Vuex
Vuex should no longer be considered a preferred path to store management and is currently in its legacy phase. This means it is acceptable to add upon existing Vuex
stores, but we strongly recommend reducing store sizes over time and eventually migrating away from VueX entirely. Before adding any new Vuex
store to an application, first ensure that the Vue
application you plan to add it into does not use Apollo
. Vuex
and Apollo
should not be combined unless absolutely necessary. Consider reading through our GraphQL documentation for more guidelines on how you can build Apollo
based applications.
The information included in this page is explained in more detail in the official Vuex documentation.
Separation of concerns
Vuex is composed of State, Getters, Mutations, Actions, and Modules.
When a user selects an action, we need to dispatch
it. This action commits
a mutation that changes the state. The action itself does not update the state; only a mutation should update the state.
File structure
When using Vuex at GitLab, separate these concerns into different files to improve readability:
└── store
├── index.js # where we assemble modules and export the store
├── actions.js # actions
├── mutations.js # mutations
├── getters.js # getters
├── state.js # state
└── mutation_types.js # mutation types
The following example shows an application that lists and adds users to the state. (For a more complex example implementation, review the security applications stored in this repository).
index.js
This is the entry point for our store. You can use the following as a guide:
// eslint-disable-next-line no-restricted-imports
import Vuex from 'vuex';
import * as actions from './actions';
import * as getters from './getters';
import mutations from './mutations';
import state from './state';
export const createStore = () =>
new Vuex.Store({
actions,
getters,
mutations,
state,
});
state.js
The first thing you should do before writing any code is to design the state.
Often we need to provide data from HAML to our Vue application. Let's store it in the state for better access.
export default () => ({
endpoint: null,
isLoading: false,
error: null,
isAddingUser: false,
errorAddingUser: false,
users: [],
});
state
properties
Access You can use mapState
to access state properties in the components.
actions.js
An action is a payload of information to send data from our application to our store.
An action is usually composed by a type
and a payload
and they describe what happened. Unlike mutations, actions can contain asynchronous operations - that's why we always need to handle asynchronous logic in actions.
In this file, we write the actions that call mutations for handling a list of users:
import * as types from './mutation_types';
import axios from '~/lib/utils/axios_utils';
import { createAlert } from '~/alert';
export const fetchUsers = ({ state, dispatch }) => {
commit(types.REQUEST_USERS);
axios.get(state.endpoint)
.then(({ data }) => commit(types.RECEIVE_USERS_SUCCESS, data))
.catch((error) => {
commit(types.RECEIVE_USERS_ERROR, error)
createAlert({ message: 'There was an error' })
});
}
export const addUser = ({ state, dispatch }, user) => {
commit(types.REQUEST_ADD_USER);
axios.post(state.endpoint, user)
.then(({ data }) => commit(types.RECEIVE_ADD_USER_SUCCESS, data))
.catch((error) => commit(types.REQUEST_ADD_USER_ERROR, error));
}
Dispatching actions
To dispatch an action from a component, use the mapActions
helper:
import { mapActions } from 'vuex';
{
methods: {
...mapActions([
'addUser',
]),
onClickUser(user) {
this.addUser(user);
},
},
};
mutations.js
The mutations specify how the application state changes in response to actions sent to the store. The only way to change state in a Vuex store is by committing a mutation.
Most mutations are committed from an action using commit
. If you don't have any
asynchronous operations, you can call mutations from a component using the mapMutations
helper.
See the Vuex documentation for examples of committing mutations from components.
REQUEST
and RECEIVE
namespaces
Naming Pattern: When a request is made we often want to show a loading state to the user.
Instead of creating an mutation to toggle the loading state, we should:
- A mutation with type
REQUEST_SOMETHING
, to toggle the loading state - A mutation with type
RECEIVE_SOMETHING_SUCCESS
, to handle the success callback - A mutation with type
RECEIVE_SOMETHING_ERROR
, to handle the error callback - An action
fetchSomething
to make the request and commit mutations on mentioned cases- In case your application does more than a
GET
request you can use these as examples:-
POST
:createSomething
-
PUT
:updateSomething
-
DELETE
:deleteSomething
-
- In case your application does more than a
As a result, we can dispatch the fetchNamespace
action from the component and it is responsible to commit REQUEST_NAMESPACE
, RECEIVE_NAMESPACE_SUCCESS
and RECEIVE_NAMESPACE_ERROR
mutations.
Previously, we were dispatching actions from the
fetchNamespace
action instead of committing mutation, so don't be confused if you find a different pattern in the older parts of the codebase. However, we encourage leveraging a new pattern whenever you write new Vuex stores.
By following this pattern we guarantee:
- All applications follow the same pattern, making it easier for anyone to maintain the code.
- All data in the application follows the same lifecycle pattern.
- Unit tests are easier.
Updating complex state
Sometimes, especially when the state is complex, is really hard to traverse the state to precisely update what the mutation needs to update.
Ideally a vuex
state should be as normalized/decoupled as possible but this is not always the case.
It's important to remember that the code is much easier to read and maintain when the portion of the mutated state
is selected and mutated in the mutation itself.
Given this state:
export default () => ({
items: [
{
id: 1,
name: 'my_issue',
closed: false,
},
{
id: 2,
name: 'another_issue',
closed: false,
}
]
});
It may be tempting to write a mutation like so:
// Bad
export default {
[types.MARK_AS_CLOSED](state, item) {
Object.assign(item, {closed: true})
}
}
While this approach works it has several dependencies:
- Correct selection of
item
in the component/action. - The
item
property is already declared in theclosed
state.- A new
confidential
property would not be reactive.
- A new
- Noting that
item
is referenced byitems
.
A mutation written like this is harder to maintain and more error prone. We should rather write a mutation like this:
// Good
export default {
[types.MARK_AS_CLOSED](state, itemId) {
const item = state.items.find(x => x.id === itemId);
if (!item) {
return;
}
Vue.set(item, 'closed', true);
},
};
This approach is better because:
- It selects and updates the state in the mutation, which is more maintainable.
- It has no external dependencies, if the correct
itemId
is passed the state is correctly updated. - It does not have reactivity caveats, as we generate a new
item
to avoid coupling to the initial state.
A mutation written like this is easier to maintain. In addition, we avoid errors due to the limitation of the reactivity system.
getters.js
Sometimes we may need to get derived state based on store state, like filtering for a specific prop.
Using a getter also caches the result based on dependencies due to how computed props work
This can be done through the getters
:
// get all the users with pets
export const getUsersWithPets = (state, getters) => {
return state.users.filter(user => user.pet !== undefined);
};
To access a getter from a component, use the mapGetters
helper:
import { mapGetters } from 'vuex';
{
computed: {
...mapGetters([
'getUsersWithPets',
]),
},
};
mutation_types.js
From Vuex mutations documentation:
It is a commonly seen pattern to use constants for mutation types in various Flux implementations. This allows the code to take advantage of tooling like linters, and putting all constants in a single file allows your collaborators to get an at-a-glance view of what mutations are possible in the entire application.
export const ADD_USER = 'ADD_USER';
Initializing a store's state
It's common for a Vuex store to need some initial state before its action
s can
be used. Often this includes data like API endpoints, documentation URLs, or
IDs.
To set this initial state, pass it as a parameter to your store's creation function when mounting your Vue component:
// in the Vue app's initialization script (for example, mount_show.js)
import Vue from 'vue';
// eslint-disable-next-line no-restricted-imports
import Vuex from 'vuex';
import { createStore } from './stores';
import AwesomeVueApp from './components/awesome_vue_app.vue'
Vue.use(Vuex);
export default () => {
const el = document.getElementById('js-awesome-vue-app');
return new Vue({
el,
name: 'AwesomeVueRoot',
store: createStore(el.dataset),
render: h => h(AwesomeVueApp)
});
};
The store function, in turn, can pass this data along to the state's creation function:
// in store/index.js
import * as actions from './actions';
import mutations from './mutations';
import createState from './state';
export default initialState => ({
actions,
mutations,
state: createState(initialState),
});
And the state function can accept this initial data as a parameter and bake it
into the state
object it returns:
// in store/state.js
export default ({
projectId,
documentationPath,
anOptionalProperty = true
}) => ({
projectId,
documentationPath,
anOptionalProperty,
// other state properties here
});
Why not just ...spread the initial state?
The astute reader sees an opportunity to cut out a few lines of code from the example above:
// Don't do this!
export default initialState => ({
...initialState,
// other state properties here
});
We made the conscious decision to avoid this pattern to improve the ability to discover and search our frontend codebase. The same applies when providing data to a Vue app. The reasoning for this is described in this discussion:
Consider a
someStateKey
is being used in the store state. You may not be able to grep for it directly if it was provided only byel.dataset
. Instead, you'd have to grep forsome_state_key
, because it could have come from a Rails template. The reverse is also true: if you're looking at a rails template, you might wonder what usessome_state_key
, but you'd have to grep forsomeStateKey
.
Communicating with the Store
<script>
// eslint-disable-next-line no-restricted-imports
import { mapActions, mapState, mapGetters } from 'vuex';
export default {
computed: {
...mapGetters([
'getUsersWithPets'
]),
...mapState([
'isLoading',
'users',
'error',
]),
},
methods: {
...mapActions([
'fetchUsers',
'addUser',
]),
onClickAddUser(data) {
this.addUser(data);
}
},
created() {
this.fetchUsers()
}
}
</script>
<template>
<ul>
<li v-if="isLoading">
Loading...
</li>
<li v-else-if="error">
{{ error }}
</li>
<template v-else>
<li
v-for="user in users"
:key="user.id"
>
{{ user }}
</li>
</template>
</ul>
</template>
Testing Vuex
Testing Vuex concerns
Refer to Vuex documentation regarding testing Actions, Getters and Mutations.
Testing components that need a store
Smaller components might use store
properties to access the data. To write unit tests for those
components, we need to include the store and provide the correct state:
//component_spec.js
import Vue from 'vue';
// eslint-disable-next-line no-restricted-imports
import Vuex from 'vuex';
import { mount } from '@vue/test-utils';
import { createStore } from './store';
import Component from './component.vue'
Vue.use(Vuex);
describe('component', () => {
let store;
let wrapper;
const createComponent = () => {
store = createStore();
wrapper = mount(Component, {
store,
});
};
beforeEach(() => {
createComponent();
});
it('should show a user', async () => {
const user = {
name: 'Foo',
age: '30',
};
// populate the store
await store.dispatch('addUser', user);
expect(wrapper.text()).toContain(user.name);
});
});
Some test files may still use the
deprecated createLocalVue
function
from @vue/test-utils
and localVue.use(Vuex)
. This is unnecessary, and should be
avoided or removed when possible.
Two way data binding
When storing form data in Vuex, it is sometimes necessary to update the value stored. The store
should never be mutated directly, and an action should be used instead.
To use v-model
in our code, we need to create computed properties in this form:
export default {
computed: {
someValue: {
get() {
return this.$store.state.someValue;
},
set(value) {
this.$store.dispatch("setSomeValue", value);
}
}
}
};
An alternative is to use mapState
and mapActions
:
export default {
computed: {
...mapState(['someValue']),
localSomeValue: {
get() {
return this.someValue;
},
set(value) {
this.setSomeValue(value)
}
}
},
methods: {
...mapActions(['setSomeValue'])
}
};
Adding a few of these properties becomes cumbersome, and makes the code more repetitive with more tests to write. To simplify this there is a helper in ~/vuex_shared/bindings.js
.
The helper can be used like so:
// this store is non-functional and only used to give context to the example
export default {
state: {
baz: '',
bar: '',
foo: ''
},
actions: {
updateBar() {...},
updateAll() {...},
},
getters: {
getFoo() {...},
}
}
import { mapComputed } from '~/vuex_shared/bindings'
export default {
computed: {
/**
* @param {(string[]|Object[])} list - list of string matching state keys or list objects
* @param {string} list[].key - the key matching the key present in the vuex state
* @param {string} list[].getter - the name of the getter, leave it empty to not use a getter
* @param {string} list[].updateFn - the name of the action, leave it empty to use the default action
* @param {string} defaultUpdateFn - the default function to dispatch
* @param {string|function} root - optional key of the state where to search for they keys described in list
* @returns {Object} a dictionary with all the computed properties generated
*/
...mapComputed(
[
'baz',
{ key: 'bar', updateFn: 'updateBar' },
{ key: 'foo', getter: 'getFoo' },
],
'updateAll',
),
}
}
mapComputed
then generates the appropriate computed properties that get the data from the store and dispatch the correct action when updated.
In the event that the root
of the key is more than one-level deep you can use a function to retrieve the relevant state object.
For instance, with a store like:
// this store is non-functional and only used to give context to the example
export default {
state: {
foo: {
qux: {
baz: '',
bar: '',
foo: '',
},
},
},
actions: {
updateBar() {...},
updateAll() {...},
},
getters: {
getFoo() {...},
}
}
The root
could be:
import { mapComputed } from '~/vuex_shared/bindings'
export default {
computed: {
...mapComputed(
[
'baz',
{ key: 'bar', updateFn: 'updateBar' },
{ key: 'foo', getter: 'getFoo' },
],
'updateAll',
(state) => state.foo.qux,
),
}
}