Vue gives developers a lot of power and flexibility to create reusable components and logic. This is part of the reason developers ❤️ Vue, but sometimes leads to hard decisions on which pattern to choose for a certain use case. In this article I'll shed some light on a use case that took us a bit of time to get right:
Modal dialogs that are shared accross the whole application (e.g. confirmation dialogs)
⏱ Short On Time?
Steal with pride from the example app
📝 Minimum Requirements
Before diving into the details, let's take a look at what we want to achieve.
A modal dialog
- can be triggered from multiple places
- can receive props
- can provide events
- is rendered only once when used in multiple places
💎 Developer Experience
In addition to the minimum requirements we would also like to get a great DX by
- providing a simple api
- offering type safety for a dialog's accepted props and events
📟 Defining the API
Usually a good way to start building a new component is by thinking about how you want to use it. For the purposes of that let's take a look at a concrete example. Before a user deletes an entity, she is asked to confirm this action.
Without the confirmation part our code might look like this:
<template>
...
<AppButton variant="danger" @click="handleDelete">Delete</AppButton>
...
</template>
<script setup lang="ts">
...
async function handleDelete() {
await api.delete(props.id)
router.push('/overview')
}
...
</script>
After applying our dream dialog api we might end up with:
import { dialogs } from '@src/dialogs'
...
async function doDelete() {
await api.delete(props.id)
router.push('/overview')
}
// ✅ provide a simple api
// ✅ can be triggered from multiple places
dialogs.open('confirm', {
// ✅ can receive props
title: `Do you really want to delete ${props.name}?`,
// ✅ can provide events
onConfirm: () => doDelete(),
})
</script>
This already fulfills #1 to #3 of our minimum requirements, as well as #1 of our DX wishes.
🪜 Planning the Architecture
Next let's create a proper architecture, which supports #4 of our minimum requirements. In order to only render a single dialog instance we ended up with something like this:
The View calls the dialogProvider, which in turn notifies the DialogWrapper. The DialogWrapper itself is responsible for rendering a single dialog at a time.
Note, that in this case we use
Viewas a substitute for any place that needs to use a dialog. So it can be an actualRouterView, another component or even a use hook.
🧱 Creating the Dialog Provider
Based on the above architecture, our dialogProvider is hardly more than a subscription service for dialogs. For the sake of breavity, we use EventTarget to implement it:
// dialogs/dialog-provider.ts
const DIALOG_OPEN_EVENT = 'DIALOG_OPEN_EVENT'
const eventBus = new EventTarget()
export type DialogEventPayload = {
kind: string
context: Record<string, unknown>
}
export const dialogProvider = {
open(kind: string, context: Record<string, unknown>) {
eventBus.dispatchEvent(
new CustomEvent<DialogEventPayload>(DIALOG_OPEN_EVENT, {
detail: {
kind,
context,
},
})
)
},
subscribe(handler: (payload: DialogEventPayload) => void) {
function handleEvent(event: CustomEvent<DialogEventPayload>) {
handler(event.detail)
}
eventBus.addEventListener(DIALOG_OPEN_EVENT, handleEvent as EventListener)
return () =>
eventBus.removeEventListener(
DIALOG_OPEN_EVENT,
handleEvent as EventListener
)
},
}
On the surface the dialogProvider offers two methods:
-
openwill be used inside our views to open a new dialog -
subscribewill be used inside theDialogWrapperto get notified about opening a new dialog
🧱 Creating the Dialog Wrapper
Now we create the DialogWrapper which is responsible for rendering dialogs, whenever it gets notified by the dialogProvider.
// dialogs/dialog-wrapper.vue
<template>
<component
v-if="dialogComponent"
:is="dialogComponent"
v-bind="dialogBindings"
/>
</template>
<script setup lang="ts">
import { onBeforeUnmount, ref, markRaw } from 'vue'
import { dialogProvider } from './dialog-provider'
import { DIALOG_COMPONENTS } from './components'
const dialogComponent = ref()
const dialogBindings = ref()
function onClose() {
dialogComponent.value = null
dialogBindings.value = null
}
const unsubscribe = dialogProvider.subscribe(({ kind, context }) => {
dialogComponent.value = markRaw(DIALOG_COMPONENTS[kind])
dialogBindings.value = {
...context,
onClose,
}
})
onBeforeUnmount(unsubscribe)
</script>
// dialogs/components/index.ts
import type { Component } from 'vue'
export const DIALOG_COMPONENTS: Record<string, Component> = {}
This component is pretty straightforward. It utilizes Vue's component to render a dialog component of a certain kind. It also binds the provided context alongside an onClose handler to the dialog component.
Note that we import a record of DIALOG_COMPONENTS, which is an empty object for now. This is the place where we will register the actual dialog components.
🧱 Adding a Dialog Component
Our next step is to add an actual dialog component. Let's stick with the example from above and create a ConfirmDialog:
// dialogs/components/confirm-dialog.vue
<template>
<AppDialog @close="handleCancel">
<template #title>
{{ title }}
</template>
<template #actions>
<AppButton @click="handleCancel">Cancel</AppButton>
<AppButton @click="handleConfirm" variant="primary">Confirm</AppButton>
</template>
</AppDialog>
</template>
<script setup lang="ts">
import AppDialog from '../../components/app-dialog.vue'
import AppButton from '../../components/app-button.vue'
defineProps<{
title: string
}>()
const emit = defineEmits(['close', 'cancel', 'confirm'])
function handleCancel() {
emit('cancel')
emit('close')
}
function handleConfirm() {
emit('confirm')
emit('close')
}
</script>
The one thing that all dialog components need to implement is a close event. This is used by the DialogWrapper to close the dialog and reset its bindings.
In addition this specific dialog emits a cancel and confirm event. It also requires a title prop. All of these can be provided by the context of a DialogEvent and are bound to the component by the DialogWrapper.
🧱 Register the Confirm Dialog
Now we register the ConfirmDialog in our DIALOG_COMPONENTS, so the DialogWrapper knows about its existence:
// dialogs/components/index.ts
import type { Component } from 'vue'
import { defineAsyncComponent } from 'vue'
export const DIALOG_COMPONENTS: Record<string, Component> = {
confirm: defineAsyncComponent(() => import('./confirm-dialog.vue')),
}
Note that we use Vue's defineAsyncComponent to enable code splitting and ensure a dialog is only loaded on demand. This is considered best practice, as some dialogs might not be needed at all during a user session.
🧱 Using Dialogs in a View
With all the hard work done, we can finally reap the rewards and use a dialog inside our view (in this simple example just the App.vue).
// App.vue
<script setup lang="ts">
import { ref } from 'vue'
import { DialogWrapper, dialogProvider } from './dialogs'
import AppButton from './components/app-button.vue'
const confirmed = ref(false)
function handleSeriousAction() {
dialogProvider.open('confirm', {
title: 'Do you really want to delete this?',
onConfirm: () => {
confirmed.value = true
},
onCancel: () => {
confirmed.value = false
},
})
}
</script>
<template>
<div>
<h2>{{ confirmed ? 'Action Confirmed' : 'Unconfirmed' }}</h2>
<AppButton @click="handleSeriousAction" variant="danger">
Do Something Serious
</AppButton>
</div>
<DialogWrapper />
</template>
While the DialogWrapper should be kept on root level, the dialogProvider can be used wherever we please. Adding new kinds of dialogs is a breeze, as it just requires creating a simple dialog component and adding it to DIALOG_COMPONENTS.
But there is one last beast to slay.
🔮 Improving Developer Experience with Type Safety
By making our open method generic, we can add type safety and intellisense to it:
// dialogs/confirm-provider.ts
import type { ComponentProps } from '../types'
import type { DIALOG_COMPONENTS } from './components'
type DialogKind = keyof typeof DIALOG_COMPONENTS
type DialogContext<TKind extends DialogKind> = Omit<
ComponentProps<typeof DIALOG_COMPONENTS[TKind]>,
'onClose'
>
export type DialogEventPayload<TKind extends DialogKind = DialogKind> = {
kind: DialogKind
context: DialogContext<TKind>
}
const DIALOG_OPEN_EVENT = 'DIALOG_OPEN_EVENT'
const eventBus = new EventTarget()
export const dialogProvider = {
open<TKind extends DialogKind>(kind: TKind, context: DialogContext<TKind>) {
eventBus.dispatchEvent(
new CustomEvent<DialogEventPayload>(DIALOG_OPEN_EVENT, {
detail: {
kind,
context,
},
})
)
},
subscribe(handler: (payload: DialogEventPayload) => void) {
function handleEvent(event: CustomEvent<DialogEventPayload>) {
handler(event.detail)
}
eventBus.addEventListener(DIALOG_OPEN_EVENT, handleEvent as EventListener)
return () =>
eventBus.removeEventListener(
DIALOG_OPEN_EVENT,
handleEvent as EventListener
)
},
}
// types.d.ts
import type { AllowedComponentProps, Component, VNodeProps } from 'vue'
export type ComponentProps<C extends Component> = C extends new (
...args: any
) => any
? Omit<
InstanceType<C>['$props'],
keyof VNodeProps | keyof AllowedComponentProps
>
: never
The important part here is the generic DialogContext type. It takes a DialogKind, which is the key of our DIALOG_COMPONENTS record. It then gets the props of the component that is stored under this key and omits onClose, as this method should only be used inside of DialogWrapper.
Now TypeScript will yell at us, if we miss a required prop. In addition we get intellisense for a dialog's context:
And that's it. We have created a solid foundation for dialogs that can be used application wide. We have also ensured it is type safe and offers a straightforward way to extend.
I hope you enjoyed this article and would love to read your thoughts about the approach. Also I am always curious to see other solutions. Feel free to leave a comment.
❤️ Thanks for reading!
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