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direct-vuex
Advanced tools
Use and implement your Vuex store with TypeScript types. Compatible with the Vue 3 composition API.
Use and implement your Vuex store with TypeScript types. Direct-vuex doesn't require classes, therefore it is compatible with the Vue 3 composition API.
First, add direct-vuex
to a Vue application:
npm install direct-vuex
The store can be implemented almost in the same way as usual.
Create the store:
import Vue from "vue"
import Vuex from "vuex"
import { createDirectStore } from "direct-vuex"
Vue.use(Vuex)
const {
store,
rootActionContext,
moduleActionContext,
rootGetterContext,
moduleGetterContext
} = createDirectStore({
// … store implementation here …
})
// Export the direct-store instead of the classic Vuex store.
export default store
// The following exports will be used to enable types in the
// implementation of actions and getters.
export {
rootActionContext,
moduleActionContext,
rootGetterContext,
moduleGetterContext
}
// The following lines enable types in the injected store '$store'.
export type AppStore = typeof store
declare module "vuex" {
interface Store<S> {
direct: AppStore
}
}
The classic Vuex store is still accessible through the store.original
property. We need it to initialize the Vue application:
import Vue from "vue"
import store from "./store"
new Vue({
store: store.original, // Inject the classic Vuex store.
// …
}).$mount("#app")
From a component, the direct store is accessible through the direct
property of the classic store:
const store = context.root.$store.direct // or: this.$store.direct
Or, you can just import it:
import store from "./store"
Then, the old way to call an action:
store.dispatch("mod1/myAction", myPayload)
… is replaced by the following wrapper:
store.dispatch.mod1.myAction(myPayload)
… which is fully typed.
Typed getters and mutations are accessible the same way:
store.getters.mod1.myGetter
store.commit.mod1.myMutation(myPayload)
Notice: The underlying Vuex store can be used simultaneously if you wish, through the injected $store
or store.original
.
In store and module options, the state
property shouldn't be declared with the ES6 method syntax.
Valid:
state: { p1: string } as Mod1State
state: (): Mod1State => { p1: string }
state: function (): Mod1State { return { p1: string } }
Invalid:
state(): Mod1State { return { p1: string } }
I'm not sure why but TypeScript doesn't infer the state type correctly when we write that.
Direct-vuex provides several useful helpers for implementation of the store. They are all optional. However, if you want to keep your classic implementation of a Vuex Store, then direct-vuex needs to infer the literal type of the namespaced
property. You can write namespaced: true as true
where there is a namespaced
property. But you don't need to worry about that if you use defineModule
.
The function defineModule
is provided solely for type inference. It is a no-op behavior-wise. It expects a module implementation and returns the argument as-is. This behaviour is similar to (and inspired from) the function defineComponent
from the composition API.
The generated functions moduleActionContext
and moduleGetterContext
are factories for creating functions mod1ActionContext
and mod1GetterContext
, which converts injected action and getter contexts to their direct-vuex equivalent.
Here is how to use defineModule
, moduleActionContext
and moduleGetterContext
:
import { defineModule } from "direct-vuex"
import { moduleActionContext, moduleGetterContext } from "./store"
export interface Mod1State {
p1: string
}
const mod1 = defineModule({
state: (): Mod1State => {
return {
p1: ""
}
}
getters: {
p1OrDefault(...args) {
const { state, getters, rootState, rootGetters } = mod1GetterContext(args)
// Here, 'getters', 'state', 'rootGetters' and 'rootState' are typed.
// Without 'mod1GetterContext' only 'state' would be typed.
return state.p1 || "default"
}
},
mutations: {
SET_P1(state, p1: string) {
// Here, the type of 'state' is 'Mod1State'.
state.p1 = p1
}
},
actions: {
loadP1(context, payload: { id: string }) {
const { dispatch, commit, getters, state } = mod1ActionContext(context)
// Here, 'dispatch', 'commit', 'getters' and 'state' are typed.
}
},
})
export default mod1
const mod1GetterContext = (args: [any, any, any, any]) => moduleGetterContext(args, mod1)
const mod1ActionContext = (context: any) => moduleActionContext(context, mod1)
2 Warnings:
any
. Tl;dr; Declare the return type of actions where it exists!moduleGetterContext
is used!The generated function rootGetterContext
converts the injected action context to the direct-vuex one, at the root level (not in a module).
getters: {
getterInTheRootStore(...args) {
const { state, getters } = rootGetterContext(args)
// Here, 'getters', 'state' are typed.
// Without 'rootGetterContext' only 'state' would be typed.
}
}
The generated function rootActionContext
converts the injected action context to the direct-vuex one, at the root level (not in a module).
actions: {
async actionInTheRootStore(context, payload) {
const { commit, state } = rootActionContext(context)
// … Here, 'commit' and 'state' are typed.
}
}
localGetterContext
and localActionContext
Instead of moduleActionContext
and moduleGetterContext
, which imply circular dependencies, it is possible to use localGetterContext
and localActionContext
:
import { defineModule, localActionContext, localGetterContext } from "direct-vuex"
const mod1 = defineModule({
// …
})
export default mod1
const mod1GetterContext = (args: [any, any, any, any]) => localGetterContext(args, mod1)
const mod1ActionContext = (context: any) => localActionContext(context, mod1)
Now there isn't circular dependency, but getter and action contexts don't provide access to rootState
, rootGetters
, rootCommit
, rootDispatch
.
Functions localGetterContext
and localActionContext
can be used in place of rootGetterContext
and rootActionContext
too.
defineGetters
The function defineGetters
is provided solely for type inference. It is a no-op behavior-wise. It is a factory for a function, which expects the object of a getters
property and returns the argument as-is.
import { defineGetters } from "direct-vuex"
import { Mod1State } from "./mod1" // Import the local definition of the state (for example from the current module)
export default defineGetters<Mod1State>()({
getter1(...args) {
const { state, getters, rootState, rootGetters } = mod1GetterContext(args)
// Here, 'getters', 'state', 'rootGetters' and 'rootState' are typed.
// Without 'mod1GetterContext' only 'state' would be typed.
},
})
Note: There is a limitation. The second parameters getters
in a getter implementation, is not typed.
defineMutations
The function defineMutations
is provided solely for type inference. It is a no-op behavior-wise. It is a factory for a function, which expects the object of a mutations
property and returns the argument as-is.
import { defineMutations } from "direct-vuex"
import { Mod1State } from "./mod1" // Import the local definition of the state (for example from the current module)
export default defineMutations<Mod1State>()({
SET_P1(state, p1: string) {
// Here, the type of 'state' is 'Mod1State'.
state.p1 = p1
}
})
defineActions
The function defineActions
is provided solely for type inference. It is a no-op behavior-wise. It expects the object of an actions
property and returns the argument as-is.
import { defineActions } from "direct-vuex"
export default defineActions({
loadP1(context, payload: { id: string }) {
const { dispatch, commit, getters, state } = mod1ActionContext(context)
// Here, 'dispatch', 'commit', 'getters' and 'state' are typed.
}
})
When the helper moduleActionContext
and moduleGetterContext
are used, linters may warn about an issue: "Variable used before it's assigned". I couldn't avoid circular dependencies. Action contexts and getter contexts need to be inferred at the store level, because they contain rootState
etc.
Here is an example of a Vuex module implementation:
import { moduleActionContext } from "./store"
const mod1 = {
getters: {
p1OrDefault(...args) {
const { state, getters, rootState, rootGetters } = mod1GetterContext(args)
// …
}
},
actions: {
loadP1(context, payload: { id: string }) {
const { commit, rootState } = mod1ActionContext(context)
// …
}
}
}
export default mod1
const mod1ActionContext = (context: any) => moduleActionContext(context, mod1)
const mod1GetterContext = (args: [any, any, any, any]) => moduleGetterContext(args, mod1)
It works because mod1ActionContext
(or mod1GetterContext
) is not executed at the same time it is declared. It is executed when an action (or a getter) is executed, ie. after all the store and modules are already initialized.
I suggest to disable the linter rule with a comment at the top of the source file.
With TSLint:
// tslint:disable: no-use-before-declare
With ESLint:
/* eslint-disable no-use-before-define */
Notice: A consequence of these circular dependencies is that the main store file must be imported first from the rest of the application. If a Vuex module is imported first, some part of your implementation could be undefined
at runtime.
With VS Code, our recommanded plugin is:
ms-vscode.vscode-typescript-tslint-plugin
)FAQs
Use and implement your Vuex store with TypeScript types. Compatible with the Vue 3 composition API.
The npm package direct-vuex receives a total of 1,821 weekly downloads. As such, direct-vuex popularity was classified as popular.
We found that direct-vuex demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 1 open source maintainer collaborating on the project.
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