.idea | ||
angel_serialize | ||
angel_serialize_generator | ||
tool | ||
.gitignore | ||
.travis.yml | ||
README.md |
serialize
Source-generated serialization for Dart objects. This package uses package:source_gen
to eliminate
the time you spend writing boilerplate serialization code for your models.
package:angel_serialize
also powers package:angel_orm
.
Usage
In your pubspec.yaml
, you need to install the following dependencies:
dependencies:
angel_serialize: ^2.0.0
dev_dependencies:
angel_serialize_generator: ^2.0.0
build_runner: ^0.7.0
With the recent updates to package:build_runner
, you can build models in
lib/src/models/**.dart
automatically by running pub run build_runner build
.
To tweak this: https://pub.dartlang.org/packages/build_config
If you want to watch for file changes and re-build when necessary, replace the build
call
with a call to watch
. They take the same parameters.
Models
There are a few changes opposed to normal Model classes. You need to add a @serializable
annotation to your model
class to have it serialized, and a serializable model class's name should also start
with a leading underscore.
In addition, you may consider using an abstract
class to ensure immutability
of models.s
Rather you writing the public class, angel_serialize
does it for you. This means that the main class can have
its constructors automatically generated, in addition into serialization functions.
For example, say we have a Book
model. Create a class named _Book
:
library angel_serialize.test.models.book;
import 'package:angel_framework/common.dart';
import 'package:angel_serialize/angel_serialize.dart';
part 'book.g.dart';
@serializable
abstract class _Book extends Model {
String get author;
String get title;
String get description;
int get pageCount;
}
The following files will be generated:
book.g.dart
book.serializer.g.dart
Serialization
You can use the generated files as follows:
myFunction() {
var warAndPeace = new Book(
author: 'Leo Tolstoy',
title: 'War and Peace',
description: 'You will cry after reading this.',
pageCount: 1225
);
// Easily serialize models into Maps
var map = BookSerializer.toMap(warAndPeace);
// Also deserialize from Maps
var book = BookSerialize.fromMap(map);
print(book.title); // 'War and Peace'
// For compatibility with `JSON.encode`, a `toJson` method
// is included that forwards to `BookSerializer.toMap`:
expect(book.toJson(), map);
}
As of 2.0.2
, the generated output also includes information
about the serialized names of keys on your model class.
myOtherFunction() {
// Relying on the serialized key of a field? No worries.
map[BookFields.author] = 'Zora Neale Hurston';
}
}
Customizing Serialization
Currently, these serialization methods are supported:
- to
Map
- to JSON
You can customize these by means of serializers
:
@Serializable(serializers: const [Serializers.map, Serializers.json])
class _MyClass extends Model {}
Aliases
Whereas Dart fields conventionally are camelCased, most database columns tend to be snake_cased. This is not a problem, because we can define an alias for a field.
By default angel_serialize
will transform keys into snake case. Use Alias
to
provide a custom name, or pass autoSnakeCaseNames
: false
to the builder;
@serializable
abstract class _Spy extends Model {
/// Will show up as 'agency_id' in serialized JSON.
///
/// When deserializing JSON, instead of searching for an 'agencyId' key,
/// it will use 'agency_id'.
///
/// Hooray!
String agencyId;
@Alias('foo')
String someOtherField;
}
You can also override autoSnakeCaseNames
per model:
@Serializable(autoSnakeCaseNames: false)
abstract class _OtherCasing extends Model {
String camelCasedField;
}
Excluding Keys
In pratice, there may keys that you want to exclude from JSON.
To accomplish this, simply annotate them with @exclude
:
@serializable
abstract class _Whisper extends Model {
/// Will never be serialized to JSON
@exclude
String secret;
}
There are times, however, when you want to only exclude either serialization or deserialization, but not both. For example, you might want to deserialize passwords from a database without sending them to users as JSON.
In this case, use canSerialize
or canDeserialize
:
@serializable
abstract class _Whisper extends Model {
/// Will never be serialized to JSON
///
/// ... But it can be deserialized
@Exclude(canDeserialize: true)
String secret;
}
Nesting
angel_serialize
also supports a few types of nesting of @serializable
classes:
- As a class member, ex.
Book myField
- As the type argument to a
List
, ex.List<Book>
- As the second type argument to a
Map
, ex.Map<String, Book>
In other words, the following are all legal, and will be serialized/deserialized.
You can use either the underscored name of a child class (ex. _Book
), or the
generated class name (ex Book
):
@serializable
abstract class _Author extends Model {
List<Book> books;
Book newestBook;
Map<String, Book> booksByIsbn;
}
If your model (Author
) depends on a model defined in another file (Book
),
then you will need to generate book.g.dart
before, author.g.dart
,
in a separate build action. This way, the analyzer can resolve the Book
type.
ID and Dates
This package will automatically generate id
, createdAt
, and updatedAt
fields for you,
in the style of an Angel Model
. To disable this, set autoIdAndDateFields
to false
in the
builder constructor.
You can also override autoIdAndDateFields
per model:
@Serializable(autoIdAndDateFields: false)
abstract class _Skinny extends Model {}
TypeScript Definitions
It is quite common to build frontends with JavaScript and/or TypeScript, so why not generate typings as well?
To accomplish this, add Serializers.typescript
to your @Serializable()
declaration:
@Serializable(serializers: const [Serializers.map, Serializers.json, Serializers.typescript])
class _Foo extends Model {}
The aforementioned _Author
class will generate the following in author.d.ts
:
interface Author {
id: string;
name: string;
age: number;
books: Book[];
newest_book: Book;
created_at: any;
updated_at: any;
}
interface Library {
id: string;
collection: BookCollection;
created_at: any;
updated_at: any;
}
interface BookCollection {
[key: string]: Book;
}
Fields with an @Exclude()
that specifies canSerialize: false
will not be present in the
TypeScript definition. The rationale for this is that if a field (i.e. password
) will
never be sent to the client, the client shouldn't even know the field exists.
Constructor Parameters
Sometimes, you may need to have custom constructor parameters, for example, when
using depedency injection frameworks. For these cases, angel_serialize
can forward
custom constructor parameters.
The following:
@serializable
abstract class _Bookmark extends _BookmarkBase {
@exclude
final Book book;
int get page;
String get comment;
_Bookmark(this.book);
}
Generates:
class Bookmark extends _Bookmark {
Bookmark(Book book,
{this.id,
this.page,
this.comment,
this.createdAt,
this.updatedAt})
: super(book);
@override
final String id;
// ...
}