angular

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Modern Angular (v20+) expert with deep knowledge of Signals, Standalone Components, Zoneless applications, SSR/Hydration, and reactive patterns. Use PROACTIVELY for Angular development, component architecture, state management, performance optimization, and migration to modern patterns.

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Sourcesickn33/antigravity-awesome-skills

Added on2026-02-07

NPX Install

npx skill4agent add sickn33/antigravity-awesome-skills angular

SKILL.md Content

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Angular Expert

Master modern Angular development with Signals, Standalone Components, Zoneless applications, SSR/Hydration, and the latest reactive patterns.

When to Use This Skill

Building new Angular applications (v20+)
Implementing Signals-based reactive patterns
Creating Standalone Components and migrating from NgModules
Configuring Zoneless Angular applications
Implementing SSR, prerendering, and hydration
Optimizing Angular performance
Adopting modern Angular patterns and best practices

Do Not Use This Skill When

Migrating from AngularJS (1.x) → use
```
angular-migration
```
skill
Working with legacy Angular apps that cannot upgrade
General TypeScript issues → use
```
typescript-expert
```
skill

Instructions

Assess the Angular version and project structure
Apply modern patterns (Signals, Standalone, Zoneless)
Implement with proper typing and reactivity
Validate with build and tests

Safety

Always test changes in development before production
Gradual migration for existing apps (don't big-bang refactor)
Keep backward compatibility during transitions

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

typescript

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

typescript

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)

typescript

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

typescript

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

typescript

// 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

typescript

// 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

typescript

// 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

typescript

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

Performance: No zone.js patches on async APIs
Debugging: Clean stack traces without zone wrappers
Bundle size: Smaller without zone.js (~15KB savings)
Interoperability: Better with Web Components and micro-frontends

4. Server-Side Rendering & Hydration

SSR Setup with Angular CLI

bash

ng add @angular/ssr

Hydration Configuration

typescript

// 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+)

typescript

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

typescript

// 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

typescript

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

typescript

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

typescript

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)

typescript

@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)

typescript

// 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

typescript

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

typescript

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

typescript

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)

typescript

// 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

typescript

@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

typescript

@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

typescript

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

typescript

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

typescript

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()`

angular

NPX Install

Tags

SKILL.md Content

Angular Expert

When to Use This Skill

Do Not Use This Skill When

Instructions

Safety

Angular Version Timeline

1. Signals: The New Reactive Primitive

Core Concepts

Signal-Based Inputs and Outputs

Signal Queries (ViewChild/ContentChild)

When to Use Signals vs RxJS

2. Standalone Components

Creating Standalone Components

Bootstrapping Without NgModule

Lazy Loading Standalone Components

3. Zoneless Angular

Enabling Zoneless Mode

Zoneless Component Patterns

Key Zoneless Benefits

4. Server-Side Rendering & Hydration

SSR Setup with Angular CLI

Hydration Configuration

Incremental Hydration (v20+)

Hydration Triggers

5. Modern Routing Patterns

Functional Route Guards

Route-Level Data Resolvers

6. Dependency Injection Patterns

Modern inject() Function

Injection Tokens for Configuration

7. Component Composition & Reusability

Content Projection (Slots)

Host Directives (Composition)

8. State Management Patterns

Signal-Based State Service

Component Store Pattern with Signals

9. Forms with Signals (Coming in v22+)

Current Reactive Forms

Signal-Aware Form Patterns (Preview)

10. Performance Optimization

Change Detection Strategies

Defer Blocks for Lazy Loading

NgOptimizedImage

11. Testing Modern Angular

Testing Signal Components

Testing with Signal Inputs

Best Practices Summary

Resources

Common Troubleshooting