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Code generation for immutable classes that has a simple syntax/API without compromising on the features.

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Welcome to Freezed, yet another code generator for data-classes/unions/pattern-matching/cloning.

Motivation #

Dart is awesome, but defining a "model" can be tedious. We may have to:

  • define a constructor + the properties
  • override toString, operator ==, hashCode
  • implement a copyWith method to clone the object
  • handling de/serialization

On top of that, Dart is also missing features such as union types and pattern-matching.

Implementing all of this can take hundreds of lines, which are error-prone and the readability of your model significantly.

Freezed tries to fix that by implementing most of this for you, allowing you to focus on the definition of your model.

Before After
before before

Index #

How to use #

Install #

To use Freezed, you will need your typical build_runner/code-generator setup.
First, install build_runner and Freezed by adding them to your pubspec.yaml file:

If you are using creating a Flutter project:

flutter pub add freezed_annotation
flutter pub add --dev build_runner
flutter pub add --dev freezed
# if using freezed to generate fromJson/toJson, also add:
flutter pub add json_annotation
flutter pub add --dev json_serializable

If you are using creating a Dart project:

dart pub add freezed_annotation
dart pub add --dev build_runner
dart pub add --dev freezed
# if using freezed to generate fromJson/toJson, also add:
dart pub add json_annotation
dart pub add --dev json_serializable

This installs three packages:

Disabling invalid_annotation_target warning and warning in generates files. #

If you plan on using Freezed in combination with json_serializable, recent versions of json_serializable and meta may require you to disable the invalid_annotation_target warning.

To do that, you can add the following to an analysis_options.yaml at the root of your project:

analyzer:
  errors:
    invalid_annotation_target: ignore

Run the generator #

To run the code generator, execute the following command:

dart run build_runner build

For Flutter projects, you can also run:

flutter pub run build_runner build

Note that like most code-generators, Freezed will need you to both import the annotation (freezed_annotation) and use the part keyword on the top of your files.

As such, a file that wants to use Freezed will start with:

import 'package:freezed_annotation/freezed_annotation.dart';

part 'my_file.freezed.dart';

CONSIDER also importing package:flutter/foundation.dart.
The reason being, importing foundation.dart also imports classes to make an object nicely readable in Flutter's devtool.
If you import foundation.dart, Freezed will automatically do it for you.

Creating a Model using Freezed #

An example is better than a long abstract explanation, so here's a typical Freezed class:

// This file is "main.dart"
import 'package:freezed_annotation/freezed_annotation.dart';
import 'package:flutter/foundation.dart';

// required: associates our `main.dart` with the code generated by Freezed
part 'main.freezed.dart';
// optional: Since our Person class is serializable, we must add this line.
// But if Person was not serializable, we could skip it.
part 'main.g.dart';

@freezed
class Person with _$Person {
  const factory Person({
    required String firstName,
    required String lastName,
    required int age,
  }) = _Person;

  factory Person.fromJson(Map<String, Object?> json)
      => _$PersonFromJson(json);
}

The following snippet defines a model named Person:

  • Person has 3 properties: firstName, lastName and age
  • Because we are using @freezed, all of this class's properties are immutable.
  • Since we defined a fromJson, this class is de/serializable. Freezed will add a toJson method for us.
  • Freezed will also automatically generate:
    • a copyWith method, for cloning the object with different properties
    • a toString override listing all the properties of the object
    • an operator == and hashCode override (since Person is immutable)

From this example, we can notice a few things:

  • It is necessary to annotate our model with @freezed (or @Freezed/@unfreezed, more about that later).
    This annotation is what tells Freezed to generate code for that class.

  • We must also apply a mixin with the name of our class, prefixed by _$. This mixin is what defines the various properties/methods of our object.

  • When defining a constructor in a Freezed class, we should use the factory keyword as showcased (const is optional).
    The parameters of this constructor will be the list of all properties that this class contains.
    Parameters don't have to be named and required. Feel free to use positional optional parameters if you want!

Defining a mutable class instead of an immutable one #

So far, we've seen how to define a model where all of its properties are final; but you may want to define mutable properties in your model.

Freezed supports this, by replacing the @freezed annotation with @unfreezed:

@unfreezed
class Person with _$Person {
  factory Person({
    required String firstName,
    required String lastName,
    required final int age,
  }) = _Person;

  factory Person.fromJson(Map<String, Object?> json)
      => _$PersonFromJson(json);
}

This defines a model mostly identical to our previous snippets, but with the following differences:

  • firstName and lastName are now mutable. As such, we can write:

    void main() {
      var person = Person(firstName: 'John', lastName: 'Smith', age: 42);
    
      person.firstName = 'Mona';
      person.lastName = 'Lisa';
    }
    
  • age is still immutable, because we explicitly marked the property as final.

  • Person no-longer has a custom ==/hashCode implementation:

    void main() {
      var john = Person(firstName: 'John', lastName: 'Smith', age: 42);
      var john2 = Person(firstName: 'John', lastName: 'Smith', age: 42);
    
      print(john == john2); // false
    }
    
  • Of course, since our Person class is mutable, it is no-longer possible to instantiate it using const.

Allowing the mutation of Lists/Maps/Sets #

By default when using @freezed (but not @unfreezed), properties of type List/Map/Set are transformed to be immutable.

This means that writing the following will cause a runtime exception:

@freezed
class Example with _$Example {
  factory Example(List<int> list) = _Example;
}

void main() {
  var example = Example([]);
  example.list.add(42); // throws because we are mutating a collection
}

That behavior can be disabled by writing:

@Freezed(makeCollectionsUnmodifiable: false)
class Example with _$Example {
  factory Example(List<int> list) = _Example;
}

void main() {
  var example = Example([]);
  example.list.add(42); // OK
}

How copyWith works #

As explained before, when defining a model using Freezed, then the code-generator will automatically generate a copyWith method for us.
This method is used to clone an object with different values.

For example if we define:

@freezed
class Person with _$Person {
  factory Person(String name, int? age) = _Person;
}

Then we could write:

void main() {
  var person = Person('Remi', 24);

  // `age` not passed, its value is preserved
  print(person.copyWith(name: 'Dash')); // Person(name: Dash, age: 24)
  // `age` is set to `null`
  print(person.copyWith(age: null)); // Person(name: Remi, age: null)
}

Notice Freezed supports person.copyWith(age: null).

Going further: Deep copy #

While copyWith is very powerful in itself, it starts to get inconvenient on more complex objects.

Consider the following classes:

@freezed
class Company with _$Company {
  factory Company({String? name, required Director director}) = _Company;
}

@freezed
class Director with _$Director {
  factory Director({String? name, Assistant? assistant}) = _Director;
}

@freezed
class Assistant with _$Assistant {
  factory Assistant({String? name, int? age}) = _Assistant;
}

Then, from a reference on Company, we may want to perform changes on Assistant.
For example, to change the name of an assistant, using copyWith we would have to write:

Company company;

Company newCompany = company.copyWith(
  director: company.director.copyWith(
    assistant: company.director.assistant.copyWith(
      name: 'John Smith',
    ),
  ),
);

This works, but is relatively verbose with a lot of duplicates.
This is where we could use Freezed's "deep copy".

If a Freezed model contains properties that are also Freezed models, then the code-generator will offer an alternate syntax to the previous example:

Company company;

Company newCompany = company.copyWith.director.assistant(name: 'John Smith');

This snippet will achieve strictly the same result as the previous snippet (creating a new company with an updated assistant name), but no longer has duplicates.

Going deeper in this syntax, if instead, we wanted to change the director's name then we could write:

Company company;
Company newCompany = company.copyWith.director(name: 'John Doe');

Overall, based on the definitions of Company/Director/Assistant mentioned above, all the following "copy" syntaxes will work:

Company company;

company = company.copyWith(name: 'Google', director: Director(...));
company = company.copyWith.director(name: 'Larry', assistant: Assistant(...));

Null consideration

Some objects may also be null. For example, using our Company class, then Director's assistant may be null.

As such, writing:

Company company = Company(name: 'Google', director: Director(assistant: null));
Company newCompany = company.copyWith.director.assistant(name: 'John');

doesn't make sense.
We can't change the assistant's name if there is no assistant to begin with.

In that situation, company.copyWith.director.assistant will return null, causing our code to fail to compile.

To fix it, we can use the ?.call operator and write:

Company? newCompany = company.copyWith.director.assistant?.call(name: 'John');

Adding getters and methods to our models #

Sometimes, you may want to manually define methods/properties in our classes.
But you will quickly notice that if you try to do:

@freezed
class Person with _$Person {
  const factory Person(String name, {int? age}) = _Person;

  void method() {
    print('hello world');
  }
}

then it won't work.

For that to work, we need an extra step: We need to define a private empty constructor:

@freezed
class Person with _$Person {
  // Added constructor. Must not have any parameter
  const Person._();

  const factory Person(String name, {int? age}) = _Person;

  void method() {
    print('hello world');
  }
}

Asserts #

Dart does not allow adding assert(...) statements to a factory constructor.
As such, to add asserts to your Freezed classes, you will need the @Assert decorator:

class Person with _$Person {
  @Assert('name.isNotEmpty', 'name cannot be empty')
  @Assert('age >= 0')
  factory Person({
    String? name,
    int? age,
  }) = _Person;
}

Default values #

Similarly to asserts, Dart does not allow "redirecting factory constructors" to specify default values.

As such, if you want to specify default values for your properties, you will need the @Default annotation:

class Example with _$Example {
  const factory Example([@Default(42) int value]) = _Example;
}

NOTE:
If you are using serialization/deserialization, this will automatically add a @JsonKey(defaultValue: <something>) for you.

Decorators and comments #

Freezed supports property and class level decorators/documentation by decorating/documenting their respective parameter and constructor definition.

Consider:

@freezed
class Person with _$Person {
  const factory Person({
    String? name,
    int? age,
    Gender? gender,
  }) = _Person;
}

If you want to document name, you can do:

@freezed
class Person with _$Person {
  const factory Person({
    /// The name of the user.
    ///
    /// Must not be null
    String? name,
    int? age,
    Gender? gender,
  }) = _Person;
}

If you want to mark the property gender as @deprecated, then you can do:

@freezed
class Person with _$Person {
  const factory Person({
    String? name,
    int? age,
    @deprecated Gender? gender,
  }) = _Person;
}

This will deprecate both:

  • The constructor
    Person(gender: Gender.something); // gender is deprecated
    
  • The generated class's constructor:
    _Person(gender: Gender.something); // gender is deprecated
    
  • the property:
    Person person;
    print(person.gender); // gender is deprecated
    
  • the copyWith parameter:
    Person person;
    person.copyWith(gender: Gender.something); // gender is deprecated
    

Similarly, if you want to decorate the generated class you can decorate the defining factory constructor.

As such, to deprecate _Person, you could do:

@freezed
class Person with _$Person {
  @deprecated
  const factory Person({
    String? name,
    int? age,
    Gender? gender,
  }) = _Person;
}

Union types and Sealed classes #

Coming from other languages, you may be used with features like "union types"/"sealed classes"/pattern matching.
These are powerful tools in combination with a type system, but Dart currently does not support them.

But fear not, Freezed supports them, generating a few utilities to help you with those.

Long story short, in any Freezed class, you can writing multiple constructors:

@freezed
class Union with _$Union {
  const factory Union.data(int value) = Data;
  const factory Union.loading() = Loading;
  const factory Union.error([String? message]) = Error;
}

By doing this, our model now can be in different mutually exclusive states.

In particular, this snippet defines a model Union, and that model has 3 possible states:

  • data
  • loading
  • error

Note how we gave meaningful names to the right hand of the factory constructors we defined. They will come in handy later.

One thing you may also notice is that with this example, then we can no-longer write code such as:

void main() {
  Union union = Union.data(42);

  print(union.value); // compilation error: property value does not exist
}

Let's see why that is the case in the following section.

Shared properties #

When defining multiple constructors, you will lose the ability to read properties that are not common to all constructors:

For example, if you write:

@freezed
class Example with _$Example {
  const factory Example.person(String name, int age) = Person;
  const factory Example.city(String name, int population) = City;
}

Then you will be unable to read age and population directly:

var example = Example.person('Remi', 24);
print(example.age); // does not compile!

On the other hand, you can read properties that are defined on all constructors.
For example, the name variable is common to both Example.person and Example.city constructors.

As such we can write:

var example = Example.person('Remi', 24);
print(example.name); // Remi
example = Example.city('London', 8900000);
print(example.name); // London

The same logic can be applied to copyWith too.
We can use copyWith with properties defined on all constructors:

var example = Example.person('Remi', 24);
print(example.copyWith(name: 'Dash')); // Example.person(name: Dash, age: 24)

example = Example.city('London', 8900000);
print(example.copyWith(name: 'Paris')); // Example.city(name: Paris, population: 8900000)

On the other hand, properties that are unique to a specific constructor aren't available:

var example = Example.person('Remi', 24);

example.copyWith(age: 42); // compilation error, parameter `age` does not exist

To solve this problem, we need check the state of our object using what we call "pattern matching".

Using pattern matching to read non-shared properties #

For this section, let's consider the following union:

@freezed
class Example with _$Example {
  const factory Example.person(String name, int age) = Person;
  const factory Example.city(String name, int population) = City;
}

Let's see how we can use pattern matching to read the content of an Example instance.

For this, we have a few solutions:

  • (preferred) Using the utilities (when/map) generated by Freezed to inspect the content of our object
  • (discouraged) Using is/as to cast an Example variable into either a Person or a City

When

The when method is the equivalent to pattern matching with destructing.
The prototype of the method depends on the constructors defined.

For example, with:

@freezed
class Union with _$Union {
  const factory Union(int value) = Data;
  const factory Union.loading() = Loading;
  const factory Union.error([String? message]) = ErrorDetails;
}

Then when will be:

var union = Union(42);

print(
  union.when(
    (int value) => 'Data $value',
    loading: () => 'loading',
    error: (String? message) => 'Error: $message',
  ),
); // Data 42

Whereas if we defined:

@freezed
class Model with _$Model {
  factory Model.first(String a) = First;
  factory Model.second(int b, bool c) = Second;
}

Then when will be:

var model = Model.first('42');

print(
  model.when(
    first: (String a) => 'first $a',
    second: (int b, bool c) => 'second $b $c'
  ),
); // first 42

Notice how each callback matches with a constructor's name and prototype.

NOTE:
All callbacks are required and must not be null.
If that is not what you want, consider using maybeWhen.

Map

The map methods are equivalent to when, but without destructuring.

Consider this class:

@freezed
class Model with _$Model {
  factory Model.first(String a) = First;
  factory Model.second(int b, bool c) = Second;
}

With such class, while when will be:

var model = Model.first('42');

print(
  model.when(
    first: (String a) => 'first $a',
    second: (int b, bool c) => 'second $b $c'
  ),
); // first 42

map will instead be:

var model = Model.first('42');

print(
  model.map(
    first: (First value) => 'first ${value.a}',
    second: (Second value) => 'second ${value.b} ${value.c}'
  ),
); // first 42

This can be useful if you want to do complex operations, like copyWith/toString for example:

var model = Model.second(42, false)
print(
  model.map(
    first: (value) => value,
    second: (value) => value.copyWith(c: true),
  )
); // Model.second(b: 42, c: true)

Using is/as to read the content of a Freezed class

Alternatively, one (less desirable) solution is to use the is/as keywords.
More specifically, you can write:

void main() {
  Example value;

  if (value is Person) {
    // By using `is`, this allows the compiler to know that "value" is a Person instance
    // and therefore allows us to read all of its properties.
    print(value.age);
    value = value.copyWith(age: 42);
  }

  // Alternatively we can use `as` if we are certain of type of an object:
  Person person = value as Person;
  print(person.age);
}

Note:
Using is and as, while possible, is discouraged.

The reasoning is that they are not "exhaustive". See https://www.fullstory.com/blog/discriminated-unions-and-exhaustiveness-checking-in-typescript/

Mixins and Interfaces for individual classes for union types #

When you have multiple types in the same class you might want to make one of those types to implement a interface or mixin a class. You can do that using the @Implements decorator or @With respectively. In this case City is implementing with GeographicArea.

abstract class GeographicArea {
  int get population;
  String get name;
}

@freezed
class Example with _$Example {
  const factory Example.person(String name, int age) = Person;

  @Implements<GeographicArea>()
  const factory Example.city(String name, int population) = City;
}

In case you want to specify a generic mixin or interface you need to declare it as a string using the With.fromString constructor, Implements.fromString respectively. Similar Street is mixing with AdministrativeArea<House>.

abstract class GeographicArea {}
abstract class House {}
abstract class Shop {}
abstract class AdministrativeArea<T> {}

@freezed
class Example with _$Example {
  const factory Example.person(String name, int age) = Person;

  @With<AdministrativeArea<House>>()
  const factory Example.street(String name) = Street;

  @With<House>()
  @Implements<Shop>()
  @Implements<GeographicArea>()
  const factory Example.city(String name, int population) = City;
}

Note: You need to make sure that you comply with the interface requirements by implementing all the abstract members. If the interface has no members or just fields, you can fulfil the interface contract by adding them in the constructor of the union type. Keep in mind that if the interface defines a method or a getter, that you implement in the class, you need to use the Adding getters and methods to our models instructions.

Note 2: You cannot use @With/@Implements with freezed classes. Freezed classes can neither be extended nor implemented.

FromJson/ToJson #

While Freezed will not generate your typical fromJson/toJson by itself, it knows what json_serializable is.

Making a class compatible with json_serializable is very straightforward.

Consider this snippet:

import 'package:freezed_annotation/freezed_annotation.dart';

part 'model.freezed.dart';

@freezed
class Model with _$Model {
  factory Model.first(String a) = First;
  factory Model.second(int b, bool c) = Second;
}

The changes necessary to make it compatible with json_serializable consists of two lines:

  • a new part: part 'model.g.dart';
  • a new constructor on the targeted class: factory Model.fromJson(Map<String, dynamic> json) => _$ModelFromJson(json);

The end result is:

import 'package:freezed_annotation/freezed_annotation.dart';

part 'model.freezed.dart';
part 'model.g.dart';

@freezed
class Model with _$Model {
  factory Model.first(String a) = First;
  factory Model.second(int b, bool c) = Second;

  factory Model.fromJson(Map<String, dynamic> json) => _$ModelFromJson(json);
}

Don't forget to add json_serializable to your pubspec.yaml:

dev_dependencies:
  json_serializable:

That's it!
With these changes, Freezed will automatically ask json_serializable to generate all the necessary fromJson/toJson.

Note:
Freezed will only generate a fromJson if the factory is using =>.

fromJSON - classes with multiple constructors #

For classes with multiple constructors, Freezed will check the JSON response for a string element called runtimeType and choose the constructor to use based on its value. For example, given the following constructors:

@freezed
class MyResponse with _$MyResponse {
  const factory MyResponse(String a) = MyResponseData;
  const factory MyResponse.special(String a, int b) = MyResponseSpecial;
  const factory MyResponse.error(String message) = MyResponseError;

  factory MyResponse.fromJson(Map<String, dynamic> json) => _$MyResponseFromJson(json);
}

Then Freezed will use each JSON object's runtimeType to choose the constructor as follows:

[
  {
    "runtimeType": "default",
    "a": "This JSON object will use constructor MyResponse()"
  },
  {
    "runtimeType": "special",
    "a": "This JSON object will use constructor MyResponse.special()",
    "b": 42
  },
  {
    "runtimeType": "error",
    "message": "This JSON object will use constructor MyResponse.error()"
  }
]

You can customize key and value with something different using @Freezed and @FreezedUnionValue decorators:

@Freezed(unionKey: 'type', unionValueCase: FreezedUnionCase.pascal)
class MyResponse with _$MyResponse {
  const factory MyResponse(String a) = MyResponseData;

  @FreezedUnionValue('SpecialCase')
  const factory MyResponse.special(String a, int b) = MyResponseSpecial;

  const factory MyResponse.error(String message) = MyResponseError;

  // ...
}

which would update the previous json to:

[
  {
    "type": "Default",
    "a": "This JSON object will use constructor MyResponse()"
  },
  {
    "type": "SpecialCase",
    "a": "This JSON object will use constructor MyResponse.special()",
    "b": 42
  },
  {
    "type": "Error",
    "message": "This JSON object will use constructor MyResponse.error()"
  }
]

If you want to customize key and value for all the classes, you can specify it inside your build.yaml file, for example:

targets:
  $default:
    builders:
      freezed:
        options:
          union_key: type
          union_value_case: pascal

If you don't control the JSON response, then you can implement a custom converter. Your custom converter will need to implement its own logic for determining which constructor to use.

class MyResponseConverter implements JsonConverter<MyResponse, Map<String, dynamic>> {
  const MyResponseConverter();

  @override
  MyResponse fromJson(Map<String, dynamic> json) {
    // type data was already set (e.g. because we serialized it ourselves)
    if (json['runtimeType'] != null) {
      return MyResponse.fromJson(json);
    }
    // you need to find some condition to know which type it is. e.g. check the presence of some field in the json
    if (isTypeData) {
      return MyResponseData.fromJson(json);
    } else if (isTypeSpecial) {
      return MyResponseSpecial.fromJson(json);
    } else if (isTypeError) {
      return MyResponseError.fromJson(json);
    } else {
      throw Exception('Could not determine the constructor for mapping from JSON');
    }
 }

  @override
  Map<String, dynamic> toJson(MyResponse data) => data.toJson();
}

To then apply your custom converter pass the decorator to a constructor parameter.

@freezed
class MyModel with _$MyModel {
  const factory MyModel(@MyResponseConverter() MyResponse myResponse) = MyModelData;

  factory MyModel.fromJson(Map<String, dynamic> json) => _$MyModelFromJson(json);
}

By doing this, json serializable will use MyResponseConverter.fromJson() and MyResponseConverter.toJson() to convert MyResponse.

You can also use a custom converter on a constructor parameter contained in a List.

@freezed
class MyModel with _$MyModel {
  const factory MyModel(@MyResponseConverter() List<MyResponse> myResponse) = MyModelData;

  factory MyModel.fromJson(Map<String, dynamic> json) => _$MyModelFromJson(json);
}

Note:
In order to serialize nested lists of freezed objects, you are supposed to either specify a @JsonSerializable(explicitToJson: true) or change explicit_to_json inside your build.yaml file (see the documentation).

Deserializing generic classes #

In order to de/serialize generic typed freezed objects, you can enable genericArgumentFactories.
All you need to do is change the signature of the fromJson method and add genericArgumentFactories: true to the freezed configuration.

@Freezed(genericArgumentFactories: true)
class ApiResponse<T> with _$ApiResponse {
  const factory ApiResponse<T>.data(T data) = ApiResponseData;
  const factory ApiResponse<T>.error(String message) = ApiResponseError;

  factory ApiResponse<T>.fromJson(Map<String, dynamic> json, T Function(Object?) fromJsonT) => _$ApiResponseFromJson(json, fromJsonT);
}

Alternatively, you can enable genericArgumentFactories for the whole project by modifying your build.yaml file to include the following:

targets:
  $default:
    builders:
      freezed:
        options:
          generic_argument_factories: true

What about @JsonKey annotation?

All decorators passed to a constructor parameter are "copy-pasted" to the generated property too.
As such, you can write:

@freezed
class Example with _$Example {
  factory Example(@JsonKey(name: 'my_property') String myProperty) = _Example;

  factory Example.fromJson(Map<String, dynamic> json) => _$ExampleFromJson(json);
}

What about @JsonSerializable annotation?

You can pass @JsonSerializable annotation by placing it over constructor e.g.:

@freezed
class Example with _$Example {
  @JsonSerializable(explicitToJson: true)
  factory Example(@JsonKey(name: 'my_property') SomeOtherClass myProperty) = _Example;

  factory Example.fromJson(Map<String, dynamic> json) => _$ExampleFromJson(json);
}

If you want to define some custom json_serializable flags for all the classes (e.g. explicit_to_json or any_map) you can do it via build.yaml file as described here.

See also the decorators section

Configurations #

Freezed offers various options to customize the generated code. For example, you may want to disable the generation of when methods.

To do so, there are two possibilities:

Changing the behavior for a specific model #

If you want to customize the generated code for only one specific class, you can do so by using a different annotation:

@Freezed()
class Person with _$Person {
  factory Person(String name, int age) = _Person;
}

By doing so, you can now pass various parameters to @Freezed to change the output:

@Freezed(
  // Disable the generation of copyWith/==
  copyWith: false,
  equal: false,
)
class Person with _$Person {...}

To view all the possibilities, see the documentation of @Freezed: https://pub.dev/documentation/freezed_annotation/latest/freezed_annotation/Freezed-class.html

Changing the behavior for the entire project #

Instead of applying your modification to a single class, you may want to apply it to all Freezed models at the same time.

You can do so by customizing a file called build.yaml
This file is an optional configuration file that should be placed next to your pubspec.yaml:

my_project_folder/
  pubspec.yaml
  build.yaml
  lib/

There, you will be able to change the same options as the options found in @Freezed (see above) by writing:

targets:
  $default:
    builders:
      freezed:
        options:
          # Disable the generation of copyWith/== for the entire project
          copy_with: false
          equal: false

Utilities #

Freezed extension for VSCode #

The Freezed extension might help you work faster with freezed. For example :

  • Use Ctrl+Shift+B (Cmd+Shift+B on Mac) to quickly build using build_runner.
  • Quickly generate a Freezed class by using Ctrl+Shift+P > Generate Freezed class.

Freezed extension for IntelliJ/Android Studio #

You can get Live Templates for boiler plate code here.

Example:

  • type freezedClass and press Tab to generate a freezed class
    @freezed
    class Demo with _$Demo {
    }
    
  • type freezedFromJson and press Tab to generate the fromJson method for json_serializable
    factory Demo.fromJson(Map<String, dynamic> json) => _$DemoFromJson(json);
    

Sponsors #

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Publisher

verified publisherdash-overflow.net

Code generation for immutable classes that has a simple syntax/API without compromising on the features.

Repository (GitHub)
View/report issues

License

unknown (license)

Dependencies

analyzer, build, build_config, collection, freezed_annotation, json_annotation, meta, source_gen

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