angular
Frontend & Expérience UX>-
Documentation
Angular Expert
Master modern Angular development with Signals, Standalone Components, Zoneless applications, SSR/Hydration, and the latest reactive patterns.
When to Use This Skill
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---
Angular Version Timeline
| Version | Release | Key Features |
| -------------- | ------- | ------------------------------------------------------ |
| Angular 20 | Q2 2025 | Signals stable, Zoneless stable, Incremental hydration |
| Angular 21 | Q4 2025 | Signals-first default, Enhanced SSR |
| Angular 22 | Q2 2026 | Signal Forms, Selectorless components |
---
1. Signals: The New Reactive Primitive
Signals are Angular's fine-grained reactivity system, replacing zone.js-based change detection.
Core Concepts
import { signal, computed, effect } from "@angular/core";
// Writable signal
const count = signal(0);
// Read value
console.log(count()); // 0
// Update value
count.set(5); // Direct set
count.update((v) => v + 1); // Functional update
// Computed (derived) signal
const doubled = computed(() => count() * 2);
// Effect (side effects)
effect(() => {
console.log(`Count changed to: ${count()}`);
});Signal-Based Inputs and Outputs
import { Component, input, output, model } from "@angular/core";
@Component({
selector: "app-user-card",
standalone: true,
template: `
<div class="card">
<h3>{{ name() }}</h3>
<span>{{ role() }}</span>
<button (click)="select.emit(id())">Select</button>
</div>
`,
})
export class UserCardComponent {
// Signal inputs (read-only)
id = input.required<string>();
name = input.required<string>();
role = input<string>("User"); // With default
// Output
select = output<string>();
// Two-way binding (model)
isSelected = model(false);
}
// Usage:
// <app-user-card [id]="'123'" [name]="'John'" [(isSelected)]="selected" />Signal Queries (ViewChild/ContentChild)
import {
Component,
viewChild,
viewChildren,
contentChild,
} from "@angular/core";
@Component({
selector: "app-container",
standalone: true,
template: `
<input #searchInput />
<app-item *ngFor="let item of items()" />
`,
})
export class ContainerComponent {
// Signal-based queries
searchInput = viewChild<ElementRef>("searchInput");
items = viewChildren(ItemComponent);
projectedContent = contentChild(HeaderDirective);
focusSearch() {
this.searchInput()?.nativeElement.focus();
}
}When to Use Signals vs RxJS
| Use Case | Signals | RxJS |
| ----------------------- | --------------- | -------------------------------- |
| Local component state | ✅ Preferred | Overkill |
| Derived/computed values | ✅ computed() | combineLatest works |
| Side effects | ✅ effect() | tap operator |
| HTTP requests | ❌ | ✅ HttpClient returns Observable |
| Event streams | ❌ | ✅ fromEvent, operators |
| Complex async flows | ❌ | ✅ switchMap, mergeMap |
---
2. Standalone Components
Standalone components are self-contained and don't require NgModule declarations.
Creating Standalone Components
import { Component } from "@angular/core";
import { CommonModule } from "@angular/common";
import { RouterLink } from "@angular/router";
@Component({
selector: "app-header",
standalone: true,
imports: [CommonModule, RouterLink], // Direct imports
template: `
<header>
<a routerLink="/">Home</a>
<a routerLink="/about">About</a>
</header>
`,
})
export class HeaderComponent {}Bootstrapping Without NgModule
// main.ts
import { bootstrapApplication } from "@angular/platform-browser";
import { provideRouter } from "@angular/router";
import { provideHttpClient } from "@angular/common/http";
import { AppComponent } from "./app/app.component";
import { routes } from "./app/app.routes";
bootstrapApplication(AppComponent, {
providers: [provideRouter(routes), provideHttpClient()],
});Lazy Loading Standalone Components
// app.routes.ts
import { Routes } from "@angular/router";
export const routes: Routes = [
{
path: "dashboard",
loadComponent: () =>
import("./dashboard/dashboard.component").then(
(m) => m.DashboardComponent,
),
},
{
path: "admin",
loadChildren: () =>
import("./admin/admin.routes").then((m) => m.ADMIN_ROUTES),
},
];---
3. Zoneless Angular
Zoneless applications don't use zone.js, improving performance and debugging.
Enabling Zoneless Mode
// main.ts
import { bootstrapApplication } from "@angular/platform-browser";
import { provideZonelessChangeDetection } from "@angular/core";
import { AppComponent } from "./app/app.component";
bootstrapApplication(AppComponent, {
providers: [provideZonelessChangeDetection()],
});Zoneless Component Patterns
import { Component, signal, ChangeDetectionStrategy } from "@angular/core";
@Component({
selector: "app-counter",
standalone: true,
changeDetection: ChangeDetectionStrategy.OnPush,
template: `
<div>Count: {{ count() }}</div>
<button (click)="increment()">+</button>
`,
})
export class CounterComponent {
count = signal(0);
increment() {
this.count.update((v) => v + 1);
// No zone.js needed - Signal triggers change detection
}
}Key Zoneless Benefits
---
4. Server-Side Rendering & Hydration
SSR Setup with Angular CLI
ng add @angular/ssrHydration Configuration
// app.config.ts
import { ApplicationConfig } from "@angular/core";
import {
provideClientHydration,
withEventReplay,
} from "@angular/platform-browser";
export const appConfig: ApplicationConfig = {
providers: [provideClientHydration(withEventReplay())],
};Incremental Hydration (v20+)
import { Component } from "@angular/core";
@Component({
selector: "app-page",
standalone: true,
template: `
<app-hero />
@defer (hydrate on viewport) {
<app-comments />
}
@defer (hydrate on interaction) {
<app-chat-widget />
}
`,
})
export class PageComponent {}Hydration Triggers
| Trigger | When to Use |
| ---------------- | --------------------------------------- |
| on idle | Low-priority, hydrate when browser idle |
| on viewport | Hydrate when element enters viewport |
| on interaction | Hydrate on first user interaction |
| on hover | Hydrate when user hovers |
| on timer(ms) | Hydrate after specified delay |
---
5. Modern Routing Patterns
Functional Route Guards
// auth.guard.ts
import { inject } from "@angular/core";
import { Router, CanActivateFn } from "@angular/router";
import { AuthService } from "./auth.service";
export const authGuard: CanActivateFn = (route, state) => {
const auth = inject(AuthService);
const router = inject(Router);
if (auth.isAuthenticated()) {
return true;
}
return router.createUrlTree(["/login"], {
queryParams: { returnUrl: state.url },
});
};
// Usage in routes
export const routes: Routes = [
{
path: "dashboard",
loadComponent: () => import("./dashboard.component"),
canActivate: [authGuard],
},
];Route-Level Data Resolvers
import { inject } from '@angular/core';
import { ResolveFn } from '@angular/router';
import { UserService } from './user.service';
import { User } from './user.model';
export const userResolver: ResolveFn<User> = (route) => {
const userService = inject(UserService);
return userService.getUser(route.paramMap.get('id')!);
};
// In routes
{
path: 'user/:id',
loadComponent: () => import('./user.component'),
resolve: { user: userResolver }
}
// In component
export class UserComponent {
private route = inject(ActivatedRoute);
user = toSignal(this.route.data.pipe(map(d => d['user'])));
}---
6. Dependency Injection Patterns
Modern inject() Function
import { Component, inject } from '@angular/core';
import { HttpClient } from '@angular/common/http';
import { UserService } from './user.service';
@Component({...})
export class UserComponent {
// Modern inject() - no constructor needed
private http = inject(HttpClient);
private userService = inject(UserService);
// Works in any injection context
users = toSignal(this.userService.getUsers());
}Injection Tokens for Configuration
import { InjectionToken, inject } from "@angular/core";
// Define token
export const API_BASE_URL = new InjectionToken<string>("API_BASE_URL");
// Provide in config
bootstrapApplication(AppComponent, {
providers: [{ provide: API_BASE_URL, useValue: "https://api.example.com" }],
});
// Inject in service
@Injectable({ providedIn: "root" })
export class ApiService {
private baseUrl = inject(API_BASE_URL);
get(endpoint: string) {
return this.http.get(`${this.baseUrl}/${endpoint}`);
}
}---
7. Component Composition & Reusability
Content Projection (Slots)
@Component({
selector: 'app-card',
template: `
<div class="card">
<div class="header">
<!-- Select by attribute -->
<ng-content select="[card-header]"></ng-content>
</div>
<div class="body">
<!-- Default slot -->
<ng-content></ng-content>
</div>
</div>
`
})
export class CardComponent {}
// Usage
<app-card>
<h3 card-header>Title</h3>
<p>Body content</p>
</app-card>Host Directives (Composition)
// Reusable behaviors without inheritance
@Directive({
standalone: true,
selector: '[appTooltip]',
inputs: ['tooltip'] // Signal input alias
})
export class TooltipDirective { ... }
@Component({
selector: 'app-button',
standalone: true,
hostDirectives: [
{
directive: TooltipDirective,
inputs: ['tooltip: title'] // Map input
}
],
template: `<ng-content />`
})
export class ButtonComponent {}---
8. State Management Patterns
Signal-Based State Service
import { Injectable, signal, computed } from "@angular/core";
interface AppState {
user: User | null;
theme: "light" | "dark";
notifications: Notification[];
}
@Injectable({ providedIn: "root" })
export class StateService {
// Private writable signals
private _user = signal<User | null>(null);
private _theme = signal<"light" | "dark">("light");
private _notifications = signal<Notification[]>([]);
// Public read-only computed
readonly user = computed(() => this._user());
readonly theme = computed(() => this._theme());
readonly notifications = computed(() => this._notifications());
readonly unreadCount = computed(
() => this._notifications().filter((n) => !n.read).length,
);
// Actions
setUser(user: User | null) {
this._user.set(user);
}
toggleTheme() {
this._theme.update((t) => (t === "light" ? "dark" : "light"));
}
addNotification(notification: Notification) {
this._notifications.update((n) => [...n, notification]);
}
}Component Store Pattern with Signals
import { Injectable, signal, computed, inject } from "@angular/core";
import { HttpClient } from "@angular/common/http";
import { toSignal } from "@angular/core/rxjs-interop";
@Injectable()
export class ProductStore {
private http = inject(HttpClient);
// State
private _products = signal<Product[]>([]);
private _loading = signal(false);
private _filter = signal("");
// Selectors
readonly products = computed(() => this._products());
readonly loading = computed(() => this._loading());
readonly filteredProducts = computed(() => {
const filter = this._filter().toLowerCase();
return this._products().filter((p) =>
p.name.toLowerCase().includes(filter),
);
});
// Actions
loadProducts() {
this._loading.set(true);
this.http.get<Product[]>("/api/products").subscribe({
next: (products) => {
this._products.set(products);
this._loading.set(false);
},
error: () => this._loading.set(false),
});
}
setFilter(filter: string) {
this._filter.set(filter);
}
}---
9. Forms with Signals (Coming in v22+)
Current Reactive Forms
import { Component, inject } from "@angular/core";
import { FormBuilder, Validators, ReactiveFormsModule } from "@angular/forms";
@Component({
selector: "app-user-form",
standalone: true,
imports: [ReactiveFormsModule],
template: `
<form [formGroup]="form" (ngSubmit)="onSubmit()">
<input formControlName="name" placeholder="Name" />
<input formControlName="email" type="email" placeholder="Email" />
<button [disabled]="form.invalid">Submit</button>
</form>
`,
})
export class UserFormComponent {
private fb = inject(FormBuilder);
form = this.fb.group({
name: ["", Validators.required],
email: ["", [Validators.required, Validators.email]],
});
onSubmit() {
if (this.form.valid) {
console.log(this.form.value);
}
}
}Signal-Aware Form Patterns (Preview)
// Future Signal Forms API (experimental)
import { Component, signal } from '@angular/core';
@Component({...})
export class SignalFormComponent {
name = signal('');
email = signal('');
// Computed validation
isValid = computed(() =>
this.name().length > 0 &&
this.email().includes('@')
);
submit() {
if (this.isValid()) {
console.log({ name: this.name(), email: this.email() });
}
}
}---
10. Performance Optimization
Change Detection Strategies
@Component({
changeDetection: ChangeDetectionStrategy.OnPush,
// Only checks when:
// 1. Input signal/reference changes
// 2. Event handler runs
// 3. Async pipe emits
// 4. Signal value changes
})Defer Blocks for Lazy Loading
@Component({
template: `
<!-- Immediate loading -->
<app-header />
<!-- Lazy load when visible -->
@defer (on viewport) {
<app-heavy-chart />
} @placeholder {
<div class="skeleton" />
} @loading (minimum 200ms) {
<app-spinner />
} @error {
<p>Failed to load chart</p>
}
`
})NgOptimizedImage
import { NgOptimizedImage } from '@angular/common';
@Component({
imports: [NgOptimizedImage],
template: `
<img
ngSrc="hero.jpg"
width="800"
height="600"
priority
/>
<img
ngSrc="thumbnail.jpg"
width="200"
height="150"
loading="lazy"
placeholder="blur"
/>
`
})---
11. Testing Modern Angular
Testing Signal Components
import { ComponentFixture, TestBed } from "@angular/core/testing";
import { CounterComponent } from "./counter.component";
describe("CounterComponent", () => {
let component: CounterComponent;
let fixture: ComponentFixture<CounterComponent>;
beforeEach(async () => {
await TestBed.configureTestingModule({
imports: [CounterComponent], // Standalone import
}).compileComponents();
fixture = TestBed.createComponent(CounterComponent);
component = fixture.componentInstance;
fixture.detectChanges();
});
it("should increment count", () => {
expect(component.count()).toBe(0);
component.increment();
expect(component.count()).toBe(1);
});
it("should update DOM on signal change", () => {
component.count.set(5);
fixture.detectChanges();
const el = fixture.nativeElement.querySelector(".count");
expect(el.textContent).toContain("5");
});
});Testing with Signal Inputs
import { ComponentFixture, TestBed } from "@angular/core/testing";
import { ComponentRef } from "@angular/core";
import { UserCardComponent } from "./user-card.component";
describe("UserCardComponent", () => {
let fixture: ComponentFixture<UserCardComponent>;
let componentRef: ComponentRef<UserCardComponent>;
beforeEach(async () => {
await TestBed.configureTestingModule({
imports: [UserCardComponent],
}).compileComponents();
fixture = TestBed.createComponent(UserCardComponent);
componentRef = fixture.componentRef;
// Set signal inputs via setInput
componentRef.setInput("id", "123");
componentRef.setInput("name", "John Doe");
fixture.detectChanges();
});
it("should display user name", () => {
const el = fixture.nativeElement.querySelector("h3");
expect(el.textContent).toContain("John Doe");
});
});---
Best Practices Summary
| Pattern | ✅ Do | ❌ Don't |
| -------------------- | ------------------------------ | ------------------------------- |
| State | Use Signals for local state | Overuse RxJS for simple state |
| Components | Standalone with direct imports | Bloated SharedModules |
| Change Detection | OnPush + Signals | Default CD everywhere |
| Lazy Loading | @defer and loadComponent | Eager load everything |
| DI | inject() function | Constructor injection (verbose) |
| Inputs | input() signal function | @Input() decorator (legacy) |
| Zoneless | Enable for new projects | Force on legacy without testing |
---
Resources
---
Common Troubleshooting
| Issue | Solution |
| ------------------------------ | --------------------------------------------------- |
| Signal not updating UI | Ensure OnPush + call signal as function count() |
| Hydration mismatch | Check server/client content consistency |
| Circular dependency | Use inject() with forwardRef |
| Zoneless not detecting changes | Trigger via signal updates, not mutations |
| SSR fetch fails | Use TransferState or withFetch() |
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