lepu-test-platform-web/node_modules/vuex/dist/vuex.esm.browser.js

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/*!
* vuex v3.6.2
* (c) 2021 Evan You
* @license MIT
*/
function applyMixin (Vue) {
const version = Number(Vue.version.split('.')[0]);
if (version >= 2) {
Vue.mixin({ beforeCreate: vuexInit });
} else {
// override init and inject vuex init procedure
// for 1.x backwards compatibility.
const _init = Vue.prototype._init;
Vue.prototype._init = function (options = {}) {
options.init = options.init
? [vuexInit].concat(options.init)
: vuexInit;
_init.call(this, options);
};
}
/**
* Vuex init hook, injected into each instances init hooks list.
*/
function vuexInit () {
const options = this.$options;
// store injection
if (options.store) {
this.$store = typeof options.store === 'function'
? options.store()
: options.store;
} else if (options.parent && options.parent.$store) {
this.$store = options.parent.$store;
}
}
}
const target = typeof window !== 'undefined'
? window
: typeof global !== 'undefined'
? global
: {};
const devtoolHook = target.__VUE_DEVTOOLS_GLOBAL_HOOK__;
function devtoolPlugin (store) {
if (!devtoolHook) return
store._devtoolHook = devtoolHook;
devtoolHook.emit('vuex:init', store);
devtoolHook.on('vuex:travel-to-state', targetState => {
store.replaceState(targetState);
});
store.subscribe((mutation, state) => {
devtoolHook.emit('vuex:mutation', mutation, state);
}, { prepend: true });
store.subscribeAction((action, state) => {
devtoolHook.emit('vuex:action', action, state);
}, { prepend: true });
}
/**
* Get the first item that pass the test
* by second argument function
*
* @param {Array} list
* @param {Function} f
* @return {*}
*/
function find (list, f) {
return list.filter(f)[0]
}
/**
* Deep copy the given object considering circular structure.
* This function caches all nested objects and its copies.
* If it detects circular structure, use cached copy to avoid infinite loop.
*
* @param {*} obj
* @param {Array<Object>} cache
* @return {*}
*/
function deepCopy (obj, cache = []) {
// just return if obj is immutable value
if (obj === null || typeof obj !== 'object') {
return obj
}
// if obj is hit, it is in circular structure
const hit = find(cache, c => c.original === obj);
if (hit) {
return hit.copy
}
const copy = Array.isArray(obj) ? [] : {};
// put the copy into cache at first
// because we want to refer it in recursive deepCopy
cache.push({
original: obj,
copy
});
Object.keys(obj).forEach(key => {
copy[key] = deepCopy(obj[key], cache);
});
return copy
}
/**
* forEach for object
*/
function forEachValue (obj, fn) {
Object.keys(obj).forEach(key => fn(obj[key], key));
}
function isObject (obj) {
return obj !== null && typeof obj === 'object'
}
function isPromise (val) {
return val && typeof val.then === 'function'
}
function assert (condition, msg) {
if (!condition) throw new Error(`[vuex] ${msg}`)
}
function partial (fn, arg) {
return function () {
return fn(arg)
}
}
// Base data struct for store's module, package with some attribute and method
class Module {
constructor (rawModule, runtime) {
this.runtime = runtime;
// Store some children item
this._children = Object.create(null);
// Store the origin module object which passed by programmer
this._rawModule = rawModule;
const rawState = rawModule.state;
// Store the origin module's state
this.state = (typeof rawState === 'function' ? rawState() : rawState) || {};
}
get namespaced () {
return !!this._rawModule.namespaced
}
addChild (key, module) {
this._children[key] = module;
}
removeChild (key) {
delete this._children[key];
}
getChild (key) {
return this._children[key]
}
hasChild (key) {
return key in this._children
}
update (rawModule) {
this._rawModule.namespaced = rawModule.namespaced;
if (rawModule.actions) {
this._rawModule.actions = rawModule.actions;
}
if (rawModule.mutations) {
this._rawModule.mutations = rawModule.mutations;
}
if (rawModule.getters) {
this._rawModule.getters = rawModule.getters;
}
}
forEachChild (fn) {
forEachValue(this._children, fn);
}
forEachGetter (fn) {
if (this._rawModule.getters) {
forEachValue(this._rawModule.getters, fn);
}
}
forEachAction (fn) {
if (this._rawModule.actions) {
forEachValue(this._rawModule.actions, fn);
}
}
forEachMutation (fn) {
if (this._rawModule.mutations) {
forEachValue(this._rawModule.mutations, fn);
}
}
}
class ModuleCollection {
constructor (rawRootModule) {
// register root module (Vuex.Store options)
this.register([], rawRootModule, false);
}
get (path) {
return path.reduce((module, key) => {
return module.getChild(key)
}, this.root)
}
getNamespace (path) {
let module = this.root;
return path.reduce((namespace, key) => {
module = module.getChild(key);
return namespace + (module.namespaced ? key + '/' : '')
}, '')
}
update (rawRootModule) {
update([], this.root, rawRootModule);
}
register (path, rawModule, runtime = true) {
{
assertRawModule(path, rawModule);
}
const newModule = new Module(rawModule, runtime);
if (path.length === 0) {
this.root = newModule;
} else {
const parent = this.get(path.slice(0, -1));
parent.addChild(path[path.length - 1], newModule);
}
// register nested modules
if (rawModule.modules) {
forEachValue(rawModule.modules, (rawChildModule, key) => {
this.register(path.concat(key), rawChildModule, runtime);
});
}
}
unregister (path) {
const parent = this.get(path.slice(0, -1));
const key = path[path.length - 1];
const child = parent.getChild(key);
if (!child) {
{
console.warn(
`[vuex] trying to unregister module '${key}', which is ` +
`not registered`
);
}
return
}
if (!child.runtime) {
return
}
parent.removeChild(key);
}
isRegistered (path) {
const parent = this.get(path.slice(0, -1));
const key = path[path.length - 1];
if (parent) {
return parent.hasChild(key)
}
return false
}
}
function update (path, targetModule, newModule) {
{
assertRawModule(path, newModule);
}
// update target module
targetModule.update(newModule);
// update nested modules
if (newModule.modules) {
for (const key in newModule.modules) {
if (!targetModule.getChild(key)) {
{
console.warn(
`[vuex] trying to add a new module '${key}' on hot reloading, ` +
'manual reload is needed'
);
}
return
}
update(
path.concat(key),
targetModule.getChild(key),
newModule.modules[key]
);
}
}
}
const functionAssert = {
assert: value => typeof value === 'function',
expected: 'function'
};
const objectAssert = {
assert: value => typeof value === 'function' ||
(typeof value === 'object' && typeof value.handler === 'function'),
expected: 'function or object with "handler" function'
};
const assertTypes = {
getters: functionAssert,
mutations: functionAssert,
actions: objectAssert
};
function assertRawModule (path, rawModule) {
Object.keys(assertTypes).forEach(key => {
if (!rawModule[key]) return
const assertOptions = assertTypes[key];
forEachValue(rawModule[key], (value, type) => {
assert(
assertOptions.assert(value),
makeAssertionMessage(path, key, type, value, assertOptions.expected)
);
});
});
}
function makeAssertionMessage (path, key, type, value, expected) {
let buf = `${key} should be ${expected} but "${key}.${type}"`;
if (path.length > 0) {
buf += ` in module "${path.join('.')}"`;
}
buf += ` is ${JSON.stringify(value)}.`;
return buf
}
let Vue; // bind on install
class Store {
constructor (options = {}) {
// Auto install if it is not done yet and `window` has `Vue`.
// To allow users to avoid auto-installation in some cases,
// this code should be placed here. See #731
if (!Vue && typeof window !== 'undefined' && window.Vue) {
install(window.Vue);
}
{
assert(Vue, `must call Vue.use(Vuex) before creating a store instance.`);
assert(typeof Promise !== 'undefined', `vuex requires a Promise polyfill in this browser.`);
assert(this instanceof Store, `store must be called with the new operator.`);
}
const {
plugins = [],
strict = false
} = options;
// store internal state
this._committing = false;
this._actions = Object.create(null);
this._actionSubscribers = [];
this._mutations = Object.create(null);
this._wrappedGetters = Object.create(null);
this._modules = new ModuleCollection(options);
this._modulesNamespaceMap = Object.create(null);
this._subscribers = [];
this._watcherVM = new Vue();
this._makeLocalGettersCache = Object.create(null);
// bind commit and dispatch to self
const store = this;
const { dispatch, commit } = this;
this.dispatch = function boundDispatch (type, payload) {
return dispatch.call(store, type, payload)
};
this.commit = function boundCommit (type, payload, options) {
return commit.call(store, type, payload, options)
};
// strict mode
this.strict = strict;
const state = this._modules.root.state;
// init root module.
// this also recursively registers all sub-modules
// and collects all module getters inside this._wrappedGetters
installModule(this, state, [], this._modules.root);
// initialize the store vm, which is responsible for the reactivity
// (also registers _wrappedGetters as computed properties)
resetStoreVM(this, state);
// apply plugins
plugins.forEach(plugin => plugin(this));
const useDevtools = options.devtools !== undefined ? options.devtools : Vue.config.devtools;
if (useDevtools) {
devtoolPlugin(this);
}
}
get state () {
return this._vm._data.$$state
}
set state (v) {
{
assert(false, `use store.replaceState() to explicit replace store state.`);
}
}
commit (_type, _payload, _options) {
// check object-style commit
const {
type,
payload,
options
} = unifyObjectStyle(_type, _payload, _options);
const mutation = { type, payload };
const entry = this._mutations[type];
if (!entry) {
{
console.error(`[vuex] unknown mutation type: ${type}`);
}
return
}
this._withCommit(() => {
entry.forEach(function commitIterator (handler) {
handler(payload);
});
});
this._subscribers
.slice() // shallow copy to prevent iterator invalidation if subscriber synchronously calls unsubscribe
.forEach(sub => sub(mutation, this.state));
if (
options && options.silent
) {
console.warn(
`[vuex] mutation type: ${type}. Silent option has been removed. ` +
'Use the filter functionality in the vue-devtools'
);
}
}
dispatch (_type, _payload) {
// check object-style dispatch
const {
type,
payload
} = unifyObjectStyle(_type, _payload);
const action = { type, payload };
const entry = this._actions[type];
if (!entry) {
{
console.error(`[vuex] unknown action type: ${type}`);
}
return
}
try {
this._actionSubscribers
.slice() // shallow copy to prevent iterator invalidation if subscriber synchronously calls unsubscribe
.filter(sub => sub.before)
.forEach(sub => sub.before(action, this.state));
} catch (e) {
{
console.warn(`[vuex] error in before action subscribers: `);
console.error(e);
}
}
const result = entry.length > 1
? Promise.all(entry.map(handler => handler(payload)))
: entry[0](payload);
return new Promise((resolve, reject) => {
result.then(res => {
try {
this._actionSubscribers
.filter(sub => sub.after)
.forEach(sub => sub.after(action, this.state));
} catch (e) {
{
console.warn(`[vuex] error in after action subscribers: `);
console.error(e);
}
}
resolve(res);
}, error => {
try {
this._actionSubscribers
.filter(sub => sub.error)
.forEach(sub => sub.error(action, this.state, error));
} catch (e) {
{
console.warn(`[vuex] error in error action subscribers: `);
console.error(e);
}
}
reject(error);
});
})
}
subscribe (fn, options) {
return genericSubscribe(fn, this._subscribers, options)
}
subscribeAction (fn, options) {
const subs = typeof fn === 'function' ? { before: fn } : fn;
return genericSubscribe(subs, this._actionSubscribers, options)
}
watch (getter, cb, options) {
{
assert(typeof getter === 'function', `store.watch only accepts a function.`);
}
return this._watcherVM.$watch(() => getter(this.state, this.getters), cb, options)
}
replaceState (state) {
this._withCommit(() => {
this._vm._data.$$state = state;
});
}
registerModule (path, rawModule, options = {}) {
if (typeof path === 'string') path = [path];
{
assert(Array.isArray(path), `module path must be a string or an Array.`);
assert(path.length > 0, 'cannot register the root module by using registerModule.');
}
this._modules.register(path, rawModule);
installModule(this, this.state, path, this._modules.get(path), options.preserveState);
// reset store to update getters...
resetStoreVM(this, this.state);
}
unregisterModule (path) {
if (typeof path === 'string') path = [path];
{
assert(Array.isArray(path), `module path must be a string or an Array.`);
}
this._modules.unregister(path);
this._withCommit(() => {
const parentState = getNestedState(this.state, path.slice(0, -1));
Vue.delete(parentState, path[path.length - 1]);
});
resetStore(this);
}
hasModule (path) {
if (typeof path === 'string') path = [path];
{
assert(Array.isArray(path), `module path must be a string or an Array.`);
}
return this._modules.isRegistered(path)
}
hotUpdate (newOptions) {
this._modules.update(newOptions);
resetStore(this, true);
}
_withCommit (fn) {
const committing = this._committing;
this._committing = true;
fn();
this._committing = committing;
}
}
function genericSubscribe (fn, subs, options) {
if (subs.indexOf(fn) < 0) {
options && options.prepend
? subs.unshift(fn)
: subs.push(fn);
}
return () => {
const i = subs.indexOf(fn);
if (i > -1) {
subs.splice(i, 1);
}
}
}
function resetStore (store, hot) {
store._actions = Object.create(null);
store._mutations = Object.create(null);
store._wrappedGetters = Object.create(null);
store._modulesNamespaceMap = Object.create(null);
const state = store.state;
// init all modules
installModule(store, state, [], store._modules.root, true);
// reset vm
resetStoreVM(store, state, hot);
}
function resetStoreVM (store, state, hot) {
const oldVm = store._vm;
// bind store public getters
store.getters = {};
// reset local getters cache
store._makeLocalGettersCache = Object.create(null);
const wrappedGetters = store._wrappedGetters;
const computed = {};
forEachValue(wrappedGetters, (fn, key) => {
// use computed to leverage its lazy-caching mechanism
// direct inline function use will lead to closure preserving oldVm.
// using partial to return function with only arguments preserved in closure environment.
computed[key] = partial(fn, store);
Object.defineProperty(store.getters, key, {
get: () => store._vm[key],
enumerable: true // for local getters
});
});
// use a Vue instance to store the state tree
// suppress warnings just in case the user has added
// some funky global mixins
const silent = Vue.config.silent;
Vue.config.silent = true;
store._vm = new Vue({
data: {
$$state: state
},
computed
});
Vue.config.silent = silent;
// enable strict mode for new vm
if (store.strict) {
enableStrictMode(store);
}
if (oldVm) {
if (hot) {
// dispatch changes in all subscribed watchers
// to force getter re-evaluation for hot reloading.
store._withCommit(() => {
oldVm._data.$$state = null;
});
}
Vue.nextTick(() => oldVm.$destroy());
}
}
function installModule (store, rootState, path, module, hot) {
const isRoot = !path.length;
const namespace = store._modules.getNamespace(path);
// register in namespace map
if (module.namespaced) {
if (store._modulesNamespaceMap[namespace] && true) {
console.error(`[vuex] duplicate namespace ${namespace} for the namespaced module ${path.join('/')}`);
}
store._modulesNamespaceMap[namespace] = module;
}
// set state
if (!isRoot && !hot) {
const parentState = getNestedState(rootState, path.slice(0, -1));
const moduleName = path[path.length - 1];
store._withCommit(() => {
{
if (moduleName in parentState) {
console.warn(
`[vuex] state field "${moduleName}" was overridden by a module with the same name at "${path.join('.')}"`
);
}
}
Vue.set(parentState, moduleName, module.state);
});
}
const local = module.context = makeLocalContext(store, namespace, path);
module.forEachMutation((mutation, key) => {
const namespacedType = namespace + key;
registerMutation(store, namespacedType, mutation, local);
});
module.forEachAction((action, key) => {
const type = action.root ? key : namespace + key;
const handler = action.handler || action;
registerAction(store, type, handler, local);
});
module.forEachGetter((getter, key) => {
const namespacedType = namespace + key;
registerGetter(store, namespacedType, getter, local);
});
module.forEachChild((child, key) => {
installModule(store, rootState, path.concat(key), child, hot);
});
}
/**
* make localized dispatch, commit, getters and state
* if there is no namespace, just use root ones
*/
function makeLocalContext (store, namespace, path) {
const noNamespace = namespace === '';
const local = {
dispatch: noNamespace ? store.dispatch : (_type, _payload, _options) => {
const args = unifyObjectStyle(_type, _payload, _options);
const { payload, options } = args;
let { type } = args;
if (!options || !options.root) {
type = namespace + type;
if ( !store._actions[type]) {
console.error(`[vuex] unknown local action type: ${args.type}, global type: ${type}`);
return
}
}
return store.dispatch(type, payload)
},
commit: noNamespace ? store.commit : (_type, _payload, _options) => {
const args = unifyObjectStyle(_type, _payload, _options);
const { payload, options } = args;
let { type } = args;
if (!options || !options.root) {
type = namespace + type;
if ( !store._mutations[type]) {
console.error(`[vuex] unknown local mutation type: ${args.type}, global type: ${type}`);
return
}
}
store.commit(type, payload, options);
}
};
// getters and state object must be gotten lazily
// because they will be changed by vm update
Object.defineProperties(local, {
getters: {
get: noNamespace
? () => store.getters
: () => makeLocalGetters(store, namespace)
},
state: {
get: () => getNestedState(store.state, path)
}
});
return local
}
function makeLocalGetters (store, namespace) {
if (!store._makeLocalGettersCache[namespace]) {
const gettersProxy = {};
const splitPos = namespace.length;
Object.keys(store.getters).forEach(type => {
// skip if the target getter is not match this namespace
if (type.slice(0, splitPos) !== namespace) return
// extract local getter type
const localType = type.slice(splitPos);
// Add a port to the getters proxy.
// Define as getter property because
// we do not want to evaluate the getters in this time.
Object.defineProperty(gettersProxy, localType, {
get: () => store.getters[type],
enumerable: true
});
});
store._makeLocalGettersCache[namespace] = gettersProxy;
}
return store._makeLocalGettersCache[namespace]
}
function registerMutation (store, type, handler, local) {
const entry = store._mutations[type] || (store._mutations[type] = []);
entry.push(function wrappedMutationHandler (payload) {
handler.call(store, local.state, payload);
});
}
function registerAction (store, type, handler, local) {
const entry = store._actions[type] || (store._actions[type] = []);
entry.push(function wrappedActionHandler (payload) {
let res = handler.call(store, {
dispatch: local.dispatch,
commit: local.commit,
getters: local.getters,
state: local.state,
rootGetters: store.getters,
rootState: store.state
}, payload);
if (!isPromise(res)) {
res = Promise.resolve(res);
}
if (store._devtoolHook) {
return res.catch(err => {
store._devtoolHook.emit('vuex:error', err);
throw err
})
} else {
return res
}
});
}
function registerGetter (store, type, rawGetter, local) {
if (store._wrappedGetters[type]) {
{
console.error(`[vuex] duplicate getter key: ${type}`);
}
return
}
store._wrappedGetters[type] = function wrappedGetter (store) {
return rawGetter(
local.state, // local state
local.getters, // local getters
store.state, // root state
store.getters // root getters
)
};
}
function enableStrictMode (store) {
store._vm.$watch(function () { return this._data.$$state }, () => {
{
assert(store._committing, `do not mutate vuex store state outside mutation handlers.`);
}
}, { deep: true, sync: true });
}
function getNestedState (state, path) {
return path.reduce((state, key) => state[key], state)
}
function unifyObjectStyle (type, payload, options) {
if (isObject(type) && type.type) {
options = payload;
payload = type;
type = type.type;
}
{
assert(typeof type === 'string', `expects string as the type, but found ${typeof type}.`);
}
return { type, payload, options }
}
function install (_Vue) {
if (Vue && _Vue === Vue) {
{
console.error(
'[vuex] already installed. Vue.use(Vuex) should be called only once.'
);
}
return
}
Vue = _Vue;
applyMixin(Vue);
}
/**
* Reduce the code which written in Vue.js for getting the state.
* @param {String} [namespace] - Module's namespace
* @param {Object|Array} states # Object's item can be a function which accept state and getters for param, you can do something for state and getters in it.
* @param {Object}
*/
const mapState = normalizeNamespace((namespace, states) => {
const res = {};
if ( !isValidMap(states)) {
console.error('[vuex] mapState: mapper parameter must be either an Array or an Object');
}
normalizeMap(states).forEach(({ key, val }) => {
res[key] = function mappedState () {
let state = this.$store.state;
let getters = this.$store.getters;
if (namespace) {
const module = getModuleByNamespace(this.$store, 'mapState', namespace);
if (!module) {
return
}
state = module.context.state;
getters = module.context.getters;
}
return typeof val === 'function'
? val.call(this, state, getters)
: state[val]
};
// mark vuex getter for devtools
res[key].vuex = true;
});
return res
});
/**
* Reduce the code which written in Vue.js for committing the mutation
* @param {String} [namespace] - Module's namespace
* @param {Object|Array} mutations # Object's item can be a function which accept `commit` function as the first param, it can accept another params. You can commit mutation and do any other things in this function. specially, You need to pass anthor params from the mapped function.
* @return {Object}
*/
const mapMutations = normalizeNamespace((namespace, mutations) => {
const res = {};
if ( !isValidMap(mutations)) {
console.error('[vuex] mapMutations: mapper parameter must be either an Array or an Object');
}
normalizeMap(mutations).forEach(({ key, val }) => {
res[key] = function mappedMutation (...args) {
// Get the commit method from store
let commit = this.$store.commit;
if (namespace) {
const module = getModuleByNamespace(this.$store, 'mapMutations', namespace);
if (!module) {
return
}
commit = module.context.commit;
}
return typeof val === 'function'
? val.apply(this, [commit].concat(args))
: commit.apply(this.$store, [val].concat(args))
};
});
return res
});
/**
* Reduce the code which written in Vue.js for getting the getters
* @param {String} [namespace] - Module's namespace
* @param {Object|Array} getters
* @return {Object}
*/
const mapGetters = normalizeNamespace((namespace, getters) => {
const res = {};
if ( !isValidMap(getters)) {
console.error('[vuex] mapGetters: mapper parameter must be either an Array or an Object');
}
normalizeMap(getters).forEach(({ key, val }) => {
// The namespace has been mutated by normalizeNamespace
val = namespace + val;
res[key] = function mappedGetter () {
if (namespace && !getModuleByNamespace(this.$store, 'mapGetters', namespace)) {
return
}
if ( !(val in this.$store.getters)) {
console.error(`[vuex] unknown getter: ${val}`);
return
}
return this.$store.getters[val]
};
// mark vuex getter for devtools
res[key].vuex = true;
});
return res
});
/**
* Reduce the code which written in Vue.js for dispatch the action
* @param {String} [namespace] - Module's namespace
* @param {Object|Array} actions # Object's item can be a function which accept `dispatch` function as the first param, it can accept anthor params. You can dispatch action and do any other things in this function. specially, You need to pass anthor params from the mapped function.
* @return {Object}
*/
const mapActions = normalizeNamespace((namespace, actions) => {
const res = {};
if ( !isValidMap(actions)) {
console.error('[vuex] mapActions: mapper parameter must be either an Array or an Object');
}
normalizeMap(actions).forEach(({ key, val }) => {
res[key] = function mappedAction (...args) {
// get dispatch function from store
let dispatch = this.$store.dispatch;
if (namespace) {
const module = getModuleByNamespace(this.$store, 'mapActions', namespace);
if (!module) {
return
}
dispatch = module.context.dispatch;
}
return typeof val === 'function'
? val.apply(this, [dispatch].concat(args))
: dispatch.apply(this.$store, [val].concat(args))
};
});
return res
});
/**
* Rebinding namespace param for mapXXX function in special scoped, and return them by simple object
* @param {String} namespace
* @return {Object}
*/
const createNamespacedHelpers = (namespace) => ({
mapState: mapState.bind(null, namespace),
mapGetters: mapGetters.bind(null, namespace),
mapMutations: mapMutations.bind(null, namespace),
mapActions: mapActions.bind(null, namespace)
});
/**
* Normalize the map
* normalizeMap([1, 2, 3]) => [ { key: 1, val: 1 }, { key: 2, val: 2 }, { key: 3, val: 3 } ]
* normalizeMap({a: 1, b: 2, c: 3}) => [ { key: 'a', val: 1 }, { key: 'b', val: 2 }, { key: 'c', val: 3 } ]
* @param {Array|Object} map
* @return {Object}
*/
function normalizeMap (map) {
if (!isValidMap(map)) {
return []
}
return Array.isArray(map)
? map.map(key => ({ key, val: key }))
: Object.keys(map).map(key => ({ key, val: map[key] }))
}
/**
* Validate whether given map is valid or not
* @param {*} map
* @return {Boolean}
*/
function isValidMap (map) {
return Array.isArray(map) || isObject(map)
}
/**
* Return a function expect two param contains namespace and map. it will normalize the namespace and then the param's function will handle the new namespace and the map.
* @param {Function} fn
* @return {Function}
*/
function normalizeNamespace (fn) {
return (namespace, map) => {
if (typeof namespace !== 'string') {
map = namespace;
namespace = '';
} else if (namespace.charAt(namespace.length - 1) !== '/') {
namespace += '/';
}
return fn(namespace, map)
}
}
/**
* Search a special module from store by namespace. if module not exist, print error message.
* @param {Object} store
* @param {String} helper
* @param {String} namespace
* @return {Object}
*/
function getModuleByNamespace (store, helper, namespace) {
const module = store._modulesNamespaceMap[namespace];
if ( !module) {
console.error(`[vuex] module namespace not found in ${helper}(): ${namespace}`);
}
return module
}
// Credits: borrowed code from fcomb/redux-logger
function createLogger ({
collapsed = true,
filter = (mutation, stateBefore, stateAfter) => true,
transformer = state => state,
mutationTransformer = mut => mut,
actionFilter = (action, state) => true,
actionTransformer = act => act,
logMutations = true,
logActions = true,
logger = console
} = {}) {
return store => {
let prevState = deepCopy(store.state);
if (typeof logger === 'undefined') {
return
}
if (logMutations) {
store.subscribe((mutation, state) => {
const nextState = deepCopy(state);
if (filter(mutation, prevState, nextState)) {
const formattedTime = getFormattedTime();
const formattedMutation = mutationTransformer(mutation);
const message = `mutation ${mutation.type}${formattedTime}`;
startMessage(logger, message, collapsed);
logger.log('%c prev state', 'color: #9E9E9E; font-weight: bold', transformer(prevState));
logger.log('%c mutation', 'color: #03A9F4; font-weight: bold', formattedMutation);
logger.log('%c next state', 'color: #4CAF50; font-weight: bold', transformer(nextState));
endMessage(logger);
}
prevState = nextState;
});
}
if (logActions) {
store.subscribeAction((action, state) => {
if (actionFilter(action, state)) {
const formattedTime = getFormattedTime();
const formattedAction = actionTransformer(action);
const message = `action ${action.type}${formattedTime}`;
startMessage(logger, message, collapsed);
logger.log('%c action', 'color: #03A9F4; font-weight: bold', formattedAction);
endMessage(logger);
}
});
}
}
}
function startMessage (logger, message, collapsed) {
const startMessage = collapsed
? logger.groupCollapsed
: logger.group;
// render
try {
startMessage.call(logger, message);
} catch (e) {
logger.log(message);
}
}
function endMessage (logger) {
try {
logger.groupEnd();
} catch (e) {
logger.log('—— log end ——');
}
}
function getFormattedTime () {
const time = new Date();
return ` @ ${pad(time.getHours(), 2)}:${pad(time.getMinutes(), 2)}:${pad(time.getSeconds(), 2)}.${pad(time.getMilliseconds(), 3)}`
}
function repeat (str, times) {
return (new Array(times + 1)).join(str)
}
function pad (num, maxLength) {
return repeat('0', maxLength - num.toString().length) + num
}
var index = {
Store,
install,
version: '3.6.2',
mapState,
mapMutations,
mapGetters,
mapActions,
createNamespacedHelpers,
createLogger
};
export default index;
export { Store, createLogger, createNamespacedHelpers, install, mapActions, mapGetters, mapMutations, mapState };