelectReturn<T>} UseSelectReturn * @template {MapSelect|StoreDescriptor<any>} T */ function Store(registry, suspense) { const select = suspense ? registry.suspendSelect : registry.select; const queueContext = {}; let lastMapSelect; let lastMapResult; let lastMapResultValid = false; let lastIsAsync; let subscriber; let didWarnUnstableReference; const storeStatesOnMount = new Map(); function getStoreState(name) { var _registry$stores$name; // If there's no store property (custom generic store), return an empty // object. When comparing the state, the empty objects will cause the // equality check to fail, setting `lastMapResultValid` to false. return (_registry$stores$name = registry.stores[name]?.store?.getState?.()) !== null && _registry$stores$name !== void 0 ? _registry$stores$name : {}; } const createSubscriber = stores => { // The set of stores the `subscribe` function is supposed to subscribe to. Here it is // initialized, and then the `updateStores` function can add new stores to it. const activeStores = [...stores]; // The `subscribe` function, which is passed to the `useSyncExternalStore` hook, could // be called multiple times to establish multiple subscriptions. That's why we need to // keep a set of active subscriptions; const activeSubscriptions = new Set(); function subscribe(listener) { // Maybe invalidate the value right after subscription was created. // React will call `getValue` after subscribing, to detect store // updates that happened in the interval between the `getValue` call // during render and creating the subscription, which is slightly // delayed. We need to ensure that this second `getValue` call will // compute a fresh value only if any of the store states have // changed in the meantime. if (lastMapResultValid) { for (const name of activeStores) { if (storeStatesOnMount.get(name) !== getStoreState(name)) { lastMapResultValid = false; } } } storeStatesOnMount.clear(); const onStoreChange = () => { // Invalidate the value on store update, so that a fresh value is computed. lastMapResultValid = false; listener(); }; const onChange = () => { if (lastIsAsync) { renderQueue.add(queueContext, onStoreChange); } else { onStoreChange(); } }; const unsubs = []; function subscribeStore(storeName) { unsubs.push(registry.subscribe(onChange, storeName)); } for (const storeName of activeStores) { subscribeStore(storeName); } activeSubscriptions.add(subscribeStore); return () => { activeSubscriptions.delete(subscribeStore); for (const unsub of unsubs.values()) { // The return value of the subscribe function could be undefined if the store is a custom generic store. unsub?.(); } // Cancel existing store updates that were already scheduled. renderQueue.cancel(queueContext); }; } // Check if `newStores` contains some stores we're not subscribed to yet, and add them. function updateStores(newStores) { for (const newStore of newStores) { if (activeStores.includes(newStore)) { continue; } // New `subscribe` calls will subscribe to `newStore`, too. activeStores.push(newStore); // Add `newStore` to existing subscriptions. for (const subscription of activeSubscriptions) { subscription(newStore); } } } return { subscribe, updateStores }; }; return (mapSelect, isAsync) => { function updateValue() { // If the last value is valid, and the `mapSelect` callback hasn't changed, // then we can safely return the cached value. The value can change only on // store update, and in that case value will be invalidated by the listener. if (lastMapResultValid && mapSelect === lastMapSelect) { return lastMapResult; } const listeningStores = { current: null }; const mapResult = registry.__unstableMarkListeningStores(() => mapSelect(select, registry), listeningStores); if (false) {} if (!subscriber) { for (const name of listeningStores.current) { storeStatesOnMount.set(name, getStoreState(name)); } subscriber = createSubscriber(listeningStores.current); } else { subscriber.updateStores(listeningStores.current); } // If the new value is shallow-equal to the old one, keep the old one so // that we don't trigger unwanted updates that do a `===` check. if (!external_wp_isShallowEqual_default()(lastMapResult, mapResult)) { lastMapResult = mapResult; } lastMapSelect = mapSelect; lastMapResultValid = true; } function getValue() { // Update the value in case it's been invalidated or `mapSelect` has changed. updateValue(); return lastMapResult; } // When transitioning from async to sync mode, cancel existing store updates // that have been scheduled, and invalidate the value so that it's freshly // computed. It might have been changed by the update we just cancelled. if (lastIsAsync && !isAsync) { lastMapResultValid = false; renderQueue.cancel(queueContext); } updateValue(); lastIsAsync = isAsync; // Return a pair of functions that can be passed to `useSyncExternalStore`. return { subscribe: subscriber.subscribe, getValue }; }; } function useStaticSelect(storeName) { return useRegistry().select(storeName); } function useMappingSelect(suspense, mapSelect, deps) { const registry = useRegistry(); const isAsync = useAsyncMode(); const store = (0,external_wp_element_namespaceObject.useMemo)(() => Store(registry, suspense), [registry, suspense]); // These are "pass-through" dependencies from the parent hook, // and the parent should catch any hook rule violations. // eslint-disable-next-line react-hooks/exhaustive-deps const selector = (0,external_wp_element_namespaceObject.useCallback)(mapSelect, deps); const { subscribe, getValue } = store(selector, isAsync); const result = (0,external_wp_element_namespaceObject.useSyncExternalStore)(subscribe, getValue, getValue); (0,external_wp_element_namespaceObject.useDebugValue)(result); return result; } /** * Custom react hook for retrieving props from registered selectors. * * In general, this custom React hook follows the * [rules of hooks](https://react.dev/reference/rules/rules-of-hooks). * * @template {MapSelect | StoreDescriptor<any>} T * @param {T} mapSelect Function called on every state change. The returned value is * exposed to the component implementing this hook. The function * receives the `registry.select` method on the first argument * and the `registry` on the second argument. * When a store key is passed, all selectors for the store will be * returned. This is only meant for usage of these selectors in event * callbacks, not for data needed to create the element tree. * @param {unknown[]} deps If provided, this memoizes the mapSelect so the same `mapSelect` is * invoked on every state change unless the dependencies change. * * @example * ```js * import { useSelect } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * function HammerPriceDisplay( { currency } ) { * const price = useSelect( ( select ) => { * return select( myCustomStore ).getPrice( 'hammer', currency ); * }, [ currency ] ); * return new Intl.NumberFormat( 'en-US', { * style: 'currency', * currency, * } ).format( price ); * } * * // Rendered in the application: * // <HammerPriceDisplay currency="USD" /> * ``` * * In the above example, when `HammerPriceDisplay` is rendered into an * application, the price will be retrieved from the store state using the * `mapSelect` callback on `useSelect`. If the currency prop changes then * any price in the state for that currency is retrieved. If the currency prop * doesn't change and other props are passed in that do change, the price will * not change because the dependency is just the currency. * * When data is only used in an event callback, the data should not be retrieved * on render, so it may be useful to get the selectors function instead. * * **Don't use `useSelect` this way when calling the selectors in the render * function because your component won't re-render on a data change.** * * ```js * import { useSelect } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * function Paste( { children } ) { * const { getSettings } = useSelect( myCustomStore ); * function onPaste() { * // Do something with the settings. * const settings = getSettings(); * } * return <div onPaste={ onPaste }>{ children }</div>; * } * ``` * @return {UseSelectReturn<T>} A custom react hook. */ function useSelect(mapSelect, deps) { // On initial call, on mount, determine the mode of this `useSelect` call // and then never allow it to change on subsequent updates. const staticSelectMode = typeof mapSelect !== 'function'; const staticSelectModeRef = (0,external_wp_element_namespaceObject.useRef)(staticSelectMode); if (staticSelectMode !== staticSelectModeRef.current) { const prevMode = staticSelectModeRef.current ? 'static' : 'mapping'; const nextMode = staticSelectMode ? 'static' : 'mapping'; throw new Error(`Switching useSelect from ${prevMode} to ${nextMode} is not allowed`); } /* eslint-disable react-hooks/rules-of-hooks */ // `staticSelectMode` is not allowed to change during the hook instance's, // lifetime, so the rules of hooks are not really violated. return staticSelectMode ? useStaticSelect(mapSelect) : useMappingSelect(false, mapSelect, deps); /* eslint-enable react-hooks/rules-of-hooks */ } /** * A variant of the `useSelect` hook that has the same API, but is a compatible * Suspense-enabled data source. * * @template {MapSelect} T * @param {T} mapSelect Function called on every state change. The * returned value is exposed to the component * using this hook. The function receives the * `registry.suspendSelect` method as the first * argument and the `registry` as the second one. * @param {Array} deps A dependency array used to memoize the `mapSelect` * so that the same `mapSelect` is invoked on every * state change unless the dependencies change. * * @throws {Promise} A suspense Promise that is thrown if any of the called * selectors is in an unresolved state. * * @return {ReturnType<T>} Data object returned by the `mapSelect` function. */ function useSuspenseSelect(mapSelect, deps) { return useMappingSelect(true, mapSelect, deps); } ;// CONCATENATED MODULE: external "ReactJSXRuntime" const external_ReactJSXRuntime_namespaceObject = window["ReactJSXRuntime"]; ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/with-select/index.js /** * WordPress dependencies */ /** * Internal dependencies */ /** @typedef {import('react').ComponentType} ComponentType */ /** * Higher-order component used to inject state-derived props using registered * selectors. * * @param {Function} mapSelectToProps Function called on every state change, * expected to return object of props to * merge with the component's own props. * * @example * ```js * import { withSelect } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * function PriceDisplay( { price, currency } ) { * return new Intl.NumberFormat( 'en-US', { * style: 'currency', * currency, * } ).format( price ); * } * * const HammerPriceDisplay = withSelect( ( select, ownProps ) => { * const { getPrice } = select( myCustomStore ); * const { currency } = ownProps; * * return { * price: getPrice( 'hammer', currency ), * }; * } )( PriceDisplay ); * * // Rendered in the application: * // * // <HammerPriceDisplay currency="USD" /> * ``` * In the above example, when `HammerPriceDisplay` is rendered into an * application, it will pass the price into the underlying `PriceDisplay` * component and update automatically if the price of a hammer ever changes in * the store. * * @return {ComponentType} Enhanced component with merged state data props. */ const withSelect = mapSelectToProps => (0,external_wp_compose_namespaceObject.createHigherOrderComponent)(WrappedComponent => (0,external_wp_compose_namespaceObject.pure)(ownProps => { const mapSelect = (select, registry) => mapSelectToProps(select, ownProps, registry); const mergeProps = useSelect(mapSelect); return /*#__PURE__*/(0,external_ReactJSXRuntime_namespaceObject.jsx)(WrappedComponent, { ...ownProps, ...mergeProps }); }), 'withSelect'); /* harmony default export */ const with_select = (withSelect); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/use-dispatch/use-dispatch-with-map.js /** * WordPress dependencies */ /** * Internal dependencies */ /** * Custom react hook for returning aggregate dispatch actions using the provided * dispatchMap. * * Currently this is an internal api only and is implemented by `withDispatch` * * @param {Function} dispatchMap Receives the `registry.dispatch` function as * the first argument and the `registry` object * as the second argument. Should return an * object mapping props to functions. * @param {Array} deps An array of dependencies for the hook. * @return {Object} An object mapping props to functions created by the passed * in dispatchMap. */ const useDispatchWithMap = (dispatchMap, deps) => { const registry = useRegistry(); const currentDispatchMapRef = (0,external_wp_element_namespaceObject.useRef)(dispatchMap); (0,external_wp_compose_namespaceObject.useIsomorphicLayoutEffect)(() => { currentDispatchMapRef.current = dispatchMap; }); return (0,external_wp_element_namespaceObject.useMemo)(() => { const currentDispatchProps = currentDispatchMapRef.current(registry.dispatch, registry); return Object.fromEntries(Object.entries(currentDispatchProps).map(([propName, dispatcher]) => { if (typeof dispatcher !== 'function') { // eslint-disable-next-line no-console console.warn(`Property ${propName} returned from dispatchMap in useDispatchWithMap must be a function.`); } return [propName, (...args) => currentDispatchMapRef.current(registry.dispatch, registry)[propName](...args)]; })); }, [registry, ...deps]); }; /* harmony default export */ const use_dispatch_with_map = (useDispatchWithMap); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/with-dispatch/index.js /** * WordPress dependencies */ /** * Internal dependencies */ /** @typedef {import('react').ComponentType} ComponentType */ /** * Higher-order component used to add dispatch props using registered action * creators. * * @param {Function} mapDispatchToProps A function of returning an object of * prop names where value is a * dispatch-bound action creator, or a * function to be called with the * component's props and returning an * action creator. * * @example * ```jsx * function Button( { onClick, children } ) { * return <button type="button" onClick={ onClick }>{ children }</button>; * } * * import { withDispatch } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * const SaleButton = withDispatch( ( dispatch, ownProps ) => { * const { startSale } = dispatch( myCustomStore ); * const { discountPercent } = ownProps; * * return { * onClick() { * startSale( discountPercent ); * }, * }; * } )( Button ); * * // Rendered in the application: * // * // <SaleButton discountPercent="20">Start Sale!</SaleButton> * ``` * * @example * In the majority of cases, it will be sufficient to use only two first params * passed to `mapDispatchToProps` as illustrated in the previous example. * However, there might be some very advanced use cases where using the * `registry` object might be used as a tool to optimize the performance of * your component. Using `select` function from the registry might be useful * when you need to fetch some dynamic data from the store at the time when the * event is fired, but at the same time, you never use it to render your * component. In such scenario, you can avoid using the `withSelect` higher * order component to compute such prop, which might lead to unnecessary * re-renders of your component caused by its frequent value change. * Keep in mind, that `mapDispatchToProps` must return an object with functions * only. * * ```jsx * function Button( { onClick, children } ) { * return <button type="button" onClick={ onClick }>{ children }</button>; * } * * import { withDispatch } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * const SaleButton = withDispatch( ( dispatch, ownProps, { select } ) => { * // Stock number changes frequently. * const { getStockNumber } = select( myCustomStore ); * const { startSale } = dispatch( myCustomStore ); * return { * onClick() { * const discountPercent = getStockNumber() > 50 ? 10 : 20; * startSale( discountPercent ); * }, * }; * } )( Button ); * * // Rendered in the application: * // * // <SaleButton>Start Sale!</SaleButton> * ``` * * _Note:_ It is important that the `mapDispatchToProps` function always * returns an object with the same keys. For example, it should not contain * conditions under which a different value would be returned. * * @return {ComponentType} Enhanced component with merged dispatcher props. */ const withDispatch = mapDispatchToProps => (0,external_wp_compose_namespaceObject.createHigherOrderComponent)(WrappedComponent => ownProps => { const mapDispatch = (dispatch, registry) => mapDispatchToProps(dispatch, ownProps, registry); const dispatchProps = use_dispatch_with_map(mapDispatch, []); return /*#__PURE__*/(0,external_ReactJSXRuntime_namespaceObject.jsx)(WrappedComponent, { ...ownProps, ...dispatchProps }); }, 'withDispatch'); /* harmony default export */ const with_dispatch = (withDispatch); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/with-registry/index.js /** * WordPress dependencies */ /** * Internal dependencies */ /** * Higher-order component which renders the original component with the current * registry context passed as its `registry` prop. * * @param {Component} OriginalComponent Original component. * * @return {Component} Enhanced component. */ const withRegistry = (0,external_wp_compose_namespaceObject.createHigherOrderComponent)(OriginalComponent => props => /*#__PURE__*/(0,external_ReactJSXRuntime_namespaceObject.jsx)(RegistryConsumer, { children: registry => /*#__PURE__*/(0,external_ReactJSXRuntime_namespaceObject.jsx)(OriginalComponent, { ...props, registry: registry }) }), 'withRegistry'); /* harmony default export */ const with_registry = (withRegistry); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/components/use-dispatch/use-dispatch.js /** * Internal dependencies */ /** * @typedef {import('../../types').StoreDescriptor<StoreConfig>} StoreDescriptor * @template {import('../../types').AnyConfig} StoreConfig */ /** * @typedef {import('../../types').UseDispatchReturn<StoreNameOrDescriptor>} UseDispatchReturn * @template StoreNameOrDescriptor */ /** * A custom react hook returning the current registry dispatch actions creators. * * Note: The component using this hook must be within the context of a * RegistryProvider. * * @template {undefined | string | StoreDescriptor<any>} StoreNameOrDescriptor * @param {StoreNameOrDescriptor} [storeNameOrDescriptor] Optionally provide the name of the * store or its descriptor from which to * retrieve action creators. If not * provided, the registry.dispatch * function is returned instead. * * @example * This illustrates a pattern where you may need to retrieve dynamic data from * the server via the `useSelect` hook to use in combination with the dispatch * action. * * ```jsx * import { useCallback } from 'react'; * import { useDispatch, useSelect } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * function Button( { onClick, children } ) { * return <button type="button" onClick={ onClick }>{ children }</button> * } * * const SaleButton = ( { children } ) => { * const { stockNumber } = useSelect( * ( select ) => select( myCustomStore ).getStockNumber(), * [] * ); * const { startSale } = useDispatch( myCustomStore ); * const onClick = useCallback( () => { * const discountPercent = stockNumber > 50 ? 10: 20; * startSale( discountPercent ); * }, [ stockNumber ] ); * return <Button onClick={ onClick }>{ children }</Button> * } * * // Rendered somewhere in the application: * // * // <SaleButton>Start Sale!</SaleButton> * ``` * @return {UseDispatchReturn<StoreNameOrDescriptor>} A custom react hook. */ const useDispatch = storeNameOrDescriptor => { const { dispatch } = useRegistry(); return storeNameOrDescriptor === void 0 ? dispatch : dispatch(storeNameOrDescriptor); }; /* harmony default export */ const use_dispatch = (useDispatch); ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/dispatch.js /** * Internal dependencies */ /** * Given a store descriptor, returns an object of the store's action creators. * Calling an action creator will cause it to be dispatched, updating the state value accordingly. * * Note: Action creators returned by the dispatch will return a promise when * they are called. * * @param storeNameOrDescriptor The store descriptor. The legacy calling convention of passing * the store name is also supported. * * @example * ```js * import { dispatch } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * dispatch( myCustomStore ).setPrice( 'hammer', 9.75 ); * ``` * @return Object containing the action creators. */ function dispatch_dispatch(storeNameOrDescriptor) { return default_registry.dispatch(storeNameOrDescriptor); } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/select.js /** * Internal dependencies */ /** * Given a store descriptor, returns an object of the store's selectors. * The selector functions are been pre-bound to pass the current state automatically. * As a consumer, you need only pass arguments of the selector, if applicable. * * * @param storeNameOrDescriptor The store descriptor. The legacy calling convention * of passing the store name is also supported. * * @example * ```js * import { select } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * select( myCustomStore ).getPrice( 'hammer' ); * ``` * * @return Object containing the store's selectors. */ function select_select(storeNameOrDescriptor) { return default_registry.select(storeNameOrDescriptor); } ;// CONCATENATED MODULE: ./node_modules/@wordpress/data/build-module/index.js /** * Internal dependencies */ /** @typedef {import('./types').StoreDescriptor} StoreDescriptor */ /** * Object of available plugins to use with a registry. * * @see [use](#use) * * @type {Object} */ /** * The combineReducers helper function turns an object whose values are different * reducing functions into a single reducing function you can pass to registerReducer. * * @type {import('./types').combineReducers} * @param {Object} reducers An object whose values correspond to different reducing * functions that need to be combined into one. * * @example * ```js * import { combineReducers, createReduxStore, register } from '@wordpress/data'; * * const prices = ( state = {}, action ) => { * return action.type === 'SET_PRICE' ? * { * ...state, * [ action.item ]: action.price, * } : * state; * }; * * const discountPercent = ( state = 0, action ) => { * return action.type === 'START_SALE' ? * action.discountPercent : * state; * }; * * const store = createReduxStore( 'my-shop', { * reducer: combineReducers( { * prices, * discountPercent, * } ), * } ); * register( store ); * ``` * * @return {Function} A reducer that invokes every reducer inside the reducers * object, and constructs a state object with the same shape. */ const build_module_combineReducers = combine_reducers_combineReducers; /** * Given a store descriptor, returns an object containing the store's selectors pre-bound to state * so that you only need to supply additional arguments, and modified so that they return promises * that resolve to their eventual values, after any resolvers have ran. * * @param {StoreDescriptor|string} storeNameOrDescriptor The store descriptor. The legacy calling * convention of passing the store name is * also supported. * * @example * ```js * import { resolveSelect } from '@wordpress/data'; * import { store as myCustomStore } from 'my-custom-store'; * * resolveSelect( myCustomStore ).getPrice( 'hammer' ).then(console.log) * ``` * * @return {Object} Object containing the store's promise-wrapped selectors. */ const build_module_resolveSelect = default_registry.resolveSelect; /** * Given a store descriptor, returns an object containing the store's selectors pre-bound to state * so that you only need to supply additional arguments, and modified so that they throw promises * in case the selector is not resolved yet. * * @param {StoreDescriptor|string} storeNameOrDescriptor The store descriptor. The legacy calling * convention of passing the store name is * also supported. * * @return {Object} Object containing the store's suspense-wrapped selectors. */ const suspendSelect = default_registry.suspendSelect; /** * Given a listener function, the function will be called any time the state value * of one of the registered stores has changed. If you specify the optional * `storeNameOrDescriptor` parameter, the listener function will be called only * on updates on that one specific registered store. * * This function returns an `unsubscribe` function used to stop the subscription. * * @param {Function} listener Callback function. * @param {string|StoreDescriptor?} storeNameOrDescriptor Optional store name. * * @example * ```js * import { subscribe } from '@wordpress/data'; * * const unsubscribe = subscribe( () => { * // You could use this opportunity to test whether the derived result of a * // selector has subsequently changed as the result of a state update. * } ); * * // Later, if necessary... * unsubscribe(); * ``` */ const subscribe = default_registry.subscribe; /** * Registers a generic store instance. * * @deprecated Use `register( storeDescriptor )` instead. * * @param {string} name Store registry name. * @param {Object} store Store instance (`{ getSelectors, getActions, subscribe }`). */ const registerGenericStore = default_registry.registerGenericStore; /** * Registers a standard `@wordpress/data` store. * * @deprecated Use `register` instead. * * @param {string} storeName Unique namespace identifier for the store. * @param {Object} options Store description (reducer, actions, selectors, resolvers). * * @return {Object} Registered store object. */ const registerStore = default_registry.registerStore; /** * Extends a registry to inherit functionality provided by a given plugin. A * plugin is an object with properties aligning to that of a registry, merged * to extend the default registry behavior. * * @param {Object} plugin Plugin object. */ const use = default_registry.use; /** * Registers a standard `@wordpress/data` store descriptor. * * @example * ```js * import { createReduxStore, register } from '@wordpress/data'; * * const store = createReduxStore( 'demo', { * reducer: ( state = 'OK' ) => state, * selectors: { * getValue: ( state ) => state, * }, * } ); * register( store ); * ``` * * @param {StoreDescriptor} store Store descriptor. */ const register = default_registry.register; })(); (window.wp = window.wp || {}).data = __webpack_exports__; /******/ })() ;