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This skill helps you choose and implement frontend patterns across React, Vue, Svelte, and Angular for faster, scalable UIs.
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---
name: frontend-development
description: "Multi-framework frontend development. Frameworks: React 18+ (Suspense, hooks, TanStack), Vue 3 (Composition API, Pinia, Nuxt), Svelte 5 (Runes, SvelteKit), Angular (Signals, standalone). Common: TypeScript, state management, routing, data fetching, performance optimization, component patterns. Actions: create, build, implement, style, optimize, refactor components/pages/features. Keywords: React, Vue, Svelte, Angular, component, TypeScript, hooks, Composition API, runes, signals, useSuspenseQuery, Pinia, stores, state management, routing, lazy loading, Suspense, performance, bundle size, code splitting, reactivity, props, events. Use when: creating components in any framework, building pages, fetching data, implementing routing, state management, optimizing performance, organizing frontend code, choosing between frameworks."
---
# Frontend Development Guidelines
## Purpose
Comprehensive guide for modern frontend development across React, Vue 3, Svelte 5, and Angular. Covers framework-specific patterns, common architectural principles, and cross-framework best practices.
## When to Use This Skill
- Creating components or pages in React, Vue, Svelte, or Angular
- Building new features with framework-specific patterns
- Implementing state management (Pinia, Zustand, stores, signals)
- Setting up routing (TanStack Router, Vue Router, SvelteKit, Angular Router)
- Data fetching patterns (TanStack Query, composables, SvelteKit load functions)
- Performance optimization across frameworks
- Component composition and reusability
- TypeScript integration and best practices
- Choosing the right framework for a project
- Migrating between frameworks
---
## Framework Selection Guide
Choose your framework based on project requirements:
| Framework | Best For | Learning Curve | Performance | Ecosystem |
|-----------|----------|----------------|-------------|-----------|
| **React** | Large apps, strong typing, enterprise | Medium | Good | Largest |
| **Vue 3** | Progressive adoption, approachable | Low | Excellent | Growing |
| **Svelte 5** | Small/medium apps, native feel | Low | Best | Smaller |
| **Angular** | Enterprise, full-featured | Steep | Good | Complete |
**Quick Decision:**
- **Existing codebase?** Use what's there or plan migration
- **Team experience?** Leverage existing knowledge
- **Project size?** Large → React/Angular, Medium → Vue/React, Small → Svelte/Vue
- **Performance critical?** Svelte > Vue > React ≈ Angular
- **TypeScript required?** All support it well (Angular best integrated)
- **Ecosystem needs?** React > Vue > Angular > Svelte
See framework-specific sections below for detailed patterns.
---
## Quick Framework Comparison
| Feature | React | Vue 3 | Svelte 5 | Angular |
|---------|-------|-------|----------|---------|
| **Reactivity** | Hooks (useState) | ref/reactive | Runes ($state) | Signals |
| **Components** | JSX/TSX | SFC (.vue) | SFC (.svelte) | Decorators/Class |
| **State Mgmt** | Zustand/Context | Pinia | Stores | Services |
| **Routing** | React Router/TanStack | Vue Router | SvelteKit | Angular Router |
| **Data Fetching** | TanStack Query | Composables/VueQuery | Load functions | HttpClient/RxJS |
| **Styling** | CSS-in-JS/Modules | Scoped CSS | Scoped CSS | Component styles |
| **Full-Stack** | Next.js | Nuxt | SvelteKit | Universal/SSR |
| **Bundle Size** | ~40KB | ~32KB | ~3KB | ~60KB |
| **Compiler** | Runtime | Runtime | Compile-time | AOT Compiler |
**Jump to:**
- [React Development](#react-development) - Hooks, Suspense, TanStack ecosystem
- [Vue 3 Development](#vue-3-development) - Composition API, Pinia, Nuxt
- [Svelte 5 Development](#svelte-5-development) - Runes, SvelteKit, minimal runtime
- [Angular Development](#angular-development) - Signals, standalone components, RxJS
- [Framework-Agnostic Patterns](#framework-agnostic-patterns) - Universal concepts
---
## React Development
### New Component Checklist
Creating a component? Follow this checklist:
- [ ] Use `React.FC<Props>` pattern with TypeScript
- [ ] Lazy load if heavy component: `React.lazy(() => import())`
- [ ] Wrap in `<SuspenseLoader>` for loading states
- [ ] Use `useSuspenseQuery` for data fetching
- [ ] Import aliases: `@/`, `~types`, `~components`, `~features`
- [ ] Styles: Inline if <100 lines, separate file if >100 lines
- [ ] Use `useCallback` for event handlers passed to children
- [ ] Default export at bottom
- [ ] No early returns with loading spinners
- [ ] Use `useMuiSnackbar` for user notifications
### New Feature Checklist
Creating a feature? Set up this structure:
- [ ] Create `features/{feature-name}/` directory
- [ ] Create subdirectories: `api/`, `components/`, `hooks/`, `helpers/`, `types/`
- [ ] Create API service file: `api/{feature}Api.ts`
- [ ] Set up TypeScript types in `types/`
- [ ] Create route in `routes/{feature-name}/index.tsx`
- [ ] Lazy load feature components
- [ ] Use Suspense boundaries
- [ ] Export public API from feature `index.ts`
---
## Import Aliases Quick Reference
| Alias | Resolves To | Example |
|-------|-------------|---------|
| `@/` | `src/` | `import { apiClient } from '@/lib/apiClient'` |
| `~types` | `src/types` | `import type { User } from '~types/user'` |
| `~components` | `src/components` | `import { SuspenseLoader } from '~components/SuspenseLoader'` |
| `~features` | `src/features` | `import { authApi } from '~features/auth'` |
Defined in: [vite.config.ts](../../vite.config.ts) lines 180-185
---
## Common Imports Cheatsheet
```typescript
// React & Lazy Loading
import React, { useState, useCallback, useMemo } from 'react';
const Heavy = React.lazy(() => import('./Heavy'));
// MUI Components
import { Box, Paper, Typography, Button, Grid } from '@mui/material';
import type { SxProps, Theme } from '@mui/material';
// TanStack Query (Suspense)
import { useSuspenseQuery, useQueryClient } from '@tanstack/react-query';
// TanStack Router
import { createFileRoute } from '@tanstack/react-router';
// Project Components
import { SuspenseLoader } from '~components/SuspenseLoader';
// Hooks
import { useAuth } from '@/hooks/useAuth';
import { useMuiSnackbar } from '@/hooks/useMuiSnackbar';
// Types
import type { Post } from '~types/post';
```
---
## Topic Guides
### 🎨 Component Patterns
**Modern React components use:**
- `React.FC<Props>` for type safety
- `React.lazy()` for code splitting
- `SuspenseLoader` for loading states
- Named const + default export pattern
**Key Concepts:**
- Lazy load heavy components (DataGrid, charts, editors)
- Always wrap lazy components in Suspense
- Use SuspenseLoader component (with fade animation)
- Component structure: Props → Hooks → Handlers → Render → Export
**[📖 Complete Guide: resources/component-patterns.md](resources/component-patterns.md)**
---
### 📊 Data Fetching
**PRIMARY PATTERN: useSuspenseQuery**
- Use with Suspense boundaries
- Cache-first strategy (check grid cache before API)
- Replaces `isLoading` checks
- Type-safe with generics
**API Service Layer:**
- Create `features/{feature}/api/{feature}Api.ts`
- Use `apiClient` axios instance
- Centralized methods per feature
- Route format: `/form/route` (NOT `/api/form/route`)
**[📖 Complete Guide: resources/data-fetching.md](resources/data-fetching.md)**
---
### 📁 File Organization
**features/ vs components/:**
- `features/`: Domain-specific (posts, comments, auth)
- `components/`: Truly reusable (SuspenseLoader, CustomAppBar)
**Feature Subdirectories:**
```
features/
my-feature/
api/ # API service layer
components/ # Feature components
hooks/ # Custom hooks
helpers/ # Utility functions
types/ # TypeScript types
```
**[📖 Complete Guide: resources/file-organization.md](resources/file-organization.md)**
---
### 🎨 Styling
**Inline vs Separate:**
- <100 lines: Inline `const styles: Record<string, SxProps<Theme>>`
- >100 lines: Separate `.styles.ts` file
**Primary Method:**
- Use `sx` prop for MUI components
- Type-safe with `SxProps<Theme>`
- Theme access: `(theme) => theme.palette.primary.main`
**MUI v7 Grid:**
```typescript
<Grid size={{ xs: 12, md: 6 }}> // ✅ v7 syntax
<Grid xs={12} md={6}> // ❌ Old syntax
```
**[📖 Complete Guide: resources/styling-guide.md](resources/styling-guide.md)**
---
### 🛣️ Routing
**TanStack Router - Folder-Based:**
- Directory: `routes/my-route/index.tsx`
- Lazy load components
- Use `createFileRoute`
- Breadcrumb data in loader
**Example:**
```typescript
import { createFileRoute } from '@tanstack/react-router';
import { lazy } from 'react';
const MyPage = lazy(() => import('@/features/my-feature/components/MyPage'));
export const Route = createFileRoute('/my-route/')({
component: MyPage,
loader: () => ({ crumb: 'My Route' }),
});
```
**[📖 Complete Guide: resources/routing-guide.md](resources/routing-guide.md)**
---
### ⏳ Loading & Error States
**CRITICAL RULE: No Early Returns**
```typescript
// ❌ NEVER - Causes layout shift
if (isLoading) {
return <LoadingSpinner />;
}
// ✅ ALWAYS - Consistent layout
<SuspenseLoader>
<Content />
</SuspenseLoader>
```
**Why:** Prevents Cumulative Layout Shift (CLS), better UX
**Error Handling:**
- Use `useMuiSnackbar` for user feedback
- NEVER `react-toastify`
- TanStack Query `onError` callbacks
**[📖 Complete Guide: resources/loading-and-error-states.md](resources/loading-and-error-states.md)**
---
### ⚡ Performance
**Optimization Patterns:**
- `useMemo`: Expensive computations (filter, sort, map)
- `useCallback`: Event handlers passed to children
- `React.memo`: Expensive components
- Debounced search (300-500ms)
- Memory leak prevention (cleanup in useEffect)
**[📖 Complete Guide: resources/performance.md](resources/performance.md)**
---
### 📘 TypeScript
**Standards:**
- Strict mode, no `any` type
- Explicit return types on functions
- Type imports: `import type { User } from '~types/user'`
- Component prop interfaces with JSDoc
**[📖 Complete Guide: resources/typescript-standards.md](resources/typescript-standards.md)**
---
### 🔧 Common Patterns
**Covered Topics:**
- React Hook Form with Zod validation
- DataGrid wrapper contracts
- Dialog component standards
- `useAuth` hook for current user
- Mutation patterns with cache invalidation
**[📖 Complete Guide: resources/common-patterns.md](resources/common-patterns.md)**
---
### 📚 Complete Examples
**Full working examples:**
- Modern component with all patterns
- Complete feature structure
- API service layer
- Route with lazy loading
- Suspense + useSuspenseQuery
- Form with validation
**[📖 Complete Guide: resources/complete-examples.md](resources/complete-examples.md)**
---
## React-Specific Navigation Guide
| Need to... | Read this resource |
|------------|-------------------|
| Create a React component | [component-patterns.md](resources/component-patterns.md) |
| Fetch data with TanStack Query | [data-fetching.md](resources/data-fetching.md) |
| Organize files/folders | [file-organization.md](resources/file-organization.md) |
| Style with MUI v7 | [styling-guide.md](resources/styling-guide.md) |
| Set up TanStack Router | [routing-guide.md](resources/routing-guide.md) |
| Handle loading/errors | [loading-and-error-states.md](resources/loading-and-error-states.md) |
| Optimize React performance | [performance.md](resources/performance.md) |
| TypeScript types | [typescript-standards.md](resources/typescript-standards.md) |
| Forms/Auth/DataGrid | [common-patterns.md](resources/common-patterns.md) |
| See full React examples | [complete-examples.md](resources/complete-examples.md) |
**Note:** Resources above are React-specific. For Vue/Svelte/Angular, see framework sections in this document.
---
## Core Principles (All Frameworks)
1. **Lazy Load Heavy Components**: Routes, data grids, charts, editors, modals
2. **Consistent Loading States**: Avoid layout shift with proper loading UI
3. **Type Safety**: Use TypeScript for all components and APIs
4. **Component Composition**: Small, focused components with clear responsibilities
5. **Unidirectional Data Flow**: Props down, events up
6. **Performance First**: Memoize expensive computations, virtual scrolling for lists
7. **Organized Features**: Group related code (components, state, types, utilities)
8. **Framework Idioms**: Use framework-specific patterns (hooks, composables, runes, services)
### React-Specific Principles
1. **useSuspenseQuery**: Primary data fetching pattern for new code
2. **No Early Returns**: Prevents layout shift (use Suspense boundaries)
3. **Import Aliases**: Use @/, ~types, ~components, ~features
4. **Styles Based on Size**: <100 inline, >100 separate file
### Vue-Specific Principles
1. **Composition API**: Prefer over Options API for reusability
2. **Script Setup**: Use for cleaner syntax and better performance
3. **Composables**: Extract reusable logic like React hooks
4. **Pinia for State**: Modern Vuex alternative with TypeScript support
### Svelte-Specific Principles
1. **Runes for Reactivity**: Use $state, $derived, $effect (Svelte 5+)
2. **SvelteKit for Apps**: Leverage file-based routing and server functions
3. **Minimal Stores**: Runes reduce need for stores in components
4. **Progressive Enhancement**: Build for no-JS, enhance with JS
### Angular-Specific Principles
1. **Standalone Components**: Default since v17 (avoid NgModules)
2. **Signals for State**: Prefer over RxJS for simple reactivity
3. **OnPush Detection**: Optimize change detection
4. **Dependency Injection**: Use inject() for modern DI
---
## Quick Reference: File Structure
```
src/
features/
my-feature/
api/
myFeatureApi.ts # API service
components/
MyFeature.tsx # Main component
SubComponent.tsx # Related components
hooks/
useMyFeature.ts # Custom hooks
useSuspenseMyFeature.ts # Suspense hooks
helpers/
myFeatureHelpers.ts # Utilities
types/
index.ts # TypeScript types
index.ts # Public exports
components/
SuspenseLoader/
SuspenseLoader.tsx # Reusable loader
CustomAppBar/
CustomAppBar.tsx # Reusable app bar
routes/
my-route/
index.tsx # Route component
create/
index.tsx # Nested route
```
---
## Modern Component Template (Quick Copy)
```typescript
import React, { useState, useCallback } from 'react';
import { Box, Paper } from '@mui/material';
import { useSuspenseQuery } from '@tanstack/react-query';
import { featureApi } from '../api/featureApi';
import type { FeatureData } from '~types/feature';
interface MyComponentProps {
id: number;
onAction?: () => void;
}
export const MyComponent: React.FC<MyComponentProps> = ({ id, onAction }) => {
const [state, setState] = useState<string>('');
const { data } = useSuspenseQuery({
queryKey: ['feature', id],
queryFn: () => featureApi.getFeature(id),
});
const handleAction = useCallback(() => {
setState('updated');
onAction?.();
}, [onAction]);
return (
<Box sx={{ p: 2 }}>
<Paper sx={{ p: 3 }}>
{/* Content */}
</Paper>
</Box>
);
};
export default MyComponent;
```
For complete examples, see [resources/complete-examples.md](resources/complete-examples.md)
---
## Vue 3 Development
### Component Patterns
**Composition API** - Modern Vue 3 approach with `<script setup>`:
```vue
<script setup lang="ts">
import { ref, computed, onMounted } from 'vue'
import type { User } from '@/types/user'
interface Props {
userId: number
}
const props = defineProps<Props>()
const emit = defineEmits<{
update: [user: User]
}>()
const user = ref<User | null>(null)
const isLoading = ref(true)
const displayName = computed(() => user.value?.name ?? 'Unknown')
onMounted(async () => {
user.value = await fetchUser(props.userId)
isLoading.value = false
})
function handleUpdate() {
if (user.value) emit('update', user.value)
}
</script>
<template>
<div class="user-profile">
<div v-if="isLoading">Loading...</div>
<div v-else>
<h2>{{ displayName }}</h2>
<button @click="handleUpdate">Update</button>
</div>
</div>
</template>
<style scoped>
.user-profile {
padding: 1rem;
}
</style>
```
**Key Patterns:**
- `<script setup>` - Concise composition API syntax
- `defineProps<T>()` - Type-safe props with generics
- `defineEmits<T>()` - Type-safe events
- `ref()`, `reactive()` - Reactivity primitives
- `computed()` - Derived state
- `watch()`, `watchEffect()` - Side effects
- `onMounted`, `onUnmounted` - Lifecycle hooks
### State Management (Pinia)
```typescript
// stores/userStore.ts
import { defineStore } from 'pinia'
import { ref, computed } from 'vue'
export const useUserStore = defineStore('user', () => {
// State
const users = ref<User[]>([])
const currentUser = ref<User | null>(null)
// Getters
const userCount = computed(() => users.value.length)
const isAuthenticated = computed(() => currentUser.value !== null)
// Actions
async function fetchUsers() {
users.value = await api.getUsers()
}
function setCurrentUser(user: User) {
currentUser.value = user
}
return { users, currentUser, userCount, isAuthenticated, fetchUsers, setCurrentUser }
})
// Component usage
<script setup lang="ts">
import { useUserStore } from '@/stores/userStore'
const userStore = useUserStore()
</script>
```
### Routing (Vue Router)
```typescript
// router/index.ts
import { createRouter, createWebHistory } from 'vue-router'
const router = createRouter({
history: createWebHistory(),
routes: [
{
path: '/',
component: () => import('@/views/HomeView.vue')
},
{
path: '/users/:id',
component: () => import('@/views/UserView.vue'),
props: true
}
]
})
// Component with route params
<script setup lang="ts">
import { useRoute, useRouter } from 'vue-router'
const route = useRoute()
const router = useRouter()
const userId = route.params.id
function goBack() {
router.push('/')
}
</script>
```
### Data Fetching Patterns
**Composables** - Reusable logic:
```typescript
// composables/useUser.ts
import { ref, type Ref } from 'vue'
export function useUser(id: Ref<number>) {
const user = ref<User | null>(null)
const loading = ref(false)
const error = ref<Error | null>(null)
async function fetchUser() {
loading.value = true
try {
user.value = await api.getUser(id.value)
} catch (e) {
error.value = e as Error
} finally {
loading.value = false
}
}
watchEffect(() => {
fetchUser()
})
return { user, loading, error, refetch: fetchUser }
}
// Usage in component
<script setup lang="ts">
const props = defineProps<{ userId: number }>()
const { user, loading, error } = useUser(toRef(props, 'userId'))
</script>
```
**Nuxt.js Server-Side:**
```vue
<script setup lang="ts">
// Nuxt auto-imports composables
const { data: user, pending, error } = await useFetch(`/api/users/${route.params.id}`)
</script>
```
### Vue 3 Best Practices
- **Composition API over Options API** - Better TypeScript support, reusability
- **Script setup** - Reduces boilerplate, automatic registration
- **Pinia over Vuex** - Simpler API, better TypeScript, composition API compatible
- **Composables** - Extract reusable logic (like React hooks)
- **v-memo** - Optimize expensive renders (similar to React.memo)
- **defineOptions** - Set component options in script setup
- **Shallow reactive** - Use `shallowRef()` for large objects
---
## Svelte 5 Development
### Runes-Based Reactivity
**Svelte 5 Runes** - New reactivity system:
```svelte
<script lang="ts">
import type { User } from '$lib/types/user'
interface Props {
userId: number
onUpdate?: (user: User) => void
}
let { userId, onUpdate }: Props = $props()
// Reactive state with $state
let user = $state<User | null>(null)
let isLoading = $state(true)
// Derived state with $derived
let displayName = $derived(user?.name ?? 'Unknown')
let userAge = $derived.by(() => {
if (!user?.birthDate) return null
return calculateAge(user.birthDate)
})
// Effects with $effect
$effect(() => {
// Runs when userId changes
loadUser(userId)
})
async function loadUser(id: number) {
isLoading = true
user = await fetchUser(id)
isLoading = false
}
function handleUpdate() {
if (user) onUpdate?.(user)
}
</script>
{#if isLoading}
<div>Loading...</div>
{:else if user}
<div class="user-profile">
<h2>{displayName}</h2>
{#if userAge}
<p>Age: {userAge}</p>
{/if}
<button onclick={handleUpdate}>Update</button>
</div>
{/if}
<style>
.user-profile {
padding: 1rem;
}
</style>
```
**Svelte 5 Runes:**
- `$state()` - Reactive state (replaces `let` for reactivity)
- `$derived` - Computed values (replaces `$:`)
- `$derived.by()` - Complex derived state
- `$effect()` - Side effects (replaces `$:` statements)
- `$props()` - Component props with destructuring
- `$bindable()` - Two-way binding for props
- `$inspect()` - Debugging reactive values
### State Management (Svelte Stores)
```typescript
// stores/user.ts
import { writable, derived, readonly } from 'svelte/store'
function createUserStore() {
const { subscribe, set, update } = writable<User[]>([])
return {
subscribe,
setUsers: (users: User[]) => set(users),
addUser: (user: User) => update(users => [...users, user]),
removeUser: (id: number) => update(users => users.filter(u => u.id !== id)),
reset: () => set([])
}
}
export const users = createUserStore()
export const userCount = derived(users, $users => $users.length)
// Component usage (Svelte 4 style)
<script>
import { users } from '$lib/stores/user'
</script>
<p>Total users: {$users.length}</p>
// Or with runes (Svelte 5)
<script>
import { users } from '$lib/stores/user'
let currentUsers = $state($users)
</script>
```
### SvelteKit Routing & Data Loading
```typescript
// src/routes/users/[id]/+page.ts
import type { PageLoad } from './$types'
export const load: PageLoad = async ({ params, fetch }) => {
const user = await fetch(`/api/users/${params.id}`).then(r => r.json())
return {
user
}
}
// src/routes/users/[id]/+page.svelte
<script lang="ts">
import type { PageData } from './$types'
let { data }: { data: PageData } = $props()
let { user } = $derived(data)
</script>
<h1>{user.name}</h1>
```
**SvelteKit Patterns:**
- `+page.svelte` - Page component
- `+page.ts` - Page data loading (runs on server and client)
- `+page.server.ts` - Server-only load functions
- `+layout.svelte` - Shared layouts
- `+server.ts` - API endpoints
- Form actions - Progressive enhancement
### Svelte 5 Best Practices
- **Use Runes** - Modern reactivity (Svelte 5+)
- **Explicit reactivity** - Use `$state()` instead of implicit `let`
- **$derived over $:** - Clearer intent, better optimization
- **Component composition** - Use slots and snippets
- **SvelteKit for apps** - Full-stack framework with routing, SSR
- **Minimize stores** - Runes reduce need for stores in components
- **Progressive enhancement** - Use form actions for better UX
---
## Angular Development
### Standalone Components (Modern)
```typescript
// user-profile.component.ts
import { Component, Input, Output, EventEmitter, signal, computed } from '@angular/core'
import { CommonModule } from '@angular/common'
import type { User } from '@/types/user'
@Component({
selector: 'app-user-profile',
standalone: true,
imports: [CommonModule],
template: `
<div class="user-profile" *ngIf="!isLoading(); else loading">
<h2>{{ displayName() }}</h2>
<p>Age: {{ userAge() }}</p>
<button (click)="handleUpdate()">Update</button>
</div>
<ng-template #loading>
<div>Loading...</div>
</ng-template>
`,
styles: [`
.user-profile {
padding: 1rem;
}
`]
})
export class UserProfileComponent {
@Input({ required: true }) userId!: number
@Output() userUpdate = new EventEmitter<User>()
// Signals - reactive primitives
user = signal<User | null>(null)
isLoading = signal(true)
// Computed signals
displayName = computed(() => this.user()?.name ?? 'Unknown')
userAge = computed(() => {
const birthDate = this.user()?.birthDate
return birthDate ? this.calculateAge(birthDate) : null
})
async ngOnInit() {
this.user.set(await this.fetchUser(this.userId))
this.isLoading.set(false)
}
handleUpdate() {
const currentUser = this.user()
if (currentUser) this.userUpdate.emit(currentUser)
}
}
```
**Angular Signals** - New reactivity system (v16+):
- `signal()` - Writable reactive value
- `computed()` - Derived state
- `effect()` - Side effects
- `.set()`, `.update()` - Modify signal values
- `()` - Read signal value (call as function)
### State Management (Services + Signals)
```typescript
// services/user.service.ts
import { Injectable, signal, computed } from '@angular/core'
import { HttpClient } from '@angular/common/http'
@Injectable({ providedIn: 'root' })
export class UserService {
private users = signal<User[]>([])
private currentUser = signal<User | null>(null)
// Public computed signals
readonly userCount = computed(() => this.users().length)
readonly isAuthenticated = computed(() => this.currentUser() !== null)
constructor(private http: HttpClient) {}
async fetchUsers() {
const users = await this.http.get<User[]>('/api/users').toPromise()
this.users.set(users)
}
setCurrentUser(user: User) {
this.currentUser.set(user)
}
}
// Component usage
export class MyComponent {
constructor(public userService: UserService) {}
// Access in template
// {{ userService.userCount() }}
}
```
### Routing (Angular Router)
```typescript
// app.routes.ts
import { Routes } from '@angular/router'
export const routes: Routes = [
{
path: '',
loadComponent: () => import('./home/home.component').then(m => m.HomeComponent)
},
{
path: 'users/:id',
loadComponent: () => import('./users/user-detail.component').then(m => m.UserDetailComponent)
}
]
// Component with route params
import { Component } from '@angular/core'
import { ActivatedRoute, Router } from '@angular/router'
export class UserDetailComponent {
userId = signal<string>('')
constructor(
private route: ActivatedRoute,
private router: Router
) {
this.userId.set(this.route.snapshot.paramMap.get('id') ?? '')
}
goBack() {
this.router.navigate(['/'])
}
}
```
### Data Fetching (RxJS + Signals)
```typescript
import { Component, signal } from '@angular/core'
import { HttpClient } from '@angular/common/http'
import { toSignal } from '@angular/core/rxjs-interop'
export class UserListComponent {
private http = inject(HttpClient)
// Convert Observable to Signal
users = toSignal(this.http.get<User[]>('/api/users'), { initialValue: [] })
// Or manual signal management
manualUsers = signal<User[]>([])
async loadUsers() {
const users = await this.http.get<User[]>('/api/users').toPromise()
this.manualUsers.set(users)
}
}
```
### Angular Best Practices
- **Standalone components** - Default since v17 (no NgModules)
- **Signals over RxJS** - Simpler reactivity for state
- **toSignal** - Convert Observables to Signals when needed
- **inject()** - Modern dependency injection (no constructor)
- **Lazy loading** - Use `loadComponent` for routes
- **OnPush change detection** - Optimize rendering
- **Typed forms** - Use `FormGroup<T>` for type safety
---
## Framework-Agnostic Patterns
### State Management Comparison
| Pattern | React | Vue 3 | Svelte 5 | Angular |
|---------|-------|-------|----------|---------|
| **Local State** | `useState` | `ref()` | `$state()` | `signal()` |
| **Derived State** | `useMemo` | `computed()` | `$derived` | `computed()` |
| **Side Effects** | `useEffect` | `watch/watchEffect` | `$effect()` | `effect()` |
| **Global State** | Zustand/Context | Pinia | Stores | Services |
| **Async State** | TanStack Query | VueQuery/Composables | Stores | RxJS/Signals |
### Component Composition Patterns
**Props/Events Pattern** (All frameworks):
- Parent passes data down via props
- Child emits events upward
- Unidirectional data flow
**Slots/Children Pattern:**
```typescript
// React
<Layout>
<Header />
<Content />
</Layout>
// Vue
<Layout>
<template #header><Header /></template>
<template #content><Content /></template>
</Layout>
// Svelte
<Layout>
<Header slot="header" />
<Content slot="content" />
</Layout>
// Angular
<app-layout>
<app-header header></app-header>
<app-content content></app-content>
</app-layout>
```
### Routing Patterns
**File-Based Routing:**
- Next.js (React), Nuxt (Vue), SvelteKit (Svelte)
- Folder structure defines routes
- `[id]` for dynamic segments
**Programmatic Routing:**
- React Router, Vue Router, Angular Router
- Define routes in config
- More flexible but more verbose
### Performance Optimization
**Universal Techniques:**
1. **Code splitting** - Lazy load routes and heavy components
2. **Memoization** - Cache expensive computations
3. **Virtual scrolling** - Render only visible items
4. **Debouncing** - Throttle expensive operations (search, resize)
5. **Image optimization** - Lazy load, responsive images, modern formats
6. **Bundle analysis** - Identify and remove large dependencies
**Framework-Specific:**
- **React:** `React.memo`, `useMemo`, `useCallback`, Suspense
- **Vue:** `v-memo`, `shallowRef`, `markRaw`, KeepAlive
- **Svelte:** Automatic optimization, `$derived`, minimal runtime
- **Angular:** OnPush, signals, trackBy, pure pipes
---
## Related Skills
**IMPORTANT: For UI/UX design work, invoke the specialized skill:**
```
Skill("ui-ux-pro-max") → UI/UX design, visual hierarchy, color theory, spacing, typography
```
**UI/Design:**
- **ui-ux-pro-max**: UI/UX design principles, visual hierarchy, color theory, spacing systems, typography. **USE THIS** for design decisions, beautifying UIs, choosing colors/fonts, layout design.
- **ui-design-system**: Component design systems, accessibility, design tokens
- **ui-styling**: Tailwind CSS, styling patterns for all frameworks
**Backend Integration:**
- **backend-development**: API patterns that frontend consumes
- **better-auth**: Authentication implementation (works with all frameworks)
**Full-Stack Frameworks:**
- **web-frameworks**: Next.js (React), Nuxt (Vue), SvelteKit (Svelte) deep dive
**Development:**
- **debugging**: Framework-agnostic debugging strategies
- **refactoring-expert**: Code quality and refactoring patterns
- **chrome-devtools**: Browser debugging, performance profiling
## When to Invoke ui-ux-pro-max
Call `Skill("ui-ux-pro-max")` when:
- Designing new UI components or pages
- Choosing color palettes, typography, or spacing
- Improving visual hierarchy or layout
- Making interfaces look professional/modern/clean
- User mentions: ugly, inconsistent, cluttered, needs design help
- Building dashboards, admin panels, or SaaS interfaces
---
**Skill Status**: Multi-framework coverage with progressive disclosureThis skill provides practical guidance and actionable patterns for building modern frontend applications across React, Vue 3, Svelte 5, and Angular. It focuses on component and feature structure, TypeScript standards, routing, data fetching, state management, and performance optimization. Use it to create, refactor, or optimize components, pages, and full features with framework-specific best practices.
The skill inspects common frontend tasks and prescribes concrete patterns: component checklists, feature folder layouts, import aliases, and data-fetching strategies (for example useSuspenseQuery or SvelteKit load). It recommends framework idioms—hooks for React, Composition API/Pinia for Vue, runes and SvelteKit for Svelte, and signals/standalone components for Angular—and gives performance and TypeScript rules that apply across frameworks. Actionable steps include lazy loading, Suspense boundaries, API service layers, and cache invalidation patterns.
Which framework should I pick for a new project?
Choose based on team skill, project size, and performance needs: large enterprise → React or Angular, progressive/medium apps → Vue or React, small/performance-critical apps → Svelte.
How do I avoid layout shifts while loading data?
Never return early with loading spinners; use Suspense boundaries or equivalent loading wrappers to preserve layout and prevent CLS.
What is the recommended data fetching pattern for React?
Prefer useSuspenseQuery with Suspense boundaries and a cache-first approach; centralize API calls in a feature-level api service.