# Tooling and Ecosystem Standards for Angular

This document outlines the recommended tooling and ecosystem practices for Angular projects, designed to promote consistency, maintainability, and performance. It provides specific guidelines, examples, and explanations to help developers leverage the Angular ecosystem effectively.

## 1. Integrated Development Environment (IDE) and Extensions

### Standard: Use a Recommended IDE with Angular-Specific Extensions

**Do This:** Use VS Code.

**Don't Do This:** Rely on basic text editors without Angular support.

**Why:** Using a suitable IDE and extensions enhances developer productivity through features like autocompletion, linting, debugging, and more.

#### Standards:

* **IDE Choice:** Use VS Code as the primary IDE due to its extensive ecosystem of extensions and strong support for Angular development.

* **Essential Extensions:**

* **Angular Language Service:** Provides autocompletion, error checking, and quick fixes for Angular templates and TypeScript code.

* **TSLint/ESLint:** Enforces coding standards and best practices. ESLint with the "@angular-eslint/schematics" for Angular projects is recommended.

* **Prettier:** Automatically formats code for consistency.

* **EditorConfig for VS Code:** Maintains consistent coding styles across different editors and IDEs.

* **Debugger for Chrome/Edge:** Enables debugging Angular applications directly from VS Code.

**Example:**

"""json

// .vscode/extensions.json

{

"recommendations": [

"angular.ng-template",

"dbaeumer.vscode-eslint",

"esbenp.prettier-vscode",

"EditorConfig.EditorConfig",

"msjsdiag.debugger-for-chrome"

]

}

"""

**Anti-Pattern:** Ignoring recommended IDE extensions will lead to inconsistencies and reduce development efficiency from lack of proper tooling.

### Angular CLI Extensions

#### Standard: Use the Angular CLI and its Extension Ecosystem

**Do This:** Leverage Angular CLI's ability to add functionalities using Extensions.

**Don't Do This:** Manually adding dependencies and configuration logic that extensions can automate.

**Why:** Extensions provide automated setup and configuration, following best practices, thus reducing manual setup overhead.

#### Standards:

* **Angular CLI Extensions Discovery:** Explore the Angular Console or the npm registry to identify extensions suiting the needs of the project.

* **Use extensions for common requirements:** Extensions greatly simplify adding support for State Management, UI component libraries, and complex build workflows.

**Example:**

"""bash

ng add @ngrx/store

ng add @angular/material

"""

**Anti-Pattern:** Reinventing the wheel for common setup tasks that extensions can automate.

## 2. Package Management

### Standard: Use npm or yarn for Dependency Management

**Do This:** Choose either npm or yarn and stick to it consistently across the project.

**Don't Do This:** Mix npm and yarn within the same project.

**Why:** Consistent dependency management ensures reproducible builds and reduces the risk of dependency conflicts.

**Example:**

"""bash

npm install @angular/core // Using npm

yarn add @angular/core // Using yarn

"""

### Standard: Use Semantic Versioning (SemVer)

**Do This:** Use Semantic Versioning for all dependencies with specific versions and version ranges.

**Don't Do This:** Use "*" or "latest" for critical dependencies.

**Why:** Semantic Versioning helps manage updates and avoid breaking changes.

#### Standards:

* **Pin versions in production:** Use specific version numbers to ensure consistent builds across environments.

* **Use version ranges in development:** Employ "^" or "~" to allow minor or patch updates while maintaining compatibility.

**Example:**

"""json

// package.json

{

"dependencies": {

"@angular/core": "^17.0.0",

"rxjs": "~7.8.0"

"devDependencies": {

"@angular/cli": "17.0.0"

}

"""

**Anti-Pattern:** Using "*" or "latest" for critical dependencies can lead to unexpected breaking changes during updates. Always define clear version ranges or specific versions.

### Standard: Keep Dependencies Up-to-Date

**Do This:** Regularly update dependencies to benefit from bug fixes, performance improvements, and new features.

**Don't Do This:** Ignore dependency updates for extended periods.

**Why:** Keeping dependencies up-to-date is crucial for security and performance.

#### Standards:

* **Use "npm update" or "yarn upgrade":** Regularly run these commands to update dependencies to their latest versions within the specified ranges.

* **Monitor security vulnerabilities:** Use tools like "npm audit" or "yarn audit" to identify and address known security vulnerabilities in dependencies.

* **Review changelogs:** Before updating major versions, carefully review the changelogs of the updated packages to understand any breaking changes and plan accordingly.

**Example:**

"""bash

npm update // Using npm

yarn upgrade // Using yarn

npm audit fix // fix vulnerabilities

"""

## 3. Linting and Formatting

### Standard: Implement ESLint with Angular-Specific Rules

**Do This:** Integrate ESLint with "@angular-eslint/schematics" into your Angular project.

**Don't Do This:** Rely solely on manual code reviews to enforce coding standards.

**Why:** Automated linting ensures code quality, consistency, and adherence to best practices.

#### Standards:

* **Configuration:** Use a base configuration like the recommended ruleset and customize it to fit your project's specific needs.

* **Integration:** Integrate ESLint into your IDE and CI/CD pipeline for continuous code quality enforcement.

**Example:**

1. **Install ESLint and Angular ESLint Schematics:**

"""bash

ng add @angular-eslint/schematics

"""

2. **Example ".eslintrc.json":**

"""json

{

"root": true,

"ignorePatterns": [

"projects/**/*"

"overrides": [

{

"files": [

"*.ts"

"extends": [

"eslint:recommended",

"plugin:@typescript-eslint/recommended",

"plugin:@typescript-eslint/recommended-requiring-type-checking",

"prettier" // Make sure "prettier" is the last element in this array.

"parserOptions": {

"project": [

"tsconfig.json",

"tsconfig.app.json",

"tsconfig.spec.json"

"createDefaultProgram": true

"rules": {

"@typescript-eslint/explicit-function-return-type": "error",

"@typescript-eslint/explicit-member-accessibility": [

"error",

{

"accessibility": "explicit",

"overrides": {

"constructors": "no-public"

}

"@typescript-eslint/no-explicit-any": "warn",

"@typescript-eslint/no-unused-vars": "warn",

"@typescript-eslint/no-floating-promises": "warn"

}

{

"files": [

"*.html"

"extends": [

"plugin:@angular-eslint/template/recommended"

"rules": {

"@angular-eslint/template/eqeqeq": "error"

}

{

"files": [

"*.component.ts"

"extends": [

"plugin:@angular-eslint/template/process-inline-templates"

]

}

]

}

"""

**Anti-Pattern:** Disabling too many ESLint rules can undermine the value of linting. Try to resolve the underlying issues instead of suppressing the warnings.

### Standard: Use Prettier for Code Formatting

**Do This:** Integrate Prettier to automate code formatting and enforce consistent styles.

**Don't Do This:** Rely on developers to manually format code according to style guidelines.

**Why:** Consistent formatting ensures readability and reduces noise in code reviews.

#### Standards:

* **Configuration:** Create a ".prettierrc.js" file to define formatting rules (e.g., tab width, single quotes, trailing commas).

* **Integration:** Integrate Prettier into IDE and CI/CD pipeline using tools like Husky and lint-staged to automatically format code on commit.

**Example:**

1. Install necessary packages

"""bash

npm install --save-dev prettier husky lint-staged

"""

2. Add configurations in "package.json"

"""json

{

"scripts": {

"format": "prettier --write \"src/**/*.ts\" \"src/**/*.html\"",

"lint": "eslint \"src/**/*.ts\"",

"prepare": "husky install"

"lint-staged": {

"*.{js,ts,json,html,css}": "prettier --write"

"husky": {

"hooks": {

"pre-commit": "lint-staged"

}

"devDependencies": {

"eslint": "^8.0.0",

"husky": "^7.0.0",

"lint-staged": "^12.0.0",

"prettier": "^2.0.0"

}

"""

**Anti-Pattern:** Ignoring code formatting guidelines or relying on manual formatting efforts will lead to inconsistencies.

## 4. Testing Frameworks and Tools

### Standard: Use a Comprehensive Testing Strategy

**Do This:** Implement a comprehensive testing strategy including unit tests, integration tests, and end-to-end (E2E) tests.

**Don't Do This:** Rely solely on manual testing or only implement one type of automated testing.

**Why:** A comprehensive testing strategy ensures code quality, identifies bugs early, and reduces the risk of regressions.

#### Standards:

* **Unit Tests:** Use Jasmine and Karma for unit testing components, services, and pipes.

* **Integration Tests:** Use the Angular testing utilities to test the integration between different parts of the application.

* **E2E Tests:** Use Cypress or Playwright for E2E testing to simulate user interactions and verify the application's functionality as a whole.

* **Test Coverage:** Aim for high test coverage (e.g., 80% or higher) to ensure thorough testing of the codebase.

**Example:**

"""typescript

// src/app/components/my-component/my-component.component.spec.ts

import { ComponentFixture, TestBed } from '@angular/core/testing';

import { MyComponentComponent } from './my-component.component';

describe('MyComponentComponent', () => {

let component: MyComponentComponent;

let fixture: ComponentFixture;

beforeEach(async () => {

await TestBed.configureTestingModule({

declarations: [ MyComponentComponent ]

})

.compileComponents();

});

beforeEach(() => {

fixture = TestBed.createComponent(MyComponentComponent);

component = fixture.componentInstance;

fixture.detectChanges();

});

it('should create', () => {

expect(component).toBeTruthy();

});

it('should render title', () => {

const compiled = fixture.nativeElement as HTMLElement;

expect(compiled.querySelector('h1')?.textContent).toContain('My Component');

});

"""

"""typescript

// cypress/e2e/spec.cy.ts

describe('My First Test', () => {

it('Visits the app root url', () => {

cy.visit('/');

cy.contains('h1', 'My Component');

})

"""

**Anti-Pattern:** Neglecting E2E tests, especially for critical user flows, can result in undetected issues in production.

### Standard: Use Mocking Libraries

**Do This:** Use mocking libraries (e.g., "ng-mocks", "Mockito") to isolate unit tests and avoid dependencies on external resources.

**Don't Do This:** Use real dependencies in unit tests, leading to brittle and unreliable tests.

**Why:** Mocking ensures that unit tests focus on the logic of the component or service being tested and are not affected by external factors.

**Example:**

"""typescript

// Example using ng-mocks

import { MockInstance, MockProvider, MockedComponent } from 'ng-mocks';

import { MyService } from './my.service';

import { MyComponent } from './my.component';

describe('MyComponent', () => {

MockInstance(MyService, 'getValue', jest.fn().mockReturnValue('mocked value'));

it('should call the service', () => {

const service: MyService = TestBed.inject(MyService);

component.ngOnInit();

expect(service.getValue).toHaveBeenCalled();

});

"""

### Standard: Write Testable Code

**Do This:** Design components and services to be testable, following principles like dependency injection and separation of concerns.

**Don't Do This:** Create tightly coupled code that is difficult to test in isolation

**Why:** Testable code enables easier and more effective unit testing.

**Example:**

"""typescript

// my.component.ts

import { Component, OnInit } from '@angular/core';

import { MyService } from './my.service';

@Component({

selector: 'app-my-component',

templateUrl: './my-component.component.html',

styleUrls: ['./my-component.component.css']

})

export class MyComponentComponent implements OnInit {

value: string;

constructor(private myService: MyService) {}

ngOnInit(): void {

this.value = this.myService.getValue();

}

"""

**Anti-Pattern:** Overly complex components with significant logic in the template can be difficult to unit test effectively.

## 5. State Management Libraries

### Standard: Choose the Right State Management Solution

**Do This:** Carefully evaluate available state management solutions (e.g., NgRx, Akita, RxJS-based services) and choose the one that best fits the project's complexity.

**Don't Do This:** Use a complex state management solution for simple applications or neglect state management altogether for complex applications.

**Why:** Appropriate state management simplifies data flow, improves performance, and enhances maintainability.

#### Standards:

* **NgRx:** Use NgRx for complex applications with a lot of shared state and complex interactions. Consider NgRx for larger applications or those requiring strict state management patterns (Redux-like).

* **Akita:** A simpler state management pattern with less boilerplate than NgRx

* **RxJS services:** For basic applications that require centralized data sharing, RxJS services with "BehaviorSubject" or "ReplaySubject" can be a light-weight alternative.

* **Component Input/Output:** For simple parent-child communication, rely on "@Input" and "@Output" decorators.

**Example (NgRx):**

1. **Install NgRx:**

"""bash

ng add @ngrx/store

ng add @ngrx/effects

ng add @ngrx/store-devtools

"""

2. **Create Actions, Reducers, and Selectors:**

"""typescript

// src/app/store/counter.actions.ts

import { createAction, props } from '@ngrx/store';

export const increment = createAction('[Counter Component] Increment');

export const decrement = createAction('[Counter Component] Decrement');

export const reset = createAction('[Counter Component] Reset');

export const setValue = createAction('[Counter Component] Set Value', props<{value: number}>());

"""

"""typescript

// src/app/store/counter.reducer.ts

import { createReducer, on } from '@ngrx/store';

import { increment, decrement, reset, setValue } from './counter.actions';

export const initialState = 0;

export const counterReducer = createReducer(

initialState,

on(increment, (state) => state + 1),

on(decrement, (state) => state - 1),

on(reset, (state) => 0),

on(setValue, (state, {value}) => value)

);

"""

"""typescript

// src/app/store/counter.selectors.ts

import { createFeatureSelector, createSelector } from '@ngrx/store';

export const selectCounter = createFeatureSelector('counter');

export const selectCurrentCount = createSelector(

selectCounter,

(state: number) => state

);

"""

3. **Dispatch Actions and Select State in Component:**

"""typescript

// src/app/components/counter/counter.component.ts

import { Component, OnInit } from '@angular/core';

import { Store } from '@ngrx/store';

import { increment, decrement, reset, setValue } from '../../store/counter.actions';

import { Observable } from 'rxjs';

import { selectCurrentCount } from '../../store/counter.selectors';

@Component({

selector: 'app-counter',

templateUrl: './counter.component.html',

styleUrls: ['./counter.component.css']

})

export class CounterComponent implements OnInit {

count$: Observable;

constructor(private store: Store<{ counter: number }>) {

this.count$ = store.select(selectCurrentCount);

}

ngOnInit(): void {

}

increment(): void {

this.store.dispatch(increment());

}

decrement(): void {

this.store.dispatch(decrement());

}

reset(): void {

this.store.dispatch(reset());

}

setValue(newValue: number): void {

this.store.dispatch(setValue({value: newValue}))

}

"""

**Anti-Pattern:** Using NgRx for a small application can introduce unnecessary complexity and boilerplate. Over-reliance on "@Input" and "@Output" for complex communication scenarios can make refactoring and scaling difficult. RxJS based services also often become hard to maintain and test as complexity increase.

### Standard: Follow Best Practices for State Management

**Do This:** Adhere to established best practices for the chosen state management solution (e.g., using immutable data structures, following the unidirectional data flow pattern). Write Pure Reducers.

**Don't Do This:** Mutate state directly or introduce side effects in reducers.

**Why:** Following best practices helps maintain predictable state, avoid bugs, and improve performance. Correct usage, consistent naming and structure, and smart selection of state management libraries improves code quality, maintainability, and performance.

## 6. Build and Deployment Tools

### Standard: Use the Angular CLI for Building and Serving Applications

**Do This:** Use the Angular CLI commands ("ng build", "ng serve") for building and serving applications during development and production.

**Don't Do This:** Manually configure build processes without leveraging the Angular CLI.

**Why:** The Angular CLI provides a standardized and optimized build process that is easy to configure and maintain.

#### Standards:

* **Build Configuration:** Use different build configurations for development, staging, and production environments (e.g., using the "--configuration" flag).

* **Optimization:** Enable production optimizations (e.g., minification, tree shaking, ahead-of-time compilation) for production builds.

**Example:**

"""bash

ng build --configuration=production

ng serve --configuration=development

"""

### Standard: Automate Deployment with CI/CD Pipelines

**Do This:** Use CI/CD pipelines (e.g., Jenkins, GitLab CI, GitHub Actions) to automate the build, testing, and deployment process.

**Don't Do This:** Rely on manual deployment processes, which are error-prone and time-consuming.

**Why:** Automated deployment ensures consistent and reliable deployments with minimal human intervention.

**Example (GitHub Actions):**

"""yaml

# .github/workflows/deploy.yml

name: Deploy to Firebase Hosting

on:

push:

branches:

- main

jobs:

build_and_deploy:

runs-on: ubuntu-latest

steps:

- uses: actions/checkout@v3

- uses: actions/setup-node@v3

with:

node-version: 16

- run: npm install

- run: npm run build -- --configuration production

- uses: FirebaseExtended/action-hosting-deploy@v0

with:

repoToken: '${{ secrets.GITHUB_TOKEN }}'

firebaseServiceAccount: '${{ secrets.FIREBASE_SERVICE_ACCOUNT }}'

channelId: live

projectId: your-firebase-project-id

"""

## 7. Documentation Tools

### Standard: Generate Documentation With Compodoc or Storybook

**Do This:** Automate documentation generation of Angular projects with tools such as Compodoc, Storybook, or similar.

**Don't Do This:** Skip documenting components, services, and modules to save time.

**Why:** Auto-generated documentation ensures consistency and maintainability when project size and complexity increases.

#### Standards:

* **Compodoc:** For API documentation of components, services, and modules.

* **Storybook:** For a component-driven development and documentation environment.

* **Continuous Integration:** Generate documentation automatically as part of the CI/CD pipeline.

**Example (Compodoc):**

1. **Install Compodoc:**

"""bash

npm install -g @compodoc/compodoc

"""

2. **Generate documentation:**

"""bash

compodoc -p tsconfig.json

"""

3. **Serve the documentation:**

"""bash

compodoc -s

"""

**Anti-Pattern:** Manually maintaining documentation leads to discrepancies that can be avoided with automated tooling.

Following these tooling and ecosystem standards will lead to more maintainable, performant, and secure Angular applications. Embrace these guidelines to improve team productivity and deliver high-quality software.

Cline

This guide explains how to effectively use .clinerules with Cline, the AI-powered coding assistant.

Overview

The .clinerules file is a powerful configuration file that helps Cline understand your project's requirements, coding standards, and constraints. When placed in your project's root directory, it automatically guides Cline's behavior and ensures consistency across your codebase.

Key Concepts

Purpose of .clinerules

Defines project-specific guidelines and requirements
Enforces consistent coding standards
Establishes documentation practices
Sets testing and quality requirements
Configures error handling preferences

File Location

Place the .clinerules file in your project's root directory. Cline automatically detects and follows these rules for all files within the project.

Rule Structure

1. Project Overview

# Project Overview
project:
  name: 'Your Project Name'
  description: 'Brief project description'
  stack:
    - technology: 'Framework/Language'
      version: 'X.Y.Z'
    - technology: 'Database'
      version: 'X.Y.Z'

2. Code Standards

# Code Standards
standards:
  style:
    - 'Use consistent indentation (2 spaces)'
    - 'Follow language-specific naming conventions'
  documentation:
    - 'Include JSDoc comments for all functions'
    - 'Maintain up-to-date README files'
  testing:
    - 'Write unit tests for all new features'
    - 'Maintain minimum 80% code coverage'

3. Security Rules

# Security Guidelines
security:
  authentication:
    - 'Implement proper token validation'
    - 'Use environment variables for secrets'
  dataProtection:
    - 'Sanitize all user inputs'
    - 'Implement proper error handling'

Best Practices

Writing Effective Rules

Be Specific
- Use clear, actionable language
- Provide examples where helpful
- Define measurable criteria
Maintain Organization
- Group related rules together
- Use consistent formatting
- Keep critical rules at the top
Regular Updates
- Review rules periodically
- Update based on team feedback
- Document changes in version control

Common Patterns

# Common Patterns Example
patterns:
  components:
    - pattern: 'Use functional components by default'
    - pattern: 'Implement error boundaries for component trees'
  stateManagement:
    - pattern: 'Use React Query for server state'
    - pattern: 'Implement proper loading states'

Integration with Development Workflow

Using with Version Control

Commit the Rules
- Include .clinerules in version control
- Document rule changes in commit messages
- Review rule changes as part of PR process
Team Collaboration
- Discuss rule changes with team
- Maintain changelog for rule updates
- Ensure all team members understand rules

Troubleshooting

Common Issues

Rules Not Being Applied
- Verify file location (must be in root directory)
- Check file formatting
- Ensure Cline has access to the file
Conflicting Rules
- Review rule hierarchy
- Resolve conflicts explicitly
- Document rule precedence
Performance Considerations
- Keep rules concise and focused
- Avoid overly complex rule structures
- Regular cleanup of obsolete rules

Examples

Basic Project Setup

# Basic .clinerules Example
project:
  name: 'Web Application'
  type: 'Next.js Frontend'
  standards:
    - 'Use TypeScript for all new code'
    - 'Follow React best practices'
    - 'Implement proper error handling'

testing:
  unit:
    - 'Jest for unit tests'
    - 'React Testing Library for components'
  e2e:
    - 'Cypress for end-to-end testing'

documentation:
  required:
    - 'README.md in each major directory'
    - 'JSDoc comments for public APIs'
    - 'Changelog updates for all changes'

Advanced Configuration

# Advanced .clinerules Example
project:
  name: 'Enterprise Application'
  compliance:
    - 'GDPR requirements'
    - 'WCAG 2.1 AA accessibility'

architecture:
  patterns:
    - 'Clean Architecture principles'
    - 'Domain-Driven Design concepts'

security:
  requirements:
    - 'OAuth 2.0 authentication'
    - 'Rate limiting on all APIs'
    - 'Input validation with Zod'

Tooling and Ecosystem Standards for Angular

Cline

Overview

Key Concepts

Purpose of .clinerules

File Location

Rule Structure

1. Project Overview

2. Code Standards

3. Security Rules

Best Practices

Writing Effective Rules

Common Patterns

Integration with Development Workflow

Using with Version Control

Troubleshooting

Common Issues

Examples

Basic Project Setup

Advanced Configuration

Related Rules

Angular v19+ Development Standards and Best Practices: A Comprehensive Guide

NgRx Signal Store Best Practices

NgRx Signals Testing Guidelines

Angular Material Theming Guidelines (v3)

Angular Testing Guidelines (Jasmine + ng-mocks)