/******/ (() => { // 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__ = {}; // 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) }); ;// external ["wp","deprecated"] const external_wp_deprecated_namespaceObject = window["wp"]["deprecated"]; var external_wp_deprecated_default = /*#__PURE__*/__webpack_require__.n(external_wp_deprecated_namespaceObject); ;// ./node_modules/redux/dist/redux.mjs // src/utils/formatProdErrorMessage.ts 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. `; } // src/utils/symbol-observable.ts var $$observable = /* @__PURE__ */ (() => typeof Symbol === "function" && Symbol.observable || "@@observable")(); var symbol_observable_default = $$observable; // src/utils/actionTypes.ts var randomString = () => Math.random().toString(36).substring(7).split("").join("."); var ActionTypes = { INIT: `@@redux/INIT${/* @__PURE__ */ randomString()}`, REPLACE: `@@redux/REPLACE${/* @__PURE__ */ randomString()}`, PROBE_UNKNOWN_ACTION: () => `@@redux/PROBE_UNKNOWN_ACTION${randomString()}` }; var actionTypes_default = ActionTypes; // src/utils/isPlainObject.ts function isPlainObject(obj) { if (typeof obj !== "object" || obj === null) return false; let proto = obj; while (Object.getPrototypeOf(proto) !== null) { proto = Object.getPrototypeOf(proto); } return Object.getPrototypeOf(obj) === proto || Object.getPrototypeOf(obj) === null; } // src/utils/kindOf.ts function miniKindOf(val) { if (val === void 0) return "undefined"; if (val === null) return "null"; const 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"; const constructorName = ctorName(val); switch (constructorName) { case "Symbol": case "Promise": case "WeakMap": case "WeakSet": case "Map": case "Set": return constructorName; } return Object.prototype.toString.call(val).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) { let typeOfVal = typeof val; if (false) {} return typeOfVal; } // src/createStore.ts function createStore(reducer, preloadedState, enhancer) { if (typeof reducer !== "function") { throw new Error( true ? formatProdErrorMessage(2) : 0); } 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 = void 0; } if (typeof enhancer !== "undefined") { if (typeof enhancer !== "function") { throw new Error( true ? formatProdErrorMessage(1) : 0); } return enhancer(createStore)(reducer, preloadedState); } let currentReducer = reducer; let currentState = preloadedState; let currentListeners = /* @__PURE__ */ new Map(); let nextListeners = currentListeners; let listenerIdCounter = 0; let isDispatching = false; function ensureCanMutateNextListeners() { if (nextListeners === currentListeners) { nextListeners = /* @__PURE__ */ new Map(); currentListeners.forEach((listener, key) => { nextListeners.set(key, listener); }); } } function getState() { if (isDispatching) { throw new Error( true ? formatProdErrorMessage(3) : 0); } return currentState; } function subscribe(listener) { if (typeof listener !== "function") { throw new Error( true ? formatProdErrorMessage(4) : 0); } if (isDispatching) { throw new Error( true ? formatProdErrorMessage(5) : 0); } let isSubscribed = true; ensureCanMutateNextListeners(); const listenerId = listenerIdCounter++; nextListeners.set(listenerId, listener); return function unsubscribe() { if (!isSubscribed) { return; } if (isDispatching) { throw new Error( true ? formatProdErrorMessage(6) : 0); } isSubscribed = false; ensureCanMutateNextListeners(); nextListeners.delete(listenerId); currentListeners = null; }; } 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 (typeof action.type !== "string") { throw new Error( true ? formatProdErrorMessage(17) : 0); } if (isDispatching) { throw new Error( true ? formatProdErrorMessage(9) : 0); } try { isDispatching = true; currentState = currentReducer(currentState, action); } finally { isDispatching = false; } const listeners = currentListeners = nextListeners; listeners.forEach((listener) => { listener(); }); return action; } function replaceReducer(nextReducer) { if (typeof nextReducer !== "function") { throw new Error( true ? formatProdErrorMessage(10) : 0); } currentReducer = nextReducer; dispatch({ type: actionTypes_default.REPLACE }); } function observable() { const outerSubscribe = subscribe; return { /** * The minimal observable subscription method. * @param observer Any object that can be used as an observer. * The observer object should have a `next` method. * @returns 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(observer) { if (typeof observer !== "object" || observer === null) { throw new Error( true ? formatProdErrorMessage(11) : 0); } function observeState() { const observerAsObserver = observer; if (observerAsObserver.next) { observerAsObserver.next(getState()); } } observeState(); const unsubscribe = outerSubscribe(observeState); return { unsubscribe }; }, [symbol_observable_default]() { return this; } }; } dispatch({ type: actionTypes_default.INIT }); const store = { dispatch, subscribe, getState, replaceReducer, [symbol_observable_default]: observable }; return store; } function legacy_createStore(reducer, preloadedState, enhancer) { return createStore(reducer, preloadedState, enhancer); } // src/utils/warning.ts function warning(message) { if (typeof console !== "undefined" && typeof console.error === "function") { console.error(message); } try { throw new Error(message); } catch (e) { } } // src/combineReducers.ts function getUnexpectedStateShapeWarningMessage(inputState, reducers, action, unexpectedKeyCache) { const reducerKeys = Object.keys(reducers); const argumentName = action && action.type === actionTypes_default.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('", "')}"`; } const unexpectedKeys = Object.keys(inputState).filter((key) => !reducers.hasOwnProperty(key) && !unexpectedKeyCache[key]); unexpectedKeys.forEach((key) => { unexpectedKeyCache[key] = true; }); if (action && action.type === actionTypes_default.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((key) => { const reducer = reducers[key]; const initialState = reducer(void 0, { type: actionTypes_default.INIT }); if (typeof initialState === "undefined") { throw new Error( true ? formatProdErrorMessage(12) : 0); } if (typeof reducer(void 0, { type: actionTypes_default.PROBE_UNKNOWN_ACTION() }) === "undefined") { throw new Error( true ? formatProdErrorMessage(13) : 0); } }); } function combineReducers(reducers) { const reducerKeys = Object.keys(reducers); const finalReducers = {}; for (let i = 0; i < reducerKeys.length; i++) { const key = reducerKeys[i]; if (false) {} if (typeof reducers[key] === "function") { finalReducers[key] = reducers[key]; } } const finalReducerKeys = Object.keys(finalReducers); let unexpectedKeyCache; if (false) {} let shapeAssertionError; try { assertReducerShape(finalReducers); } catch (e) { shapeAssertionError = e; } return function combination(state = {}, action) { if (shapeAssertionError) { throw shapeAssertionError; } if (false) {} let hasChanged = false; const nextState = {}; for (let i = 0; i < finalReducerKeys.length; i++) { const key = finalReducerKeys[i]; const reducer = finalReducers[key]; const previousStateForKey = state[key]; const nextStateForKey = reducer(previousStateForKey, action); if (typeof nextStateForKey === "undefined") { const 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; }; } // src/bindActionCreators.ts function bindActionCreator(actionCreator, dispatch) { return function(...args) { return dispatch(actionCreator.apply(this, args)); }; } 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); } const boundActionCreators = {}; for (const key in actionCreators) { const actionCreator = actionCreators[key]; if (typeof actionCreator === "function") { boundActionCreators[key] = bindActionCreator(actionCreator, dispatch); } } return boundActionCreators; } // src/compose.ts function compose(...funcs) { if (funcs.length === 0) { return (arg) => arg; } if (funcs.length === 1) { return funcs[0]; } return funcs.reduce((a, b) => (...args) => a(b(...args))); } // src/applyMiddleware.ts function applyMiddleware(...middlewares) { return (createStore2) => (reducer, preloadedState) => { const store = createStore2(reducer, preloadedState); let dispatch = () => { throw new Error( true ? formatProdErrorMessage(15) : 0); }; const middlewareAPI = { getState: store.getState, dispatch: (action, ...args) => dispatch(action, ...args) }; const chain = middlewares.map((middleware) => middleware(middlewareAPI)); dispatch = compose(...chain)(store.dispatch); return { ...store, dispatch }; }; } // src/utils/isAction.ts function isAction(action) { return isPlainObject(action) && "type" in action && typeof action.type === "string"; } //# sourceMappingURL=redux.mjs.map // 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); ;// external ["wp","reduxRoutine"] const external_wp_reduxRoutine_namespaceObject = window["wp"]["reduxRoutine"]; var external_wp_reduxRoutine_default = /*#__PURE__*/__webpack_require__.n(external_wp_reduxRoutine_namespaceObject); ;// external ["wp","compose"] const external_wp_compose_namespaceObject = window["wp"]["compose"]; ;// ./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; }; } ;// ./node_modules/@wordpress/data/build-module/factory.js /** * Internal dependencies */ /** * 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 registrySelector Function receiving a registry `select` * function and returning a state selector. * * @return 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. */ 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 registryControl Function receiving a registry object and returning a control. * * @return Registry control that can be registered with a store. */ function createRegistryControl(registryControl) { registryControl.isRegistryControl = true; return registryControl; } ;// ./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)) }; ;// external ["wp","privateApis"] const external_wp_privateApis_namespaceObject = window["wp"]["privateApis"]; ;// ./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'); ;// ./node_modules/is-promise/index.mjs function isPromise(obj) { return !!obj && (typeof obj === 'object' || typeof obj === 'function') && typeof obj.then === 'function'; } ;// ./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); ;// ./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); ;// ./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); }; } ;// ./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); } ;// ./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); ;// ./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); } ;// ./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]); ;// ./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 }; } ;// ./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 fulfilling // 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; } ;// ./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); ;// ./node_modules/@wordpress/data/build-module/utils/emitter.js /** * Create an event emitter. * * @return The event 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(); } }; } ;// ./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; } ;// ./node_modules/@wordpress/data/build-module/default-registry.js /** * Internal dependencies */ /* harmony default export */ const default_registry = (createRegistry()); ;// ./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); ;// ./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); ;// ./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); ;// ./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); ;// ./node_modules/@wordpress/data/build-module/plugins/index.js ;// external ["wp","priorityQueue"] const external_wp_priorityQueue_namespaceObject = window["wp"]["priorityQueue"]; ;// external ["wp","element"] const external_wp_element_namespaceObject = window["wp"]["element"]; ;// external ["wp","isShallowEqual"] const external_wp_isShallowEqual_namespaceObject = window["wp"]["isShallowEqual"]; var external_wp_isShallowEqual_default = /*#__PURE__*/__webpack_require__.n(external_wp_isShallowEqual_namespaceObject); ;// ./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); ;// ./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); } ;// ./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); ;// ./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); } ;// ./node_modules/@wordpress/data/build-module/components/use-select/index.js /** * WordPress dependencies */ /** * Internal dependencies */ const renderQueue = (0,external_wp_priorityQueue_namespaceObject.createQueue)(); function warnOnUnstableReference(a, b) { if (!a || !b) { return; } const keys = typeof a === 'object' && typeof b === 'object' ? Object.keys(a).filter(k => a[k] !== b[k]) : []; // eslint-disable-next-line no-console console.warn('The `useSelect` hook returns different values when called with the same state and parameters.\n' + 'This can lead to unnecessary re-renders and performance issues if not fixed.\n\n' + 'Non-equal value keys: %s\n\n', keys.join(', ')); } /** * @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 (true) { if (!didWarnUnstableReference) { const secondMapResult = mapSelect(select, registry); if (!external_wp_isShallowEqual_default()(mapResult, secondMapResult)) { warnOnUnstableReference(mapResult, secondMapResult); didWarnUnstableReference = true; } } } 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. 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`); } // `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); } /** * 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); } ;// external "ReactJSXRuntime" const external_ReactJSXRuntime_namespaceObject = window["ReactJSXRuntime"]; ;// ./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); ;// ./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); ;// ./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); ;// ./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); ;// ./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); ;// ./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); } ;// ./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); } ;// ./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__; /******/ })() ;

خطوة

مذيع من كود…من الأستوديو إلى الخوارزمية: المذيع الافتراضي ثورة تقنية أم اغتيال للهوية الإعلامية؟

يونيو 5, 2025

1٬259 11 دقائق

كتبت: فرح سمير

في زمنٍ باتت فيه المذيعة تبتسم دون أن تملك روحًا، ويقدّم المذيع نشرة الأخبار دون أن يشعر بمحتواها، يطرح الواقع الإعلامي سؤالًا صادمًا: هل دخلنا عصر “المذيع الافتراضي” بالفعل؟

لم يعد ظهور مذيعين مدعومين بالذكاء الاصطناعي على شاشات عربية وعالمية مجرد تجربة تقنية، بل أصبح واقعًا يفرض حضوره ويثير القلق، لا سيما بين طلاب الإعلام وممارسيه، الذين يرون في هذه “الكائنات الرقمية” تهديدًا صامتًا لمهنتهم وهويتهم المهنية.

تعود جذور هذه الظاهرة إلى أوائل الألفينات، حين ظهرت أول مذيعة افتراضية على الإنترنت تُدعى “أنانوفا” (Ana-nova)، والتي تم تقديمها عام 2000 بواسطة شركة Ana-nova Ltd التابعة لوكالة الأنباء البريطانية Press Association. كانت أنانوفا تُقدم نشرات إخبارية عبر الإنترنت، وتميزت بقدرتها على تقديم تحديثات فورية في مجالات الأخبار، الطقس، الرياضة، وأسعار الأسهم، في مدة لا تتجاوز سبع دقائق، إلا أن المشروع لم يُستكمل.

وفي عام 2018، قدمت صحيفة “People’s Daily” الصينية مذيعة افتراضية تُدعى “رين شياورونغ” (Ren Xiaorong)، وهي روبوت مدعوم بالذكاء الاصطناعي قادر على التعلم من آلاف المذيعين البشريين، وتمتاز بقدرتها على التطور المستمر بناءً على تفاعل الجمهور، وتعمل على مدار الساعة طوال أيام الأسبوع.

بحلول عام 2019، شهدت الصين توسعًا كبيرًا في استخدام المذيعين الافتراضيين، حيث أصبحت منصة “بيلي بيلي” (Bilibili) موطنًا لأكثر من 230,000 مذيع افتراضي يقدمون محتوى متنوعًا يستهدف فئة الشباب.

ومع هذه التطورات، بدأت دول أخرى في تبني تقنيات المذيعين الافتراضيين. ففي عام 2023، قدمت الكويت أول مذيعة افتراضية في العالم العربي تُدعى “فضة” (Fedha)، حيث ظهرت على موقع “Kuwait News” وتحدثت باللغة العربية الفصحى، مقدّمة الأخبار بناءً على تفضيلات الجمهور.

كما أطلقت قطر مذيعتين افتراضيتين تُدعيان “ابتكار” و“نورا” لتعزيز استخدام الذكاء الاصطناعي في تقديم المحتوى الإعلامي، بينما ظهرت في مصر أول مذيعة افتراضية في فبراير 2023، مما يعكس التوجه المتزايد نحو دمج التقنيات الحديثة في المجال الإعلامي.

“ما بين الحي والرقمي: هل يُقصي الذكاء الاصطناعي الإعلامي البشري؟” المهنة في مواجهة الخوارزميات: المذيعون الحقيقيون يتحدثون”

الإعلامية – دعاء فاروق

في رأيها حول الذكاء الاصطناعي وظاهرة “المذيع الافتراضي”، تؤكد الإعلامية دعاء فاروق أن الإخلاص هو جوهر النجاح في العمل الإعلامي وغيره، مشيرة إلى أن النجاح الحقيقي لا يتحقق إلا بالإخلاص في القول والعمل، حتى وإن تأخر، فإنه سيأتي في النهاية بشكل مرضٍ.

وترى فاروق أن المذيع الافتراضي، رغم برمجته بأي لهجة أو خفة ظل، لا يمكنه أن يحاكي الروح الإنسانية، مؤكدة أن “الروح لا تُبرمج، والقبول الروحي لا يُصنع”، فالإنسان يتمتع بخفة ظل طبيعية وشخصية لا يمكن تقليدها برمجياً.

وتوضح أن الذكاء الاصطناعي قادر على تجميع المعلومات الدينية من الإنترنت، لكنه لا يمكن أن يعوّض التفاعل الإنساني في الفتوى أو المشورة، مشددة على أن “العلماء والشيوخ هم أصحاب علم وتجربة ووعي بالسياق”، في حين أن الذكاء الاصطناعي مجرد محرك بحث يخضع لبرمجة بشرية قد تخطئ.

وتؤمن دعاء بأن المذيع البشري لا يمكن استبداله، خاصة في البرامج ذات الطابع الديني أو الإنساني، لأن “الفنان أو المذيع كتلة من المشاعر”، بينما الذكاء الاصطناعي “لا يستطيع البكاء الحقيقي، ولا التعبير عن الحزن أو التفاعل مع موقف موجع”، مضيفة أن العقل البشري قادر على تمييز المشاعر الحقيقية من الزائفة، حتى وإن كانت البرمجة متقنة.

وفيما يخص التكيف مع التطور، تدعو فاروق الإعلاميين إلى مواكبة أدوات العصر وفهم الذكاء الاصطناعي، لكن دون التخلي عن الهوية الإنسانية والبصمة الشخصية، قائلة: “كل مذيع له بصمة لا يمكن للذكاء الاصطناعي تقليدها”، فالاعتماد على الورقة والقلم وحده لم يعد كافيًا، ويجب على الإعلامي أن يتواصل مع جمهور اليوم بأدوات حديثة دون التفريط بروحه الإنسانية.

وتقر بوجود تهديدات من الذكاء الاصطناعي لبعض الوظائف الروتينية، لكنها تؤكد أنه لن يحل محل من يخاطب الناس ويشعر بهم، مضيفة: “لم أشاهد روبوتًا يمكن أن أصدقه أو أرتبط به عاطفيًا، الذكاء الاصطناعي سيبقى بلا روح.”

وفي ختام حديثها، توجّه رسالة إلى الإعلاميين الشباب، تحثهم فيها على الصبر وتجنّب استعجال الشهرة أو الثراء، مشددة على أن “النجاح الحقيقي لا يأتي في يوم وليلة”، بل هو نجاح تراكمي يُبنى بالتعب والمتابعة والزرع الدائم، مؤكدة أن النجاح السريع يزول سريعًا، بينما النجاح المتين هو من يصنع الاسم والقيمة الجماهيرية.

الإعلامية “ايتن الموجى“

حيث ترى الإعلامية آيتن الموجي أن التكنولوجيا أحدثت تطورًا كبيرًا في جميع المجالات، خاصة الإعلام، لما له من دور في تشكيل الوعي. وتصف فكرة “المذيع الافتراضي” بأنها رائعة، نظرًا لما يتمتع به من ثقافة موسوعية وخلوه من العيوب البشرية مثل التقدم في العمر أو تغير الشكل، كما ترى أن وجوده قد يخلق غيرة مهنية إيجابية تدفع المذيعين البشريين لبذل جهد أكبر من أجل التميز.

مع ذلك، تؤكد أن المذيع الافتراضي يفتقر إلى الجانب الإنساني، مثل المشاعر ولمعة العين والتفاعل الحي في المواقف الإنسانية، مشيرة إلى أن هذه التفاصيل لا يمكن أن يتقنها الذكاء الاصطناعي. وتوضح أن بعض الأنماط الإعلامية مثل الحوارات، تغطية الجرائم، الحروب، وبرامج المسابقات، تحتاج إلى حضور بشري حقيقي وتفاعل مباشر لا يستطيع “الأفاتار” تقديمه.

وتشدد الموجي على أن الخبرة والتجارب الشخصية تصقل الإنسان وتمنحه نضجًا لا يمكن للتكنولوجيا أن تحاكيه، مشبهة الذكاء الاصطناعي بأنه قد يبهر في البداية لكن سرعان ما يصيب المستخدم بالملل بسبب إجاباته المبرمجة. وتؤمن بأهمية مواكبة الإعلاميين للتطور التكنولوجي، مع ضرورة التواضع والتعلم المستمر.

أما تأثير المذيع الافتراضي على فرص العمل، فتعتقد أنه سيكون ملموسًا في البداية، إذ قد تفضل بعض المؤسسات الاعتماد عليه كحل أقل تكلفة، لكنها ترى أن المذيع البشري سيظل مميزًا، مرجحة أن يظهر مستقبلًا تعاون أو تناغم بين الطرفين يُنتج أفكارًا مبتكرة وجديدة.

الاعلامى – احمد سالم

كما يرى الإعلامي أحمد سالم أن المذيعين الافتراضيين لا يشكّلون تهديدًا حقيقيًا للمذيع البشري، لأن التواصل الإنساني لا يمكن تعويضه. ويشير إلى أن التجربة الممتدة لأكثر من عام لم تنتج مذيعًا افتراضيًا لافتًا، مؤكدًا أن الإعلام والفنون تقوم على التفاعل المباشر، وهو ما يفتقر إليه الذكاء الاصطناعي.

ويُبرز سالم أن الميزة الكبرى للمذيع البشري تكمن في رأيه الحي وغير المبرمج، على عكس الذكاء الاصطناعي الذي يعتمد على تغذية مسبقة، موضحًا أن طرح نفس السؤال على عشرة مذيعين سينتج عشر إجابات مختلفة، وهو ما لا يمكن تحقيقه افتراضيًا.

ويؤكد أن البرامج التي تعتمد على بصمة المذيع وطابعه الشخصي يصعب أن ينجح فيها الذكاء الاصطناعي، لأن الثقافة العامة والخبرة الشخصية لا تُبرمجان، مشبّهًا الفرق بين المحتوى الآلي والإنساني بالفرق بين مقال كتبه روبوت وقصيدة كتبها شاعر، فـالموهبة لا تُستنسخ.

ويرى أن الذكاء الاصطناعي يمكن أن يكون أداة مفيدة للمذيع في جمع وتحليل المعلومات، لكن تبقى الصنعة الإعلامية في جوهرها إنسانية. ورغم أنه لا يتوقع تقليصًا مباشرًا للوظائف، إلا أنه يحذر من تأثيرات الواقع الافتراضي على سوق العمل، كما حدث في مهن أخرى، لكنه يؤمن بأن التطور يخلق أيضًا فرصًا جديدة للابتكار.

ويعتبر أن دور المذيع الافتراضي سيبقى محدودًا في النشرات الجافة والمواد غير التفاعلية، ساخرًا من أدائه بقوله: “دمه تقيل”، في إشارة لغياب القبول الجماهيري.

وفي ختام حديثه، ينصح الإعلاميين الشباب بـتنمية ثقافتهم وتطوير أنفسهم للحفاظ على تفوقهم الإنساني، مؤكدًا أن المعرفة والوعي هما الضمان الحقيقي لبقاء الإنسان في الصدارة.

الإعلامى – طه الحديري

ويرى الإعلامي طه الحديري أن المذيع الافتراضي، رغم دقته وكفاءته التقنية، يفتقر للروح، وهي أهم ما يميز الإنسان، مؤكدًا أن التكنولوجيا لا تستطيع محاكاة مشاعر المذيع البشري أو التعبير الحقيقي عن المواقف الإنسانية، مثل قصة أم شهيد أو حوار مع طفل يتيم، لأن أداؤه قائم على برمجة مسبقة تفتقر للنضج والتراكم الشعوري.

ويؤكد أن المذيع الافتراضي محكوم بالمعلومات التي زُوِّد بها ولا يمكنه الإبداع أو الخروج عنها، على عكس المذيع البشري الذي يحلل ويتأقلم مع الواقع. ويضرب مثالًا بنموذج ذكي وصف ترامب بأنه “رجل اقتصاد قوي”، في حين أن الإعلاميين البشريين قدموا تحليلات أدق وتوقعوا الرفض العالمي لسياساته.

ويشير إلى أن البرامج الفنية والإنسانية والشعرية يصعب على الذكاء الاصطناعي أن ينافس فيها، لأنها تتطلب تذوقًا إنسانيًا حقيقيًا لا يمكن برمجته. ويستشهد ببرنامج افتراضي عن الأغاني، موضحًا أن المذيع البشري يمكنه استحضار روح الشاعر والمعنى العاطفي للأغنية، بينما الافتراضي يكتفي بسرد معلومات.

ويعتبر أن الذكاء الاصطناعي ليس بديلاً، بل حافزًا لتطوير المذيع البشري، مشددًا على أن زمن الظهور التلفزيوني القائم على الشكل والترند قد انتهى، وأن الاستمرار في المجال يعتمد على المحتوى، والثقافة، والقدرة على فهم الجمهور.

ويحذّر الإعلاميين الجدد من الاعتماد على النقل النظري والتكرار، داعيًا إلى تقديم تحليلات وتجارب واقعية بدلًا من نصوص محفوظة، لأن الجمهور بات أكثر وعيًا ويصعب التأثير فيه بمظهر أو صوت جميل فقط.

وفي ختام رأيه، يؤكد الحديري أن الذكاء الاصطناعي لن يحل محل الإنسان، بل يرى مستقبلًا قائمًا على التكامل بين الطرفين، بحيث يكون الذكاء الاصطناعي مساعدًا ومرجعًا، ويظل الإعلامي البشري هو من يمنح الشاشة الروح التي لا تُستنسخ.

هل نُعدّ طلاب الإعلام لمهنة قد تختفي؟”

رغم التطور المتسارع لتقنيات الذكاء الاصطناعي واقتحامها مجالات الإعلام، ما زال المذيع الافتراضي يواجه تحديات تتعلق بثقة الجمهور، وقبول المتلقي، وغياب الحس الإنساني، كما تكشف آراء طلاب الإعلام الذين شاركوا في هذا الاستبيان.

في إجاباتهم حول الفروقات الجوهرية بين المذيع البشري ونظيره الافتراضي، اتفقت الغالبية على أن العنصر الإنساني يمثل جوهر العمل الإعلامي. فأداء المذيع البشري لا يقتصر على نقل المعلومة، بل يمتد إلى إيصال المشاعر، والتفاعل اللحظي مع الجمهور، والقدرة على الارتجال، وهي عناصر وصفها أحد المشاركين بأنها “لا يمكن صناعتها آليًا مهما تطورت التكنولوجيا”.

وعند سؤالهم عن الهوية الإعلامية، أجمعت الآراء تقريبًا على أهمية الحفاظ على الإنسان كجزء من عملية التواصل الإعلامي. “روح الإنسان”، “المصداقية”، و” القدرة على التغيير المجتمعي” كانت كلمات تكررت مرارًا، في تعبير واضح عن القلق من أن يؤدي الاعتماد الكلي على الذكاء الاصطناعي إلى تجريد الإعلام من وظيفته التشاركية والوجدانية.

أما عند عرض مشاهد لمذيعين افتراضيين، تنوعت مشاعر المشاركين بين القلق، الغرابة، وعدم الارتياح. وعبّر البعض عن شعور “بالخوف” أو “عدم المصداقية”، وهو ما يعكس فجوة كبيرة لا تزال قائمة بين تطور التكنولوجيا ومستوى تقبل الجمهور لها.

ومن زاوية سوق العمل، أبدى 75% من المشاركين خشيتهم من أن تؤدي هذه التقنية إلى تقليص الفرص المستقبلية للكوادر الإعلامية. ورغم أن قلةً رأت أنها قد تخلق فرصًا جديدة، إلا أن هذه الرؤية ما تزال محدودة أمام مخاوف الإقصاء المهني.

وعن سؤال قدرة المذيع الافتراضي على إعداد المحتوى والتفاعل كمراسل، رفضت الأغلبية الفكرة، مشيرة إلى أن الإعلامي البشري لا يُستبدل، لما يملكه من وعي وسياق وقراءة للمواقف لا يمكن برمجتها بسهولة.

اللافت أن الآراء انقسمت بالتساوي عندما طُرح سؤال مباشر حول الثقة في محتوى يقدمه مذيع افتراضي، ما يشير إلى أن الذكاء الاصطناعي قد يكسب مساحة من الثقة، لكنها لا تزال محدودة ومشروطة

وجه جميل وصوت دقيق… لكن أين التعاطف؟”

ومن الزاوية النفسية، يشير د. وليد هندي، استشاري الصحة النفسية، إلى أن المذيع الافتراضي – رغم كونه إنجازًا تقنيًا لافتًا – يظل كيانًا ناقصًا نفسيًا، يفتقد إلى مقومات التأثير الوجداني العميق في الجمهور. فهو لا يمتلك هوية نفسية متكاملة، ولا يُتيح مساحة للتفاعل العاطفي الحقيقي، الذي يُعدّ أحد أهم عناصر التأثير الإعلامي. ويضيف: “رغم أن هذه الشخصيات الرقمية قد تُسهّل إيصال المحتوى لبعض الفئات كالمكفوفين أو غير المتعلمين، إلا أنها لا تُعوض الأثر النفسي الذي يتركه المذيع البشري في وعي ووجدان المتلقي”.

يرى هندي أن شخصية الأفاتار تفتقر لما يُعرف في علم النفس بـ” الاستبصار” أو “الإدراك التصحيحي”، إذ إنها تُردد ما تتلقاه من بيانات دون مراجعة أو وعي، مما يجعلها عرضة لتكرار الأخطاء دون تمييز. ويشير إلى أن المذيع الحقيقي وحده من يملك هذه القدرة النفسية على مراجعة الذات، والتفاعل مع الموقف بناءً على خلفية وجدانية وشخصية متكاملة.

في لحظات الألم، كعرض مشاهد الحرب أو الكوارث، أو في لحظات الفرح، كفوز فريق وطني، يبرز الفرق الجوهري بين الإنسان والآلة. المذيع البشري قد تتغير نبرته، ينكسر صوته، يبكي، يضحك، ويتلعثم. كلها إشارات نفسية تُحدث أثرًا عاطفيًا لدى المتلقي، وتُفعّل ما يُعرف في علم النفس بـ” التناغم الشعوري”. بينما يظل الأفاتار محايدًا، بارداً، وكأنه يقرأ من ورقة.

ويضيف: “المذيع الحقيقي يملك مهارات ارتجال فريدة تُعرف بالاحتواء اللحظي، فينقذ الموقف حين يحدث خلل على الهواء أو فراغ في البث، أما المذيع الافتراضي فمحكوم ببرمجة جامدة لا تعترف بالحساسية النفسية للحظة”.

كما يشير إلى جانب نفسي بالغ الأهمية، وهو “الانتماء المهني”، والذي يتشكل من مشاعر فخر، وكفاح، وتاريخ طويل من النجاحات والانكسارات. المذيع البشري ابن المؤسسة التي يعمل بها، يشعر تجاهها، يدافع عنها، يتألم لألمها ويفرح بنجاحها. وهو ما يستحيل زرعه في شخصية افتراضية خالية من العاطفة.

ويتابع حديثه بالإشارة إلى أثر المذيع البشري في تكوين الطموح لدى الأطفال والمراهقين، مؤكدًا أن هذه الشخصيات تشكّل قدوة نفسية حقيقية، تُغذّي الخيال والهوية. “كنت أتتبع المذيع أحمد سمير، وأقلده في صوته وربطة عنقه، وتكوّنت لدي رغبة حقيقية في أن أكون مثله… فهل يمكن للطفل أن يحلم أن يكون أفاتار؟!”.

ويختم الدكتور وليد هندي بقوله: “رغم إعلان دول كبرى – مثل الصين – عن آلاف من المذيعين الافتراضيين، لم نرَ لهم تأثيرًا نفسيًا أو وجدانيًا يُذكر. ببساطة، لأنهم يفتقرون للروح، والروح هي أساس كل تواصل إنساني حقيقي. المذيع الافتراضي… وهم عظيم تقنيًا، لكنه فقير وجدانيًا”

مهندس ذكاء اصطناعي: اللهجة المصرية.. تحدٍ مستمر للآلة

صرح المهندس أحمد رأفت، مهندس ميكانيكا ومتخصص في أدوات الذكاء الاصطناعي، حول استخدام تقنيات الذكاء الاصطناعي في مجال الصوت والفيديو، مسلطًا الضوء على التحديات والفرص المتاحة.

وأوضح المهندس رأفت أن استخدام تقنيات الصوت يمر بمراحل متدرجة، تبدأ بتقنية “النص إلى كلام” التقليدية، والتي وصفها بأنها ذات جودة محدودة وتبدو ميكانيكية. وأشار إلى المستوى الثاني الذي يستخدم منصات الذكاء الاصطناعي باللغة الإنجليزية لإنتاج صوت يقترب من اللهجة المصرية، ولكنه لا يرتقي إلى جودة اللهجة الأصلية.

أما المستوى الثالث، وفقًا لتصريحات المهندس رأفت، فيعتمد على تسجيل الصوت بلهجة مصرية طبيعية واستخدام برامج تغيير الصوت لمحاكة أصوات شخصيات معينة، معتبرًا هذه الطريقة الأعلى جودة للوصول إلى لهجة مصرية واقعية.

وفيما يتعلق بالمستوى الرابع والأعلى، لفت المهندس إلى أنه يعتمد على كتابة النص بالعربية الفصحى أو العامية وتشكيله لغويًا، ثم استخدام نماذج مدربة على نطق اللهجة المصرية، مع الإشارة إلى التحديات القائمة نظرًا لعدم تدريب معظم النماذج بشكل كافٍ على هذه اللهجة.

أكد المهندس رأفت على أن “اللكنة المصرية تحديدًا تُعد من أصعب اللهجات التي يمكن للذكاء الاصطناعي محاكاتها بدقة، وذلك لأنها خليط لغوي يجمع بين عدة لغات، مما يجعل إتقانها تحديًا لنماذج الذكاء الاصطناعي، خاصة مع محدودية تدريبها على اللغة العربية أصلًا.”

بالانتقال إلى تجهيز الفيديو، شرح المهندس إمكانية تركيب الصوت على فيديو حقيقي أو صورة، مع الإشارة إلى منصات مثل Magic AI التي تتيح إنشاء فيديوهات أو صور متحركة بمدة محدودة في النسخة المجانية. كما تطرق إلى استخدام المواقع لمعلقين صوتيين جاهزين لإنشاء ما يُعرف بالمذيعين الافتراضيين، مع ملاحظة أن هذه الطرق قد لا تقدم أفضل جودة في التفاعل الصوتي والتعبير عن المشاعر.

وفي ختام تصريحه، أكد المهندس أحمد رأفت على أن “التفاعل الحقيقي مع الصوت والمشاعر ما يزال يتطلب تدخلاً بشريًا”، مشيرًا إلى أن المشاعر المرتبطة بنبرة الصوت لا تزال غير مدعومة بالكامل في الذكاء الاصطناعي. ولكنه نوّه إلى الميزة الاقتصادية لهذه التقنيات، حيث إن تكلفتها “منخفضة جدًا مقارنة بأجور المذيعين البشريين.”

نقابة الإعلاميين تؤكد: الذكاء الاصطناعي فرصة لتطوير الأداء الإعلامي مع الحفاظ على الدور الإنساني

يرى أيمن عدلي مهدي، رئيس لجنة التدريب والتثقيف بنقابة الإعلاميين، أن ظاهرة المذيعين الافتراضيين تمثل انعكاسًا طبيعيًا للتطور التكنولوجي السريع الذي يشهده الإعلام، نتيجة اندماج الذكاء الاصطناعي المتزايد في إنتاج وتقديم المحتوى.

ويشير إلى أن نقابة الإعلاميين تتعامل مع هذه الظاهرة من زاويتين: الأولى: أنها قد ترفع من كفاءة الإنتاج وجودة المحتوى. الثانية: أنها تثير تساؤلات حول المصداقية والجانب الإنساني الذي لا يمكن تعويضه.

ويؤكد أن الإعلام التنموي، الذي يهدف إلى بناء الوعي المجتمعي والإنساني، لا يمكن أن يؤديه الذكاء الاصطناعي منفردًا، لأنه يتطلب تفاعلًا إنسانيًا مباشرًا لا توفره التقنيات مهما تطورت. لذلك، ترى النقابة أن المذيع الافتراضي ليس مجرد تقنية، بل عنصر جديد في المشهد الإعلامي يجب ضبطه بضوابط مهنية دقيقة، تحمي دور الإعلامي البشري في صناعة الوعي وتشكيل الرأي العام.

ورغم عدم وجود إطار تنظيمي شامل حتى الآن لضبط عمل المذيعين الافتراضيين، إلا أن النقابة تعمل بالتعاون مع المجلس الأعلى لتنظيم الإعلام على وضع آليات قانونية ومهنية تضمن التزام المحتوى المقدم عبر الذكاء الاصطناعي بالمعايير الأخلاقية والمهنية.

ويترافق هذا التوجه مع ضرورة تطوير برامج تدريبية للإعلاميين، لضمان جاهزيتهم في استخدام هذه الأدوات بكفاءة وتوازن بين التقنية والرسالة الإعلامية.

وفيما يخص مستقبل الإعلاميين مع الذكاء الاصطناعي، يؤكد عدلي أن النقابة لا تراه تهديدًا، بل فرصة كبيرة لتطوير الأداء الإعلامي، بشرط أن يُحسن الإعلاميون استخدام هذه الأدوات.

فالمهارات الجديدة، مثل التعامل مع البيانات وتحسين جودة الإنتاج، أصبحت أساسية، لكنها لا تلغي أهمية التحليل والتفاعل الإنساني وقراءة السياقات الاجتماعية والثقافية.

ويختتم بالتأكيد على وجود نية داخل النقابة لوضع مدونة سلوك وإرشادات مهنية واضحة، تتضمن: ضوابط لاستخدام المذيعين الافتراضيين، آليات لضمان الالتزام المهني، برامج تدريبية للجيل الجديد من الإعلاميين، ليكونوا مؤهلين للتعامل مع سوق إعلامي متغير لا يُقصي الإنسان، بل يتطلب منه التطور المستمر.

المذيع الافتراضي واقع لا مفر منه، وتقنية تتطور بسرعة مذهلة، وقد تفرض نفسها في مساحات واسعة من الإعلام. لكن رغم ذلك، تبقى للمذيع البشري كاريزما خاصة، ودفء إنساني، وتفاعل حي لا يمكن تقليده أو برمجته، فالذكاء الاصطناعي قد يحفظ المعلومة، ينسّقها، يعرضها، بل وربما يتقن الإلقاء والتفاعل السطحي، لكنه يظل “بلا روح”، في حين أن المذيع الحقيقي يُشبه القصيدة الحيّة، تنبض بكل كلمة، وتنقل المعنى والمشاعر

يونيو 5, 2025

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