reflection_factory 1.2.25 reflection_factory: ^1.2.25 copied to clipboard
Allows Dart reflection with an easy approach, even for third-party classes, using code generation portable for all Dart platforms.
reflection_factory #
reflection_factory
allows Dart reflection with an easy approach, even for third-party classes,
using code generation portable for all Dart platforms.
Usage #
To enable/generate reflection for some class/type, you can use two approaches:
-
@EnableReflection()
:Annotation that indicates that a specific class/type will have reflection.
-
@ReflectionBridge([User, Profile])
:Annotation that indicates through a bridge class that the types (
User
andProfile
) will have reflection.
@EnableReflection #
The annotations @EnableReflection
is used above your class/type
that you want to have reflection enabled.
File: some_source_file.dart
:
import 'package:reflection_factory/reflection_factory.dart';
// Add a reference to the code generated by:
// $> dart run build_runner build
part 'some_source_file.reflection.g.dart';
// Indicates that reflection for class `User` will be generated/enabled:
@EnableReflection()
class User {
String? email;
String pass;
User(this.email, this.pass);
User.empty() : this(null,'') ;
bool get hasEmail => email != null;
bool checkPassword(String pass) {
return this.pass == pass;
}
}
void main() {
var user = User('joe@mail.com', '123');
// The generated reflection:
var userReflection = user.reflection;
var fieldEmail = userReflection.field('email')!;
print('email: ${fieldEmail.get()}');
var methodCheckPassword = userReflection.method('checkPassword')!;
var passOk1 = methodCheckPassword.invoke(['wrong']); // false
print('pass("wrong"): $passOk1');
var passOk2 = methodCheckPassword.invoke(['123']); // true
print('pass("123"): $passOk2');
// Using the generated `toJson` extension method:
print('User JSON:');
print(user.toJson());
// Using the generated `toJsonEncoded` extension method:
print('User JSON encoded:');
print(user.toJsonEncoded());
// Accessing reflection through class:
var userReflection2 = User$reflection();
// Creating an `User` instance from default or empty constructor:
var user2 = userReflection2.createInstance()!;
user2.email = 'smith@mail.com';
user2.pass = 'abc';
print('User 2 JSON:');
print(user2.toJson());
}
OUTPUT:
email: joe@mail.com
pass("wrong"): false
pass("123"): true
User JSON:
{email: joe@mail.com, hasEmail: true, pass: 123}
User JSON encoded:
{"email":"joe@mail.com","hasEmail":true,"pass":"123"}
User 2 JSON:
{email: smith@mail.com, hasEmail: true, pass: abc}
@ReflectionBridge #
The annotations @ReflectionBridge
is used above a bridge class,
and indicates that third-party types will have reflection generated.
File: some_source_file.dart
:
import 'package:reflection_factory/reflection_factory.dart';
// Class `User` is from a third-party package:
import 'package:some_api/user.dart';
// Add a reference to the code generated by:
// $> dart run build_runner build
part 'some_source_file.reflection.g.dart';
// Indicates that reflection for class `User` will be generated/enabled
// through a bridge class:
@ReflectionBridge([User])
class UserReflectionBridge {}
void main() {
var user = User('joe@mail.com', '123');
// The generated reflection through bridge class:
var userReflection = UserReflectionBridge().reflection(user);
var fieldEmail = userReflection.field('email')!;
print('email: ${fieldEmail.get()}');
print('User JSON encoded:');
print(user.toJsonEncoded());
}
OUTPUT:
email: joe@mail.com
User JSON encoded:
{"email":"joe@mail.com","pass":"123","hasEmail":true}
@ClassProxy #
Here's an example to create a class proxy that can intercept calls to its methods:
proxies.dart
:
import 'package:reflection_factory/reflection_factory.dart';
import 'package:mime/mime.dart';
part 'proxies.reflection.g.dart';
@ClassProxy('MimeTypeResolver')
class MimeTypeResolverProxy implements ClassProxyListener {
@override
Object? onCall(instance, String methodName, Map<String, dynamic> parameters,
TypeReflection? returnType) {
var call = '$instance -> $methodName( $parameters ) -> $returnType';
calls.add(call);
print('CALL>> $call');
return call;
}
}
One common use case is to have a proxy to a class without need to import its package in the code, having only the class structure methods in the proxy:
proxies_detached.dart
:
import 'package:reflection_factory/reflection_factory.dart';
part 'proxies_detached.reflection.g.dart';
@ClassProxy('MimeTypeResolver', libraryPath: 'package:mime/mime.dart')
class MimeTypeResolverProxy implements ClassProxyListener {
@override
Object? onCall(instance, String methodName, Map<String, dynamic> parameters,
TypeReflection? returnType) {
var call = '$instance -> $methodName( $parameters ) -> $returnType';
calls.add(call);
print('CALL>> $call');
return call;
}
}
Using the proxy:
import 'proxies_detached.dart';
void main() {
var proxy = MimeTypeResolverProxy();
var proxyResult = proxy.lookup('path/foo'); // `onCall` returned value.
}
part
directive #
The generated code will be in a separated file referenced by
a part
directive in your code file:
file user_file.dart
:
import 'package:reflection_factory/reflection_factory.dart';
// The reference to the generated reflection code:
part 'user_file.reflection.g.dart';
@EnableReflection()
class User {
String name;
String? email;
User(this.name, this.email);
User.empty() : this('','') ;
}
You can also use a subdirectory to have the generated reflection files:
file user_file.dart
:
import 'package:reflection_factory/reflection_factory.dart';
// The reference to the generated reflection code inside a subdirectory:
part 'reflection/user_file.g.dart';
@EnableReflection()
class User {
//...
}
The builder will automatically detect the part
directive and identify if the
generated code needs to be in a subdirectory or not,
but always using the parent file name (user_file.dart
)
in the generated file name (user_file.reflection.g.dart
or reflection/user_file.g.dart
).
Dependencies #
You need to add 2 dependencies in your project:
File: pubspec.yaml
dependencies:
reflection_factory: ^1.2.10
dev_dependencies:
build_runner: ^2.2.0
Building/Generating Code #
To generate the reflection code just run build_runner
in your Dart project:
$> dart run build_runner build
Options #
You can configure the builder declaring a build.yaml
file in your project:
File: build.yaml
targets:
$default:
builders:
reflection_factory:
options:
verbose: true
sequential: true
timeout: 2 sec
- Options:
verbose
: Iftrue
builds the reflection code in verbose mode (default:false
).sequential
: Iftrue
will process theBuildStep
s sequentially. (default:true
).timeout
: The sequentialBuildStep
timeout (default:30 sec
).
Source #
The official source code is hosted @ GitHub:
Features and bugs #
Please file feature requests and bugs at the issue tracker.
Contribution #
Any help from the open-source community is always welcome and needed:
- Found an issue?
- Please fill a bug report with details.
- Wish a feature?
- Open a feature request with use cases.
- Are you using and liking the project?
- Promote the project: create an article, do a post or make a donation.
- Are you a developer?
- Fix a bug and send a pull request.
- Implement a new feature.
- Improve the Unit Tests.
- Have you already helped in any way?
- Many thanks from me, the contributors and everybody that uses this project!
If you donate 1 hour of your time, you can contribute a lot, because others will do the same, just be part and start with your 1 hour.
Author #
Graciliano M. Passos: gmpassos@GitHub.