- New Control Flow
- Deferred Loading
- Zoneless
- Signal inputs and outputs
- State management using NgRx Signals Store
- DI using the inject function
- Functional resolvers and guards
Angular, ngrx/platform, nrwl/nx codebase containing real world examples (CRUD, auth, advanced patterns, etc) that adheres to the RealWorld spec and API.
This codebase was created to demonstrate a fully fledged fullstack application built with Angular, ngrx/platform, nrwl/nx including CRUD operations, authentication, routing, pagination, and more.
We've gone to great lengths to adhere to the Angular community styleguides & best practices.
For more information on how to this works with other frontends/backends, head over to the RealWorld repo.
The example application is a social blogging site (i.e. a Medium.com clone) called "Conduit". It uses a custom API for all requests, including authentication.
General functionality:
- Authenticate users via JWT (login/signup pages + logout button on settings page)
- CRU* users (sign up & settings page - no deleting required)
- CRUD Articles
- CR*D Comments on articles (no updating required)
- GET and display paginated lists of articles
- Favorite articles
- Follow other users
The general page breakdown looks like this:
- Home page (URL: /#/ )
- List of tags
- List of articles pulled from either Feed, Global, or by Tag
- Pagination for list of articles
- Sign in/Sign up pages (URL: /#/login, /#/register )
- Uses JWT (store the token in localStorage)
- Authentication can be easily switched to session/cookie based
- Settings page (URL: /#/settings )
- Editor page to create/edit articles (URL: /#/editor, /#/editor/article-slug-here )
- Article page (URL: /#/article/article-slug-here )
- Delete article button (only shown to article's author)
- Render markdown from server client side
- Comments section at bottom of page
- Delete comment button (only shown to comment's author)
- Profile page (URL: /#/profile/:username, /#/profile/:username/favorites )
- Show basic user info
- List of articles populated from author's created articles or author's favorited articles
npm run start
Run all the tests: nx run-many -t test
nx run-many -t lint
For this project I created a monorepo. There is one app for the moment (conduit) which consumes the libraries under the libs folder.
The folder structure is:
├── libs
│ ├── articles
│ │ ├── data-access
│ │ ├── feature-article-edit
│ │ ├── feature-article
│ │ ├── feature-articles-list
│ ├── auth
│ │ ├── data-access
│ │ ├── feature-auth
│ ├── core
│ │ ├── api-types
│ │ ├── error-handler
│ │ ├── http-client
│ │ ├── forms
│ ├── profile
│ │ ├── data-access
│ │ ├── feature-profile
│ ├── ui
│ │ ├── components
I used two classifiers to name my libraries. The first classifier is the scope
and the second the type
. The main reason is that I want every developer when he looks a library to understand where this library can be used and which kind of services/components/etc contains.
The scope
is the section (domain) of the app the library can be used. It gives a clear indication that a feature belongs to a specific domain. For example the libraries under users
scope, are used in the users and favourite users pages. The ibraries under the core
scope can be reused between all the sections of the app. The core
scope will be rename soon to shared
.
The type
indicates the purpose of a library. I have used a number of different types (feature, data-access, ui, api-types) The feature-...
type contains smart components. These are components which enable the communication with the data-sources (most likely they inject api services). The data-access
type contains code for interacting with the server. The ui
type contains dumb (presentational) components. These components are reusable in the scope of this library
I have used only standalone components. You won't see any modules in the app.
As you can see from the route configuration, the two main pages in the app are loaded lazily. This will make the initial loading time of the app faster.
{
path: '',
redirectTo: 'home',
pathMatch: 'full',
},
{
path: 'home',
loadChildren: () => import('@realworld/home/src/lib/home.routes').then((home) => home.HOME_ROUTES),
},
{
path: 'login',
loadComponent: () => import('@realworld/auth/feature-auth').then((m) => m.LoginComponent),
},
{
path: 'register',
loadComponent: () => import('@realworld/auth/feature-auth').then((m) => m.RegisterComponent),
},
{
path: 'article',
loadChildren: () => import('@realworld/articles/article').then((m) => m.ARTICLE_ROUTES),
},
{
path: 'settings',
loadComponent: () =>
import('@realworld/settings/feature-settings').then((settings) => settings.SettingsComponent),
},
{
path: 'editor',
loadChildren: () => import('@realworld/articles/article-edit').then((article) => article.ARTICLE_EDIT_ROUTES),
canActivate: [authGuard],
},
{
path: 'profile',
loadChildren: () => import('@realworld/profile/feature-profile').then((profile) => profile.PROFILE_ROUTES),
},
TBD
There is a clear distinction in the codebase between the smart and dumb components. The main reason behind this decision is that I want most of my components to be reusable and easier to be tested. That means that they should not have dependencies and they just consume the data they get from the smart component. Also it makes clearer a compoenent's responsibility.
As you can see in the package.json, we didn't include external libraries, like angular-material
, libs for the ui components, state management,etc. The reason is that it might be tempting to use a library like this in the short term to develop something fast, but in the long term they can introduce many problems:
- opinionated styles
- make the migration to newer versions of Angular more difficult
- not full control on them
TBD