Million.js 虚拟 DOM 替代方案 is becoming increasingly widespread in frontend development. This article dives into its core principles and best practices from real projects.
Basic Usage
Building on this foundation, we can further optimize:
javascript
import { useReducer, useCallback } from 'react'
const initialState = { items: [], filter: '', sort: 'date' }
function reducer(state, action) {
switch (action.type) {
case 'SET_ITEMS': return { ...state, items: action.payload }
case 'SET_FILTER': return { ...state, filter: action.payload }
case 'ADD_ITEM': return { ...state, items: [...state.items, action.payload] }
case 'REMOVE_ITEM': return { ...state, items: state.items.filter(i => i.id !== action.payload) }
default: throw new Error(`Unknown: ${action.type}`)
}
}
This pattern is very practical in large projects and can significantly reduce maintenance costs.
Advanced Usage
Usage in real projects tends to be more complex:
javascript
type UnwrapPromise<T> = T extends Promise<infer U> ? U : T
async function fetchUser(id: string) {
const res = await fetch(`/api/users/${id}`)
return res.json() as Promise<{ id: string; name: string; email: string }>
}
type User = UnwrapPromise<ReturnType<typeof fetchUser>>
// 类型安全的事件系统
interface EventMap {
login: { userId: string; timestamp: number }
logout: { userId: string }
}
class TypedEmitter<T extends Record<string, any>> {
private handlers = new Map<keyof T, Set<Function>>()
on<K extends keyof T>(event: K, handler: (payload: T[K]) => void) {
if (!this.handlers.has(event)) this.handlers.set(event, new Set())
this.handlers.get(event)!.add(handler)
}
emit<K extends keyof T>(event: K, payload: T[K]) {
this.handlers.get(event)?.forEach(h => h(payload))
}
}
Through this approach, both the testability and scalability of the code are improved.
Practical Cases
Here is a complete example:
javascript
const express = require('express')
const app = express()
app.use(express.json())
class AppError extends Error {
constructor(status, message) {
super(message); this.statusCode = status
}
}
const asyncHandler = (fn) => (req, res, next) =>
Promise.resolve(fn(req, res, next)).catch(next)
app.get('/api/users/:id', asyncHandler(async (req, res) => {
const user = await User.findById(req.params.id)
if (!user) throw new AppError(404, '用户不存在')
res.json({ data: user })
}))
Pay attention to boundary condition handling, which is critical in production.
Performance Optimization
The key lies in understanding the core logic:
javascript
import { useReducer, useCallback } from 'react'
const initialState = { items: [], filter: '', sort: 'date' }
function reducer(state, action) {
switch (action.type) {
case 'SET_ITEMS': return { ...state, items: action.payload }
case 'SET_FILTER': return { ...state, filter: action.payload }
case 'ADD_ITEM': return { ...state, items: [...state.items, action.payload] }
case 'REMOVE_ITEM': return { ...state, items: state.items.filter(i => i.id !== action.payload) }
default: throw new Error(`Unknown: ${action.type}`)
}
}
Performance optimization should be tailored to specific scenarios; not all cases require over-optimization.
Common Pitfalls
We can improve it in the following ways:
javascript
type UnwrapPromise<T> = T extends Promise<infer U> ? U : T
async function fetchUser(id: string) {
const res = await fetch(`/api/users/${id}`)
return res.json() as Promise<{ id: string; name: string; email: string }>
}
type User = UnwrapPromise<ReturnType<typeof fetchUser>>
// 类型安全的事件系统
interface EventMap {
login: { userId: string; timestamp: number }
logout: { userId: string }
}
class TypedEmitter<T extends Record<string, any>> {
private handlers = new Map<keyof T, Set<Function>>()
on<K extends keyof T>(event: K, handler: (payload: T[K]) => void) {
if (!this.handlers.has(event)) this.handlers.set(event, new Set())
this.handlers.get(event)!.add(handler)
}
emit<K extends keyof T>(event: K, payload: T[K]) {
this.handlers.get(event)?.forEach(h => h(payload))
}
}
This approach has been running stably in production for over six months and has been practically validated.
Summary
- In team collaboration, conventions and documentation are more important than the technology itself
- Stay updated with the community; technical solutions need continuous iteration
- Don't adopt new technology just for the sake of it
- Code examples are for reference only and need to be adjusted according to your business scenario