Blog post

Building a Realtime Trello Board with Supabase and Angular

2022-08-24

48 minute read

Building a Realtime Trello Board with Supabase and Angular

Everyone can code up a little hello world example quickly with a platform like Supabase - but what about a real world project of bigger scale?

That's exactly what you will learn in this article:

We are building a Trello board with Supabase, Angular and Tailwind!

Supabase Trello Example

Along our jurney we will:

  • write some advanced SQL to create our tables
  • implement magic link sign in and user authentication with Angular
  • make use of the realtime capabilities!

Watch the video version of the tutorial.

Since there are quite some code snippets we need I've put together the full source code on Github so you can easily run the project yourself!

If you are not familiar with Trello, it's a way to manage projects with different boards, lists and cards!

Ready for a wild adventure? Then let's begin inside our Supabase account!

Creating the Supabase Project

First of all we need a new Supabase project. If you don't have a Supabase account yet, you can get started for free!

In your dashboard, click "New Project" and leave it to the default settings, but make sure you keep a copy o your Database password!

The only thing we will change manually for now is disabling the email confirmation step. By doing this, users will be directly able to sign in when using the magic link, so go to the Authentication tab of your project, select Settings and scroll down to your Auth Providers where you can disable it.

Disable Email confirm

Everything else regarding authentication[https://supabase.com/docs/guides/auth] is handled by Supabase and we don't need to worry about it at the moment!

Defining your Tables with SQL

Since Supabase uses Postgres under the hood, we need to write some SQL to define our tables.

Let's start with something easy, which is the general definition of our tables:

  • boards: Keep track of user created boards
  • lists: The lists within one board
  • cards: The cards with tasks within one list
  • ssers: A table to keep track of all registered users
  • user_boards: A many to many table to keep track which boards a user is part of

We're not going into SQL details, but you should be able to paste the following snippets into the SQL Editor of your project.

SQL Editor

Simply navigate to the menu item and click on + New query, paste in the SQL and hit RUN which hopefully executes without issues:


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drop table if exists user_boards;
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drop table if exists cards;
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drop table if exists lists;
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drop table if exists boards;
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drop table if exists users;
_65
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-- Create boards table
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create table boards (
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id bigint generated by default as identity primary key,
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creator uuid references auth.users not null default auth.uid(),
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title text default 'Untitled Board',
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created_at timestamp with time zone default timezone('utc'::text, now()) not null
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);
_65
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-- Create lists table
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create table lists (
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id bigint generated by default as identity primary key,
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board_id bigint references boards ON DELETE CASCADE not null,
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title text default '',
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position int not null default 0,
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created_at timestamp with time zone default timezone('utc'::text, now()) not null
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);
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-- Create Cards table
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create table cards (
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id bigint generated by default as identity primary key,
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list_id bigint references lists ON DELETE CASCADE not null,
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board_id bigint references boards ON DELETE CASCADE not null,
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position int not null default 0,
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title text default '',
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description text check (char_length(description) > 0),
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assigned_to uuid references auth.users,
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done boolean default false,
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created_at timestamp with time zone default timezone('utc'::text, now()) not null
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);
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-- Many to many table for user <-> boards relationship
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create table user_boards (
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id bigint generated by default as identity primary key,
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user_id uuid references auth.users ON DELETE CASCADE not null default auth.uid(),
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board_id bigint references boards ON DELETE CASCADE
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);
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-- User ID lookup table
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create table users (
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id uuid not null primary key,
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email text
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);
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-- Make sure deleted records are included in realtime
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alter table cards replica identity full;
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alter table lists replica identity full;
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-- Function to get all user boards
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create or replace function get_boards_for_authenticated_user()
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returns setof bigint
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language sql
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security definer
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set search_path = public
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stable
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as $$
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select board_id
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from user_boards
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where user_id = auth.uid()
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$$;

Besides the creation of tables we also changed the replica identity, which helps to alter retrieve records when a row is deleted.

Finally we defined a very important function that we will use to make the table secure using Row Level Security.

This function will retrieve all boards of a user from the user_boards table and will be used in our policies now.

We now enabled the row level security for the different tables and define some policies so only users with the right access can read/update/delete rows.

Go ahead and run another SQL query in the editor now:


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-- boards row level security
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alter table boards enable row level security;
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-- Policies
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create policy "Users can create boards" on boards for
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insert to authenticated with CHECK (true);
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create policy "Users can view their boards" on boards for
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select using (
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id in (
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select get_boards_for_authenticated_user()
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)
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);
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create policy "Users can update their boards" on boards for
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update using (
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id in (
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select get_boards_for_authenticated_user()
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)
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);
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create policy "Users can delete their created boards" on boards for
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delete using (auth.uid() = creator);
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-- user_boards row level security
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alter table user_boards enable row level security;
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create policy "Users can add their boards" on user_boards for
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insert to authenticated with check (true);
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create policy "Users can view boards" on user_boards for
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select using (auth.uid() = user_id);
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create policy "Users can delete their boards" on user_boards for
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delete using (auth.uid() = user_id);
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-- lists row level security
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alter table lists enable row level security;
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-- Policies
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create policy "Users can edit lists if they are part of the board" on lists for
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all using (
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board_id in (
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select get_boards_for_authenticated_user()
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)
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);
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-- cards row level security
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alter table cards enable row level security;
_57
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-- Policies
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create policy "Users can edit cards if they are part of the board" on cards for
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all using (
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board_id in (
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select get_boards_for_authenticated_user()
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)
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);

Finally we need a trigger that reacts to changes in our database.

In our case we want to listen to the creation of new boards, which will automatically create the board < - > user connection in the user_boards table.

Additionally we will also add every new authenticated user to our users table since you later don't have access to the internal auth table of Supabase!

Therefore run one last query:


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-- inserts a row into user_boards
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create function public.handle_board_added()
_31
returns trigger
_31
language plpgsql
_31
security definer
_31
as $$
_31
begin
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insert into public.user_boards (board_id, user_id)
_31
values (new.id, auth.uid());
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return new;
_31
end;
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$$;
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-- trigger the function every time a board is created
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create trigger on_board_created
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after insert on boards
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for each row execute procedure public.handle_board_added();
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_31
_31
create or replace function public.handle_new_user()
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returns trigger as $$
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begin
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insert into public.users (id, email)
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values (new.id, new.email);
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return new;
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end;
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$$ language plpgsql security definer;
_31
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create trigger on_auth_user_created
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after insert on auth.users
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for each row execute procedure public.handle_new_user();

At this point our Supabase project is configured correctly and we can move into the actual application!

Creating the Angular Project

We are not bound to any framework, but in this article we are using Angular to build a robust web application.

Get started by using the Angular CLI to generate a new project and then add some components and services that we will need.

Finally we can install the Supabase JS package and two additional helper packages for some cool functionality, so go ahead and run:


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ng new trelloBoard --routing --style=scss
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cd ./trelloBoard
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# Generate components and services
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ng generate component components/login
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ng generate component components/inside/workspace
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ng generate component components/inside/board
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ng generate service services/auth
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ng generate service services/data
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# Install Supabase and additional packages
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npm install @supabase/supabase-js
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npm install ngx-spinner ngx-gravatar

To import the installed packages we can quickly change our src/app/app.module.ts to:


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import { NgModule } from '@angular/core'
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import { BrowserModule } from '@angular/platform-browser'
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_27
import { AppRoutingModule } from './app-routing.module'
_27
import { AppComponent } from './app.component'
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import { LoginComponent } from './components/login/login.component'
_27
import { BoardComponent } from './components/inside/board/board.component'
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import { WorkspaceComponent } from './components/inside/workspace/workspace.component'
_27
import { BrowserAnimationsModule } from '@angular/platform-browser/animations'
_27
import { NgxSpinnerModule } from 'ngx-spinner'
_27
import { FormsModule } from '@angular/forms'
_27
import { GravatarModule } from 'ngx-gravatar'
_27
_27
@NgModule({
_27
declarations: [AppComponent, LoginComponent, BoardComponent, WorkspaceComponent],
_27
imports: [
_27
FormsModule,
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BrowserModule,
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AppRoutingModule,
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BrowserAnimationsModule,
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NgxSpinnerModule,
_27
GravatarModule,
_27
],
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providers: [],
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bootstrap: [AppComponent],
_27
})
_27
export class AppModule {}

On top of that the ngx-spinner needs another entry in the angular.json to copy over resources so we can later easily display a loading indicator, so open it and change the styles array to this:


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"styles": [
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"src/styles.scss",
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"node_modules/ngx-spinner/animations/ball-scale-multiple.css"
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],

Since we have already generated some components, we can also change our app routing to inlcude the new pages in the src/app/app-routing.module.ts now:


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import { BoardComponent } from './components/inside/board/board.component'
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import { WorkspaceComponent } from './components/inside/workspace/workspace.component'
_30
import { LoginComponent } from './components/login/login.component'
_30
import { NgModule } from '@angular/core'
_30
import { RouterModule, Routes } from '@angular/router'
_30
_30
const routes: Routes = [
_30
{
_30
path: '',
_30
component: LoginComponent,
_30
},
_30
{
_30
path: 'workspace',
_30
component: WorkspaceComponent,
_30
},
_30
{
_30
path: 'workspace/:id',
_30
component: BoardComponent,
_30
},
_30
{
_30
path: '**',
_30
redirectTo: '/',
_30
},
_30
]
_30
_30
@NgModule({
_30
imports: [RouterModule.forRoot(routes, {})],
_30
exports: [RouterModule],
_30
})
_30
export class AppRoutingModule {}

Our app will start with the login screen, after which we can move to the workspace with our boards and finally dive into one specific board to show all its lists and cards.

To correctly use the Angular router we can now update the src/app/app.component.html so it only holds one line:


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<router-outlet></router-outlet>

Finally the most important configuration step: Adding our Supabase credentials to the src/environments/environment.ts like this:


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export const environment = {
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production: false,
_10
supabaseUrl: 'YOUR-URL',
_10
supabaseKey: 'YOUR-ANON-KEY',
_10
}

You can find those values in your Supabase project by clicking on the Settings icon and then navigating to API where it shows your Project API keys.

Supabase project settings

The anon key is safe to use in a frontend project since we have enabled RLS on our database anyway!

Adding Tailwind for Styling

We could build an ugly project or easily make it look awesome by installing Tailwind CSS - we opt for the second in this article!

There are certainly other styling libraries that you can use, so this step is completely optional but required in order to make code of this tutorial work.

Therefore we follow the Angular guide and install Tailwind like this:


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npm install -D tailwindcss postcss autoprefixer @tailwindcss/forms
_10
npx tailwindcss init

Now we also need to update our tailwind.config.js to this:


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/** @type {import('tailwindcss').Config} */
_10
module.exports = {
_10
content: ['./src/**/*.{html,ts}'],
_10
theme: {
_10
extend: {},
_10
},
_10
plugins: [require('@tailwindcss/forms')],
_10
}

Finally we include the styling in our src/styles.scss:


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@tailwind base;
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@tailwind components;
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@tailwind utilities;

And with that the whole project configuration is done and we can focus 100% on the functionality of our Trello clone!

We could now add all sorts of authetnication using the auth providers that Supabase provides, but we will simply use a magic link sign in where users only need to pass their email.

To kick this off we will implement a simple authentication service that keeps track of our current user with a BehaviourSubject so we can easily emit new values later when the user session changes.

We are also loading the session once "by hand" using getUser() since the onAuthStateChange event is usually not broadcasted when the page loads, and we want to load a stored session in that case as well.

In order to send an email to the user we only need to call signIn() and only pass an email - Supabase takes care of the rest for us!

Therefore get started by changing the src/app/services/auth.service.ts to this now:


_50
import { Injectable } from '@angular/core'
_50
import { Router } from '@angular/router'
_50
import { createClient, SupabaseClient, User } from '@supabase/supabase-js'
_50
import { BehaviorSubject } from 'rxjs'
_50
import { environment } from 'src/environments/environment'
_50
_50
@Injectable({
_50
providedIn: 'root',
_50
})
_50
export class AuthService {
_50
private supabase: SupabaseClient
_50
private _currentUser: BehaviorSubject<boolean | User | any> = new BehaviorSubject(null)
_50
_50
constructor(private router: Router) {
_50
this.supabase = createClient(environment.supabaseUrl, environment.supabaseKey)
_50
_50
// Manually load user session once on page load
_50
// Note: This becomes a promise with getUser() in the next version!
_50
const user = this.supabase.auth.user()
_50
if (user) {
_50
this._currentUser.next(user)
_50
} else {
_50
this._currentUser.next(false)
_50
}
_50
_50
this.supabase.auth.onAuthStateChange((event, session) => {
_50
if (event == 'SIGNED_IN') {
_50
this._currentUser.next(session!.user)
_50
} else {
_50
this._currentUser.next(false)
_50
this.router.navigateByUrl('/', { replaceUrl: true })
_50
}
_50
})
_50
}
_50
_50
signInWithEmail(email: string) {
_50
// Note: This becomes signInWithOTP() in the next version!
_50
return this.supabase.auth.signIn({
_50
email,
_50
})
_50
}
_50
_50
logout() {
_50
this.supabase.auth.signOut()
_50
}
_50
_50
get currentUser() {
_50
return this._currentUser.asObservable()
_50
}
_50
}

That's a solid starting point for our authetnication logic, and now we just need to use those functions on our login page.

Additionally we will also listen to user changes here since this is the page a user will load when clicking on the magic link. We can use the currentUser from our service so we don't need any additional logic for that.

Once we start the sign in we can also use our cool spinner package to show a little indicator and afterwards flip the value of linkSuccess so we can present a little text in our UI.

We're keeping it fairly easy, so let's change the src/app/components/login/login.component.ts to:


_40
import { Router } from '@angular/router'
_40
import { AuthService } from './../../services/auth.service'
_40
import { Component, OnInit } from '@angular/core'
_40
import { NgxSpinnerService } from 'ngx-spinner'
_40
_40
@Component({
_40
selector: 'app-login',
_40
templateUrl: './login.component.html',
_40
styleUrls: ['./login.component.scss'],
_40
})
_40
export class LoginComponent implements OnInit {
_40
email = ''
_40
linkSuccess = false
_40
_40
constructor(
_40
private auth: AuthService,
_40
private spinner: NgxSpinnerService,
_40
private router: Router
_40
) {
_40
this.auth.currentUser.subscribe((user) => {
_40
if (user) {
_40
this.router.navigateByUrl('/workspace', { replaceUrl: true })
_40
}
_40
})
_40
}
_40
_40
ngOnInit(): void {}
_40
_40
async signIn() {
_40
this.spinner.show()
_40
const result = await this.auth.signInWithEmail(this.email)
_40
_40
this.spinner.hide()
_40
if (!result.error) {
_40
this.linkSuccess = true
_40
} else {
_40
alert(result.error.message)
_40
}
_40
}
_40
}

Last piece is our UI now, and since we are using Tailwind the HTML snippets won't look very beautiful.

Nonetheless, it's just some CSS and connecting our fields and buttons to the right functions, so go ahead and change the src/app/components/login/login.component.html to:


_37
<ngx-spinner type="ball-scale-multiple"></ngx-spinner>
_37
_37
<div class="flex min-h-full flex-col justify-center py-12 sm:px-6 lg:px-8">
_37
<div class="sm:mx-auto sm:w-full sm:max-w-md">
_37
<h2 class="mt-6 text-center text-3xl font-extrabold text-gray-900">Supabase Trello</h2>
_37
</div>
_37
_37
<div class="mt-8 sm:mx-auto sm:w-full sm:max-w-md">
_37
<div class="bg-white py-8 px-4 shadow sm:rounded-lg sm:px-10">
_37
<div class="space-y-6" *ngIf="!linkSuccess; else check_mails">
_37
<div class="space-y-6">
_37
<label for="email" class="block text-sm font-medium text-gray-700"> Email address </label>
_37
<div class="mt-1">
_37
<input
_37
type="email"
_37
[(ngModel)]="email"
_37
autocomplete="email"
_37
placeholder="john@doe.com"
_37
class="block w-full rounded-md border border-gray-300 px-3 py-2 placeholder-gray-400 shadow-sm focus:border-emerald-500 focus:outline-none focus:ring-emerald-500 sm:text-sm"
_37
/>
_37
</div>
_37
</div>
_37
_37
<div>
_37
<button
_37
(click)="signIn()"
_37
class="flex w-full justify-center rounded-md border border-transparent bg-emerald-600 py-2 px-4 text-sm font-medium text-white shadow-sm hover:bg-emerald-700 focus:outline-none focus:ring-2 focus:ring-emerald-500 focus:ring-offset-2"
_37
>
_37
Send magic link
_37
</button>
_37
</div>
_37
</div>
_37
_37
<ng-template #check_mails> Please check your emails! </ng-template>
_37
</div>
_37
</div>
_37
</div>

Once you are done you should have a stylish login page!

Login

When you enter your email and click the button, you should automatically receive an email with a link that will open up your app in the browser again - and this time it should actually forward you to the workspace area immediately.

Magic Link Email

Now at this point we could also enter that internal page manually by changing the URL without being authorized, so let's add a mechanism to prevent that.

Protecting your Pages with a Guard

In Angular we protect pages with a guard, and because we already keep track of the user in our authentication service it's gonna be super easy to protect pages that only authorized users should see.

Get started by generating a new guard:


_10
ng generate guard guards/auth --implements CanActivate

That guard will now check the Observable of our service, filter out the initial state and then see if a user is allowed to access a page or not.

Bring up the new src/app/guards/auth.guard.ts and change it to this:


_26
import { AuthService } from './../services/auth.service'
_26
import { Injectable } from '@angular/core'
_26
import { CanActivate, Router, UrlTree } from '@angular/router'
_26
import { Observable } from 'rxjs'
_26
import { filter, map, take } from 'rxjs/operators'
_26
_26
@Injectable({
_26
providedIn: 'root',
_26
})
_26
export class AuthGuard implements CanActivate {
_26
constructor(private auth: AuthService, private router: Router) {}
_26
_26
canActivate(): Observable<boolean | UrlTree> {
_26
return this.auth.currentUser.pipe(
_26
filter((val) => val !== null), // Filter out initial Behaviour subject value
_26
take(1), // Otherwise the Observable doesn't complete!
_26
map((isAuthenticated) => {
_26
if (isAuthenticated) {
_26
return true
_26
} else {
_26
return this.router.createUrlTree(['/'])
_26
}
_26
})
_26
)
_26
}
_26
}

Now we can apply this guard to all routes that we want to protect, so open up our src/app/app-routing.module.ts and add it to the two internal pages we want to protect:


_33
import { AuthGuard } from './guards/auth.guard'
_33
import { BoardComponent } from './components/inside/board/board.component'
_33
import { WorkspaceComponent } from './components/inside/workspace/workspace.component'
_33
import { LoginComponent } from './components/login/login.component'
_33
import { NgModule } from '@angular/core'
_33
import { RouterModule, Routes } from '@angular/router'
_33
_33
const routes: Routes = [
_33
{
_33
path: '',
_33
component: LoginComponent,
_33
},
_33
{
_33
path: 'workspace',
_33
component: WorkspaceComponent,
_33
canActivate: [AuthGuard],
_33
},
_33
{
_33
path: 'workspace/:id',
_33
component: BoardComponent,
_33
canActivate: [AuthGuard],
_33
},
_33
{
_33
path: '**',
_33
redirectTo: '/',
_33
},
_33
]
_33
_33
@NgModule({
_33
imports: [RouterModule.forRoot(routes, {})],
_33
exports: [RouterModule],
_33
})
_33
export class AppRoutingModule {}

Now only signed in users can access those pages, and we can move a step forward to the boards logic.

Creating the Workspace

Once a user arrives at the workspace page, we want to list all boards of a user and implement the ability to add boards.

To do so, we start off within a service again which takes care of all the interaction between our code and Supabase, so the view can focus on the data presentation.

Our first function will simplye insert an empty object into the boards table, which we define as a const so we can't add any typos to our code.

Because we defined a default value for new rows in our SQL in the beginning, we don't have to pass any other data here.

To load all tables of a user could simply query the user_boards table, but we might want more information about the related board so we can also query foreign tables to load the board information!

Go ahead and begin the src/app/services/data.service.ts with this:


_32
import { Injectable } from '@angular/core'
_32
import { SupabaseClient, createClient } from '@supabase/supabase-js'
_32
import { environment } from 'src/environments/environment'
_32
_32
export const BOARDS_TABLE = 'boards'
_32
export const USER_BOARDS_TABLE = 'user_boards'
_32
export const LISTS_TABLE = 'lists'
_32
export const CARDS_TABLE = 'cards'
_32
export const USERS_TABLE = 'users'
_32
_32
@Injectable({
_32
providedIn: 'root',
_32
})
_32
export class DataService {
_32
private supabase: SupabaseClient
_32
_32
constructor() {
_32
this.supabase = createClient(environment.supabaseUrl, environment.supabaseKey)
_32
}
_32
_32
async startBoard() {
_32
// Minimal return will be the default in the next version and can be removed here!
_32
return await this.supabase.from(BOARDS_TABLE).insert({}, { returning: 'minimal' })
_32
}
_32
_32
async getBoards() {
_32
const boards = await this.supabase.from(USER_BOARDS_TABLE).select(`
_32
boards:board_id ( title, id )
_32
`)
_32
return boards.data || []
_32
}
_32
}

In fact that's enough for our first interaction with our Supabase tables, so we can move on to our view again and load the user boards when the page loads.

Additionally we want to add a board, and here we encounter one of those real world problems:

Because we have a database trigger that adds an entry when a new table is added, the user is not immediately authorized to access the new board row! Only once the trigger has finished, the RLS that checks user boards can confirm that this user is part of the board.

Therefore we add another line to load the boards again and pop the last added element so we can automatically navigate into its details page.

Now open the src/app/components/inside/workspace/workspace.component.ts and change it to:


_45
import { AuthService } from './../../../services/auth.service'
_45
import { Router } from '@angular/router'
_45
import { DataService } from './../../../services/data.service'
_45
import { Component, OnInit } from '@angular/core'
_45
_45
@Component({
_45
selector: 'app-workspace',
_45
templateUrl: './workspace.component.html',
_45
styleUrls: ['./workspace.component.scss'],
_45
})
_45
export class WorkspaceComponent implements OnInit {
_45
boards: any[] = []
_45
user = this.auth.currentUser
_45
_45
constructor(
_45
private dataService: DataService,
_45
private router: Router,
_45
private auth: AuthService
_45
) {}
_45
_45
async ngOnInit() {
_45
this.boards = await this.dataService.getBoards()
_45
}
_45
_45
async startBoard() {
_45
const data = await this.dataService.startBoard()
_45
_45
// Load all boards because we only get back minimal data
_45
// Trigger needs to run first
_45
// Otherwise RLS would fail
_45
this.boards = await this.dataService.getBoards()
_45
_45
if (this.boards.length > 0) {
_45
const newBoard = this.boards.pop()
_45
_45
if (newBoard.boards) {
_45
this.router.navigateByUrl(`/workspace/${newBoard.boards.id}`)
_45
}
_45
}
_45
}
_45
_45
signOut() {
_45
this.auth.logout()
_45
}
_45
}

To display all of this we build up another view with Tailwind and also use the Gravatar package to display a little image of the current user based on the email.

Besides that we simply iterate all boards, add the router link to a board based on the ID and add a button to create new boards, so bring up the src/app/components/inside/workspace/workspace.component.html and change it to:


_46
<header class="bg-emerald-600">
_46
<nav class="mx-auto max-w-7xl px-4 sm:px-6 lg:px-8">
_46
<div
_46
class="flex w-full items-center justify-between border-b border-emerald-500 py-6 lg:border-none"
_46
>
_46
<div class="flex items-center">
_46
<a routerLink="/workspace">
_46
<img class="h-6 w-auto" src="https://supabase.com/docs/supabase-dark.svg" alt="" />
_46
</a>
_46
</div>
_46
<div class="ml-10 flex items-center space-x-4">
_46
<span class="text-white">{{ (user | async)?.email }}</span>
_46
<img ngxGravatar [email]="(user | async)?.email" />
_46
_46
<button
_46
(click)="signOut()"
_46
class="inline-block rounded-md border border-transparent bg-white py-1 px-4 text-base font-medium text-emerald-600 hover:bg-emerald-50"
_46
>
_46
Logout
_46
</button>
_46
</div>
_46
</div>
_46
</nav>
_46
</header>
_46
_46
<main class="mx-auto max-w-7xl px-4 py-8 sm:px-6 lg:px-8">
_46
<ul
_46
role="list"
_46
class="grid grid-cols-2 gap-x-4 gap-y-8 sm:grid-cols-3 sm:gap-x-6 lg:grid-cols-4 xl:gap-x-8"
_46
>
_46
<li
_46
*ngFor="let board of boards"
_46
[routerLink]="board.boards.id"
_46
class="relative h-52 rounded bg-emerald-200 py-4 px-4 text-lg font-semibold hover:cursor-pointer hover:bg-emerald-300"
_46
>
_46
{{ board.boards.title }}
_46
</li>
_46
_46
<li
_46
(click)="startBoard()"
_46
class="relative h-52 rounded bg-emerald-500 py-4 px-4 text-lg font-semibold hover:cursor-pointer"
_46
>
_46
+ New board
_46
</li>
_46
</ul>
_46
</main>

At this point we have a functional board logic and actually already route to the following details page.

Workspace page

The logout functionality will also remove our session and guide us back to the login, so we have covered that flow at the same time already.

Time for some more interaction with our Supabase tables!

Adding CRUD Functions for the Database

On our board details page we now need to interact with all the tables and mostly perform CRUD functionality - Create, read, update or delete records of our database.

Since there's no real value in discussing every line, let's quickly add the following bunch of functions to our src/app/services/data.service.ts:


_90
// CRUD Board
_90
async getBoardInfo(boardId: string) {
_90
return await this.supabase
_90
.from(BOARDS_TABLE)
_90
.select('*')
_90
.match({ id: boardId })
_90
.single();
_90
}
_90
_90
async updateBoard(board: any) {
_90
return await this.supabase
_90
.from(BOARDS_TABLE)
_90
.update(board)
_90
.match({ id: board.id });
_90
}
_90
_90
async deleteBoard(board: any) {
_90
return await this.supabase
_90
.from(BOARDS_TABLE)
_90
.delete()
_90
.match({ id: board.id });
_90
}
_90
_90
// CRUD Lists
_90
async getBoardLists(boardId: string) {
_90
const lists = await this.supabase
_90
.from(LISTS_TABLE)
_90
.select('*')
_90
.eq('board_id', boardId)
_90
.order('position');
_90
_90
return lists.data || [];
_90
}
_90
_90
async addBoardList(boardId: string, position = 0) {
_90
return await this.supabase
_90
.from(LISTS_TABLE)
_90
.insert({ board_id: boardId, position, title: 'New List' })
_90
.select('*')
_90
.single();
_90
}
_90
_90
async updateBoardList(list: any) {
_90
return await this.supabase
_90
.from(LISTS_TABLE)
_90
.update(list)
_90
.match({ id: list.id });
_90
}
_90
_90
async deleteBoardList(list: any) {
_90
return await this.supabase
_90
.from(LISTS_TABLE)
_90
.delete()
_90
.match({ id: list.id });
_90
}
_90
_90
// CRUD Cards
_90
async addListCard(listId: string, boardId: string, position = 0) {
_90
return await this.supabase
_90
.from(CARDS_TABLE)
_90
.insert(
_90
{ board_id: boardId, list_id: listId, position }
_90
)
_90
.select('*')
_90
.single();
_90
}
_90
_90
async getListCards(listId: string) {
_90
const lists = await this.supabase
_90
.from(CARDS_TABLE)
_90
.select('*')
_90
.eq('list_id', listId)
_90
.order('position');
_90
_90
return lists.data || [];
_90
}
_90
_90
async updateCard(card: any) {
_90
return await this.supabase
_90
.from(CARDS_TABLE)
_90
.update(card)
_90
.match({ id: card.id });
_90
}
_90
_90
async deleteCard(card: any) {
_90
return await this.supabase
_90
.from(CARDS_TABLE)
_90
.delete()
_90
.match({ id: card.id });
_90
}

Most if not all of this is basic SQL as described in the Supabase docs for Database

One additional function is missing, and that's a simple invitation logic. However we gonna skip the "Ok I want to join this board" step and simply add invited users to a new board. Sometimes users need to be forced to do what's good for them.

Therfore we will try to find the user ID of a user based on the entered email, and if it exists we will create a new entry in the user_boards table for that user:


_19
// Invite others
_19
async addUserToBoard(boardId: string, email: string) {
_19
const user = await this.supabase
_19
.from(USERS_TABLE)
_19
.select('id')
_19
.match({ email })
_19
.single();
_19
_19
if (user.data?.id) {
_19
const userId = user.data.id;
_19
const userBoard = await this.supabase.from(USER_BOARDS_TABLE).insert({
_19
user_id: userId,
_19
board_id: boardId,
_19
});
_19
return userBoard;
_19
} else {
_19
return null;
_19
}
_19
}

With those functions in place I think we are more than ready to create a powerful board page.

Creating the Boards View

This page is the most essential and most challenging part of our app, as it's the place where the actual work happens and users collaborate on boards.

However, we will begin by setting up the basic stuff and introduce realtime functionality and presence in a separate step afterwards.

Because it would be tedious to split the page into multiple code snippets we'll go with one big and I'll explain what's going on:

  • We first need to load some general board info like the title using getBoardInfo() and the passed ID of the board
  • We then need to load all lists of a board using getBoardLists()
  • We then need to load every card for every list using getListCards()

To keep track of data and changes we hold all cards in the listCards object that stores all cards under the related list ID key.

In terms of additional logic we might want to update or delete the board, which we can do simply with the previously created service functions.

Same is true for lists and cards, which can be added, updated or removed.

However, this will not (yet) update our local data, since we want to implement this with realtime updates later.

For now go ahead and change the src/app/components/inside/board/board.component.ts to:


_109
import { DataService } from './../../../services/data.service'
_109
import { Component, HostListener, OnInit } from '@angular/core'
_109
import { ActivatedRoute, Router } from '@angular/router'
_109
_109
@Component({
_109
selector: 'app-board',
_109
templateUrl: './board.component.html',
_109
styleUrls: ['./board.component.scss'],
_109
})
_109
export class BoardComponent implements OnInit {
_109
lists: any[] = []
_109
boardId: string | null = null
_109
editTitle: any = {}
_109
editCard: any = {}
_109
boardInfo: any = null
_109
titleChanged = false
_109
_109
listCards: any = {}
_109
addUserEmail = ''
_109
_109
constructor(
_109
private route: ActivatedRoute,
_109
private dataService: DataService,
_109
private router: Router
_109
) {}
_109
_109
async ngOnInit() {
_109
this.boardId = this.route.snapshot.paramMap.get('id')
_109
if (this.boardId) {
_109
// Load general board information
_109
const board = await this.dataService.getBoardInfo(this.boardId)
_109
this.boardInfo = board.data
_109
_109
// Retrieve all lists
_109
this.lists = await this.dataService.getBoardLists(this.boardId)
_109
_109
// Retrieve cards for each list
_109
for (let list of this.lists) {
_109
this.listCards[list.id] = await this.dataService.getListCards(list.id)
_109
}
_109
_109
// For later...
_109
this.handleRealtimeUpdates()
_109
}
_109
}
_109
_109
//
_109
// BOARD logic
_109
//
_109
async saveBoardTitle() {
_109
await this.dataService.updateBoard(this.boardInfo)
_109
this.titleChanged = false
_109
}
_109
_109
async deleteBoard() {
_109
await this.dataService.deleteBoard(this.boardInfo)
_109
this.router.navigateByUrl('/workspace')
_109
}
_109
_109
//
_109
// LISTS logic
_109
//
_109
async addList() {
_109
const newList = await this.dataService.addBoardList(this.boardId!, this.lists.length)
_109
}
_109
_109
editingTitle(list: any, edit = false) {
_109
this.editTitle[list.id] = edit
_109
}
_109
_109
async updateListTitle(list: any) {
_109
await this.dataService.updateBoardList(list)
_109
this.editingTitle(list, false)
_109
}
_109
_109
async deleteBoardList(list: any) {
_109
await this.dataService.deleteBoardList(list)
_109
}
_109
_109
//
_109
// CARDS logic
_109
//
_109
async addCard(list: any) {
_109
await this.dataService.addListCard(list.id, this.boardId!, this.listCards[list.id].length)
_109
}
_109
_109
editingCard(card: any, edit = false) {
_109
this.editCard[card.id] = edit
_109
}
_109
_109
async updateCard(card: any) {
_109
await this.dataService.updateCard(card)
_109
this.editingCard(card, false)
_109
}
_109
_109
async deleteCard(card: any) {
_109
await this.dataService.deleteCard(card)
_109
}
_109
_109
// Invites
_109
async addUser() {
_109
await this.dataService.addUserToBoard(this.boardId!, this.addUserEmail)
_109
this.addUserEmail = ''
_109
}
_109
_109
handleRealtimeUpdates() {
_109
// TODO
_109
}
_109
}

That was a massive file - make sure you take the time to go through it at least once or twice to better understand the differetn functions we added.

Now we need to tackle the view of that page, and because it's Tailwind the snippets won't be shorter.

We can begin with the easier part, which is the header area that displays a back button, the board information that can be updated on click and a delete button to well, you know what.

Bring up the src/app/components/inside/board/board.component.html and add this first:


_26
<header class="bg-emerald-600">
_26
<nav class="mx-auto max-w-7xl px-4 sm:px-6 lg:px-8">
_26
<div
_26
class="flex w-full items-center justify-between border-b border-emerald-500 py-6 lg:border-none"
_26
>
_26
<div class="flex items-center">
_26
<a routerLink="/workspace" class="font-semibold text-emerald-900"> < Back </a>
_26
</div>
_26
<div class="flex gap-4">
_26
<input
_26
*ngIf="boardInfo"
_26
(ngModelChange)="titleChanged = true"
_26
class="ml-10 space-x-4 bg-emerald-600 font-bold text-white"
_26
[(ngModel)]="boardInfo.title"
_26
/>
_26
<button class="font-medium" *ngIf="titleChanged" (click)="saveBoardTitle()">Save</button>
_26
</div>
_26
_26
<div class="flex">
_26
<button class="text-small font-medium text-red-700" (click)="deleteBoard()">
_26
Delete board
_26
</button>
_26
</div>
_26
</div>
_26
</nav>
_26
</header>

Since we will have more of these update input fields later, let's quickly add a col HostListener to our app so we can detect at least the ESC key event and then close all of those edit input fields in our src/app/components/inside/board/board.component.ts


_18
@HostListener('document:keydown', ['$event']) onKeydownHandler(
_18
event: KeyboardEvent
_18
) {
_18
if (event.keyCode === 27) {
_18
// Close whatever needs to be closed!
_18
this.titleChanged = false;
_18
_18
Object.keys(this.editCard).map((item) => {
_18
this.editCard[item] = false;
_18
return item;
_18
});
_18
_18
Object.keys(this.editTitle).map((item) => {
_18
this.editTitle[item] = false;
_18
return item;
_18
});
_18
}
_18
}

Finally we need to iterate all lists, and for every list display all cards.

Actually a pretty simple task, but since we need more buttons to control the elements so we can delete, add and update them to whole code becomes a bit more bloated.

Nonetheless we can continue below the previous code in our src/app/components/inside/board/board.component.html and add this:


_69
<main class="mx-auto max-w-7xl px-4 py-8 sm:px-6 lg:px-8">
_69
<div class="grid grid-cols-2 gap-x-4 gap-y-8 sm:grid-cols-3 sm:gap-x-6 lg:grid-cols-4 xl:gap-x-8">
_69
<!-- ITERATE ALL LISTS -->
_69
<div
_69
*ngFor="let list of lists"
_69
class="min-h-52 relative h-auto rounded bg-emerald-200 py-4 px-4 text-sm font-semibold"
_69
>
_69
<div class="flex gap-2 pb-4">
_69
<p
_69
(click)="editingTitle(list, true)"
_69
class="hover:cursor-pointer"
_69
*ngIf="!editTitle[list.id]"
_69
>
_69
{{ list.title }}
_69
</p>
_69
<input
_69
[(ngModel)]="list.title"
_69
*ngIf="editTitle[list.id]"
_69
class="block w-full rounded-md border border-gray-300 px-3 py-2 shadow-sm focus:border-emerald-500 focus:outline-none focus:ring-emerald-500 sm:text-sm"
_69
/>
_69
<button class="font-medium" *ngIf="editTitle[list.id]" (click)="updateListTitle(list)">
_69
Save
_69
</button>
_69
</div>
_69
_69
<!-- ITERATE LIST CARDS -->
_69
<div class="flex flex-col items-center gap-2">
_69
<div
_69
class="flex h-auto w-full flex-col gap-2 hover:cursor-pointer"
_69
*ngFor="let card of listCards[list.id]"
_69
(click)="editingCard(card, true)"
_69
>
_69
<p class="h-10 bg-white py-2 px-2" *ngIf="!editCard[card.id]">{{ card.title }}</p>
_69
<input
_69
[(ngModel)]="card.title"
_69
*ngIf="editCard[card.id]"
_69
class="block rounded-md border border-gray-300 px-3 py-2 shadow-sm focus:border-emerald-500 focus:outline-none focus:ring-emerald-500 sm:text-sm"
_69
/>
_69
<div class="align-items-center flex justify-between">
_69
<button class="font-medium" *ngIf="editCard[card.id]" (click)="updateCard(card)">
_69
Update
_69
</button>
_69
_69
<button
_69
class="font-medium text-red-600"
_69
*ngIf="editCard[card.id]"
_69
(click)="deleteCard(card)"
_69
>
_69
Delete
_69
</button>
_69
</div>
_69
</div>
_69
<div (click)="addCard(list)" class="pt-8 text-gray-500 hover:cursor-pointer">
_69
+ Add a card
_69
</div>
_69
<button class="text-small font-medium text-red-700" (click)="deleteBoardList(list)">
_69
Delete list
_69
</button>
_69
</div>
_69
</div>
_69
_69
<div
_69
(click)="addList()"
_69
class="relative h-16 rounded bg-emerald-500 py-4 px-4 text-lg font-semibold hover:cursor-pointer"
_69
>
_69
+ New list
_69
</div>
_69
</div>
_69
</main>

At this point we are able to add a list, add a new card in that list and finally update or delete all of that!

Board functionality

Most of this won't update the view since we will handle this with realtime updates in a minute, so you need to refresh your page after adding a card or list right now!

But we can actually already add our invitation logic, which just needs another input field so we can invite another email to work with us on the board.

Add the following in the <main> tag of our src/app/components/inside/board/board.component.html at the bottom:


_15
<div class="flex items-center gap-4 py-12">
_15
<span class="block text-3xl font-extrabold text-gray-900">Invite</span>
_15
_15
<input
_15
[(ngModel)]="addUserEmail"
_15
placeholder="john@doe.com"
_15
class="block rounded-md border border-gray-300 px-3 py-2 shadow-sm focus:border-emerald-500 focus:outline-none focus:ring-emerald-500 sm:text-sm"
_15
/>
_15
<button
_15
(click)="addUser()"
_15
class="inline-flex items-center rounded border border-transparent bg-emerald-600 px-2.5 py-1.5 text-xs font-medium text-white shadow-sm hover:bg-emerald-700 focus:outline-none focus:ring-2 focus:ring-emerald-500 focus:ring-offset-2"
_15
>
_15
Invite
_15
</button>
_15
</div>

The required function in our class and service already exists, so you can now already invite other users (who are already signed up!) and from their account see the same board as you have.

Handling Realtime Table Changes

The cool thing is is how easy we are now able to implement real time functionality - the only thing required for this is to turn it on.

We can do this right inside the table editor of Supabase, so go to your tables, click that little arrow next to edi so you can edit the table and then enable realtime for bot cards and lists!

Supabase Realtime

Now we are able to retrieve those updates if we listen for them, and while the API for this might slightly change with the next Supabase JS update, the general idea can still be applied:

We create a new Subject and return it as an Observable, and then listen to changes of our tables by using on().

Whenever we get an update, we emit that change to the Subject so we have one stream of updates that we can return to our view.

To continue, bring up the src/app/services/data.service.ts and add this additional function:


_19
getTableChanges() {
_19
const changes = new Subject();
_19
_19
this.supabase
_19
.from(CARDS_TABLE)
_19
.on('*', (payload: any) => {
_19
changes.next(payload);
_19
})
_19
.subscribe();
_19
_19
this.supabase
_19
.from(LISTS_TABLE)
_19
.on('*', (payload: any) => {
_19
changes.next(payload);
_19
})
_19
.subscribe();
_19
_19
return changes.asObservable();
_19
}

Now that we can easily get all the updates to our relevant tables in realtime, we just need to handle them accordingly.

This is just a matter of finding out which event occurred (INSERT, UPDATE, DELETE) and then applying the changes to our local data to add, change or remove data.

Go ahead by finally implementing our function in the src/app/components/inside/board/board.component.ts that we left open until now:


_30
handleRealtimeUpdates() {
_30
this.dataService.getTableChanges().subscribe((update: any) => {
_30
const record = update.new?.id ? update.new : update.old;
_30
const event = update.eventType;
_30
_30
if (!record) return;
_30
_30
if (update.table == 'cards') {
_30
if (event === 'INSERT') {
_30
this.listCards[record.list_id].push(record);
_30
} else if (event === 'UPDATE') {
_30
const newArr = [];
_30
_30
for (let card of this.listCards[record.list_id]) {
_30
if (card.id == record.id) {
_30
card = record;
_30
}
_30
newArr.push(card);
_30
}
_30
this.listCards[record.list_id] = newArr;
_30
} else if (event === 'DELETE') {
_30
this.listCards[record.list_id] = this.listCards[
_30
record.list_id
_30
].filter((card: any) => card.id !== record.id);
_30
}
_30
} else if (update.table == 'lists') {
_30
// TODO
_30
}
_30
});
_30
}

This handles the events if the table of our event is cards, buzt the second part is somewhat similar.

I simply put the code for the else case in a second block, to not make the first handling look that big - but it's pretty much the same logic of handling the different cases and now updating everything related to lists:


_20
else if (update.table == 'lists') {
_20
if (event === 'INSERT') {
_20
this.lists.push(record);
_20
this.listCards[record.id] = [];
_20
} else if (event === 'UPDATE') {
_20
this.lists.filter((list: any) => list.id === record.id)[0] = record;
_20
_20
const newArr = [];
_20
_20
for (let list of this.lists) {
_20
if (list.id == record.id) {
_20
list = record;
_20
}
_20
newArr.push(list);
_20
}
_20
this.lists = newArr;
_20
} else if (event === 'DELETE') {
_20
this.lists = this.lists.filter((list: any) => list.id !== record.id);
_20
}
_20
}

With that final piece of code we are completely done with our Supabase Angular Trello clone, and you can enjoy the fruits of your hard work!

Conclusion

Building projects with Supabase is awesome, and hopefully this real world clone example gave you insight into different areas that you need to think about.

You can find the full code of this tutorial on Github where you just need to insert your own Supabase instance and then create the tables with the included SQL file.

If you enjoyed the tutorial, you can find many more tutorials on my YouTube channel where I help web developers build awesome mobile apps.

Until next time and happy coding with Supabase!

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