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Todos 🗒

info

Difficulty: 🟠 Intermediate
Length: 30 minutes

Before getting started, read the prerequisites to make sure your development environment is ready.

Overview

In this tutorial, we're going to build an app that exposes two endpoints which allow us to perform CRUD operations on a list of todos.

note

CRUD stands for create, read, update, and delete.

When we're done, we should have an app that supports the following requests:

# Create a new todo
curl --request POST \
--url http://localhost:8080/todos \
--header 'Content-Type: application/json' \
--data '{
"title": "Take out trash"
}'

# Read all todos
curl --request GET \
--url http://localhost:8080/todos

# Read a specific todo by id
curl --request GET \
--url http://localhost:8080/todos/<id>

# Update a specific todo by id
curl --request PUT \
--url http://localhost:8080/todos/<id> \
--header 'Content-Type: application/json' \
--data '{
"title": "Take out trash!",
"isCompleted": true
}'

# Delete a specific todo by id
curl --request DELETE \
--url http://localhost:8080/todos/<id>

Creating a new app

To create a new Dart Frog app, open your terminal, cd into the directory where you'd like to create the app, and run the following command:

dart_frog create todos

You should see an output similar to:

✓ Creating todos (0.1s)
✓ Installing dependencies (1.7s)

Created todos at ./todos.

Get started by typing:

cd ./todos
dart_frog dev
tip

Install and use the Dart Frog VS Code extension to easily create Dart Frog apps within your IDE.

Running the development server

You should now have a directory called todos -- cd into it:

cd todos

Then, run the following command:

dart_frog dev

This will start the development server on port 8080:

✓ Running on http://localhost:8080 (1.3s)
The Dart VM service is listening on http://127.0.0.1:8181/YKEF_nbwOpM=/
The Dart DevTools debugger and profiler is available at: http://127.0.0.1:8181/YKEF_nbwOpM=/devtools/#/?uri=ws%3A%2F%2F127.0.0.1%3A8181%2FYKEF_nbwOpM%3D%2Fws
[hotreload] Hot reload is enabled.

Make sure it's working by opening http://localhost:8080 in your browser or via cURL:

curl --request GET \
--url http://localhost:8080

If everything succeeded, you should see Welcome to Dart Frog!.

Todos Data Source

Creating package:todos_data_source

Now that we have a running application, we need to define an abstraction for a todos data source which will be responsible for exposing APIs to perform C.R.U.D operations on a list of todos.

Since the todos data source is not tightly coupled to our Dart Frog application, we can create it as a package.

tip

Decomposing a project into one or more packages is a form of modularization which can help with maintainability and reusability.

In this tutorial, we're going to use package:mason_cli to help us create new packages quickly.

info

If you don't have package:mason_cli installed, follow the installation directions before proceeding.

Install the latest version of the Very Good Dart Package by running:

mason add -g very_good_dart_package

Then we can create the todos_data_source via:

mason make very_good_dart_package --project_name "todos_data_source" --description "A generic interface for managing todos." -o packages
info

Alternatively you can run mason make very_good_dart_package and fill out the interactive prompts.

Now we should have the scaffolding for the todos_data_source package under packages/todos_data_source:

├── packages
│ └── todos_data_source
│ ├── README.md
│ ├── analysis_options.yaml
│ ├── coverage_badge.svg
│ ├── lib
│ ├── pubspec.lock
│ ├── pubspec.yaml
│ └── test

Updating the pubspec.yaml

Next, let's update the pubspec.yaml in the todos_data_source to include the relevant dependencies:

name: todos_data_source
description: A generic interface for managing todos.
version: 0.1.0+1
publish_to: none

environment:
sdk: '>=3.0.0 <4.0.0'

dependencies:
equatable: ^2.0.3
json_annotation: ^4.6.0
meta: ^1.7.0

dev_dependencies:
build_runner: ^2.2.0
json_serializable: ^6.3.1
mocktail: ^1.0.0
test: ^1.19.2
very_good_analysis: ^5.0.0

Install the newly added dependencies via:

dart pub get
caution

Make sure to run the above command from within the packages/todos_data_source directory.

Creating the Todo model

Next, let's define our todo model which will be a plain Dart class which represents a single todo item.

Create lib/src/models/todo.dart with the following contents:

import 'package:equatable/equatable.dart';
import 'package:json_annotation/json_annotation.dart';
import 'package:meta/meta.dart';

part 'todo.g.dart';

/// {@template todo}
/// A single todo item.
///
/// Contains a [title], [description] and [id], in addition to a [isCompleted]
/// flag.
///
/// If an [id] is provided, it cannot be empty. If no [id] is provided, one
/// will be generated.
///
/// [Todo]s are immutable and can be copied using [copyWith], in addition to
/// being serialized and deserialized using [toJson] and [fromJson]
/// respectively.
/// {@endtemplate}

()
class Todo extends Equatable {
/// {@macro todo}
Todo({
this.id,
required this.title,
this.description = '',
this.isCompleted = false,
}) : assert(id == null || id.isNotEmpty, 'id cannot be empty');

/// The unique identifier of the todo.
///
/// Cannot be empty.
final String? id;

/// The title of the todo.
///
/// Note that the title may be empty.
final String title;

/// The description of the todo.
///
/// Defaults to an empty string.
final String description;

/// Whether the todo is completed.
///
/// Defaults to `false`.
final bool isCompleted;

/// Returns a copy of this todo with the given values updated.
///
/// {@macro todo}
Todo copyWith({
String? id,
String? title,
String? description,
bool? isCompleted,
}) {
return Todo(
id: id ?? this.id,
title: title ?? this.title,
description: description ?? this.description,
isCompleted: isCompleted ?? this.isCompleted,
);
}

/// Deserializes the given `Map<String, dynamic>` into a [Todo].
static Todo fromJson(Map<String, dynamic> json) => _$TodoFromJson(json);

/// Converts this [Todo] into a `Map<String, dynamic>`.
Map<String, dynamic> toJson() => _$TodoToJson(this);


List<Object?> get props => [id, title, description, isCompleted];
}
info

The Todo class uses package:json_serializable to handle generating the code to (de)serialize to and from JSON.

The Todo class extends uses package:equatable to override == and hashCode so that we can compare Todo instances by value.

Next, we need to use package:build_runner to generate the relevant code for json_serializable:

dart run build_runner build --delete-conflicting-outputs

We should see that the todos.g.dart file was generated and our code should not have any errors or warnings at this point.

Let's add a barrel file to export our models by creating lib/src/models/models.dart and exporting todos.dart:

export 'todo.dart';

Also, let's update the library exports to include the models in lib/todos_data_source.dart:

/// A generic interface for managing todos.
library todos_data_source;

export 'src/models/models.dart';
export 'src/todos_data_source.dart';

That's it for the models. Next, we'll define the TodosDataSource class.

Creating the TodosDataSource

The last thing we need to do in the todos_data_source package is define the TodosDataSource class. It's going to be an abstract class because it will serve as an interface which can have multiple concrete implementations.

Create lib/src/todos_data_source.dart with the following contents:

import 'package:todos_data_source/todos_data_source.dart';

/// An interface for a todos data source.
/// A todos data source supports basic C.R.U.D operations.
/// * C - Create
/// * R - Read
/// * U - Update
/// * D - Delete
abstract class TodosDataSource {
/// Create and return the newly created todo.
Future<Todo> create(Todo todo);

/// Return all todos.
Future<List<Todo>> readAll();

/// Return a todo with the provided [id] if one exists.
Future<Todo?> read(String id);

/// Update the todo with the provided [id] to match [todo] and
/// return the updated todo.
Future<Todo> update(String id, Todo todo);

/// Delete the todo with the provided [id] if one exists.
Future<void> delete(String id);
}

We're done with the todos_data_source! Next, we'll create a concrete implementation of the TodosDataSource interface which is backed by an in-memory cache.

In-Memory Todos Data Source

Just like with the todos_data_source, we'll create a new package called in_memory_todos_data_source to contain the concrete implementation.

Creating package:in_memory_todos_data_source

From the root of the project we can use mason make to generate a new Dart package again:

mason make very_good_dart_package --project_name "in_memory_todos_data_source" --description "An in-memory implementation of the TodosDataSource interface." -o packages

Updating the pubspec.yaml

Next, let's update the pubspec.yaml in the in_memory_todos_data_source to include the relevant dependencies:

name: in_memory_todos_data_source
description: An in-memory implementation of the TodosDataSource interface.
version: 0.1.0+1
publish_to: none

environment:
sdk: '>=3.0.0 <4.0.0'

dependencies:
todos_data_source:
path: ../todos_data_source
uuid: ^3.0.6

dev_dependencies:
mocktail: ^1.0.0
test: ^1.19.2
very_good_analysis: ^5.0.0
note

The in_memory_todos_data_source depends on the todos_data_source via path.

Install the newly added dependencies via:

dart pub get

Creating the InMemoryTodosDataSource

Next, let's update lib/src/in_memory_todos_data_source.dart to implement the TodosDataSource interface:

import 'package:todos_data_source/todos_data_source.dart';
import 'package:uuid/uuid.dart';

/// An in-memory implementation of the [TodosDataSource] interface.
class InMemoryTodosDataSource implements TodosDataSource {
/// Map of ID -> Todo
final _cache = <String, Todo>{};


Future<Todo> create(Todo todo) async {
final id = const Uuid().v4();
final createdTodo = todo.copyWith(id: id);
_cache[id] = createdTodo;
return createdTodo;
}


Future<List<Todo>> readAll() async => _cache.values.toList();


Future<Todo?> read(String id) async => _cache[id];


Future<Todo> update(String id, Todo todo) async {
return _cache.update(id, (value) => todo);
}


Future<void> delete(String id) async => _cache.remove(id);
}

That's it! We're done making the data sources for our Dart Frog application and we're ready to start working on the Dart Frog app itself!

tip

You can create your own TodosDataSource implementation that is backed by databases like mysql, postgres, or redis.

Updating the pubspec.yaml

The first thing we need to do is update the root pubspec.yaml to contain the todos_data_source and in_memory_todos_data_source dependencies:

name: todos
description: An example todos app built with Dart Frog.
version: 1.0.0+1
publish_to: none

environment:
sdk: '>=3.0.0 <4.0.0'

dependencies:
dart_frog: ^1.0.0
in_memory_todos_data_source:
path: packages/in_memory_todos_data_source
todos_data_source:
path: packages/todos_data_source

dev_dependencies:
http: ^1.0.0
mocktail: ^1.0.0
test: ^1.19.2
very_good_analysis: ^5.0.0

Install the newly added dependencies via:

dart pub get

Creating middleware

Next, let's create a top-level piece of middleware to provide the TodosDataSource to all routes. Create routes/_middleware.dart with the following contents:

import 'package:dart_frog/dart_frog.dart';
import 'package:in_memory_todos_data_source/in_memory_todos_data_source.dart';

final _dataSource = InMemoryTodosDataSource();

Handler middleware(Handler handler) {
return handler
.use(requestLogger())
.use(provider<TodosDataSource>((_) => _dataSource));
}
info

We're providing a single instance of the TodosDataSource so we have a single source of data for the lifetime of the application.

In addition, we're using the requestLogger middleware from package:dart_frog to log all requests for debugging.

tip

Install and use the Dart Frog VS Code extension to easily create new middleware within your IDE.

Creating the /todos route

Next, delete the root route handler at routes/index.dart and create a route handler for the /todos endpoint by creating routes/todos/index.dart:

import 'dart:async';
import 'dart:io';

import 'package:dart_frog/dart_frog.dart';
import 'package:todos_data_source/todos_data_source.dart';

FutureOr<Response> onRequest(RequestContext context) async {
switch (context.request.method) {
case HttpMethod.get:
return _get(context);
case HttpMethod.post:
return _post(context);
case HttpMethod.delete:
case HttpMethod.head:
case HttpMethod.options:
case HttpMethod.patch:
case HttpMethod.put:
return Response(statusCode: HttpStatus.methodNotAllowed);
}
}

Future<Response> _get(RequestContext context) async {
final dataSource = context.read<TodosDataSource>();
final todos = await dataSource.readAll();
return Response.json(body: todos);
}

Future<Response> _post(RequestContext context) async {
final dataSource = context.read<TodosDataSource>();
final todo = Todo.fromJson(
await context.request.json() as Map<String, dynamic>,
);

return Response.json(
statusCode: HttpStatus.created,
body: await dataSource.create(todo),
);
}
tip

Install and use the Dart Frog VS Code extension to easily create new routes within your IDE.

note

We're using context.read<TodosDataSource> to access the provided instance of the TodosDataSource.

In this route handler, we only want to handle GET and POST requests so we're using a switch statement on context.request.method. If the HttpMethod is not GET or POST, our route handler responds with a 405 status code (method not allowed).

In addition, we're using the Response.json constructor to respond with Content-Type: application/json.

Next, we'll create a route handler for the /todos/<id> endpoint so that we can handle operations for a specific todo.

Creating the /todos/<id> route

We can create a dynamic route to handle matching and id by creating a file called: routes/todos/[id].dart.

info

Dynamic routes allow you to have one or more dynamic path segments in your route. Learn more about dynamic routes.

import 'dart:async';
import 'dart:io';

import 'package:dart_frog/dart_frog.dart';
import 'package:todos_data_source/todos_data_source.dart';

FutureOr<Response> onRequest(RequestContext context, String id) async {
final dataSource = context.read<TodosDataSource>();
final todo = await dataSource.read(id);

if (todo == null) {
return Response(statusCode: HttpStatus.notFound, body: 'Not found');
}

switch (context.request.method) {
case HttpMethod.get:
return _get(context, todo);
case HttpMethod.put:
return _put(context, id, todo);
case HttpMethod.delete:
return _delete(context, id);
case HttpMethod.head:
case HttpMethod.options:
case HttpMethod.patch:
case HttpMethod.post:
return Response(statusCode: HttpStatus.methodNotAllowed);
}
}

Future<Response> _get(RequestContext context, Todo todo) async {
return Response.json(body: todo);
}

Future<Response> _put(RequestContext context, String id, Todo todo) async {
final dataSource = context.read<TodosDataSource>();
final updatedTodo = Todo.fromJson(
await context.request.json() as Map<String, dynamic>,
);
final newTodo = await dataSource.update(
id,
todo.copyWith(
title: updatedTodo.title,
description: updatedTodo.description,
isCompleted: updatedTodo.isCompleted,
),
);

return Response.json(body: newTodo);
}

Future<Response> _delete(RequestContext context, String id) async {
final dataSource = context.read<TodosDataSource>();
await dataSource.delete(id);
return Response(statusCode: HttpStatus.noContent);
}
note

onRequest now has two parameters: RequestContext, and id. The id path segment is forwarded to the onRequest method call.

Just like in the /todos route handler, we are switching on the context.request.method and selectively handling GET, PUT, and DELETE requests.

Summary

Be sure to save all the changes and hot reload should kick in ⚡️

[hotreload] - Application reloaded.

You should now be able to make requests to create, read, update, and delete todos:

# Create a new todo
curl --request POST \
--url http://localhost:8080/todos \
--header 'Content-Type: application/json' \
--data '{
"title": "Take out trash"
}'

# Read all todos
curl --request GET \
--url http://localhost:8080/todos

# Read a specific todo by id
curl --request GET \
--url http://localhost:8080/todos/<id>

# Update a specific todo by id
curl --request PUT \
--url http://localhost:8080/todos/<id> \
--header 'Content-Type: application/json' \
--data '{
"title": "Take out trash!",
"isCompleted": true
}'

# Delete a specific todo by id
curl --request DELETE \
--url http://localhost:8080/todos/<id>
note

You should see detailed request logs in the console due to the requestLogger middleware that look similar to:

2022-08-09T17:43:35.816387  0:00:00.016484 GET     [200] /todos
2022-08-09T17:44:05.561021 0:00:00.022465 POST [201] /todos

🎉 Congrats, you've created a todos application using Dart Frog. View the full source code.