swift_composer 0.1.0 swift_composer: ^0.1.0 copied to clipboard
Extensible Object Manager with no boilerplate code using source_gen
swift_composer #
- warning: this module is experimental and under development. It's API is subjected to change
Swift Composer aims to turn dart modules into plugable application parts.
It uses source_gen to generate final application logic depending on imported modules and configuration hence no boilerplate code is created.
This module powers 'swift.shop' app engine. It is used to generate plugable client and server side routing, auto-serializable data models, configurable layouts and widgets system and more.
Installation #
- add
swift_composer
to your dependencies inpubspec.yaml
:
dependencies:
swift_composer: any
- declare a compiled part in your final application code:
import 'package:some_plugin';
part 'main.c.dart';
void main() {
$om.some_compiled_entrypoint.run();
}
- build
.c.dart
part
pub run build_runner build
If you are creating a web package the build will be executed automatically with
webdev serve/build
.
Features #
Requirements #
For any class to use swift composer features it needs to be declared as abstract
and decorated with @Compose
annotation. This allows code generator to generate
a final class with compiled methods, plugins and dependency injections.
@Compose
abstract class Foo {
}
Class Names #
@Compose
abstract class Foo {
@InjectClassName
String get className;
@InjectClassNames
List<String> get classNames;
}
All instances of Test
and its subtypes will have className
field populated
with this class full name and classNames
populated with full class hierarchy
path.
Above is useful for serialization as this field will contain source class name
even after compilation to *.js
etc.
Dependency Injection #
@Compose
abstract class Bar {
@Require
String barRequiredField;
}
@Compose
abstract class Test {
@Inject
Foo get injectedFoo;
@Factory
Foo createFoo();
@Factory
Bar createBar(String barRequiredField);
}
Methods decorated with Factory
will create a compiled subtype of return type.
Exact type returned will defined by imported modules and DI configuration.
For classes without any dependencies required for creation you can use Inject
annotation to generate shared instance.
Finding Class Subtypes
@Compose
abstract class Test {
@InjectInstances
Map<String, Foo> get instances;
@SubtypeFactory
Foo createFoo(String className);
}
Method decorated with SubtypeFactory
will return a subtype of Foo
depending
on passed className
parameter.
A getter decorated with InjectInstances
will contain a map indexed with class
names of all requirements free subtypes of Foo
.
Class Fields info and Compiled methods. #
Swift Composer adds tools to generate info of final class fields that can be used for example to generate JSON serialization.
const JsonField = true;
@Compose
abstract class TestSerializable {
@InjectClassName
String get className;
@JsonField
String foo;
@JsonField
String bar;
Map toJson() {
Map ret = new Map();
ret['className'] = className;
this.fieldsToJson(ret);
return ret;
}
@Compile
void fieldsToJson(Map target);
@CompileFieldsOfType
@AnnotatedWith("JsonField")
void _fieldsToJsonFoo(Map target, String name, String field) {
target[name] = field;
}
@CompileFieldsOfType
@AnnotatedWith("JsonField")
void _fieldsToJsonFoo(Map target, String name, int field) {
target[name] = field;
}
}
In above example, all subtypes of TestSerializable
will have toJson
that
will return all fields decorated with @JsonField
serialized.
Dart tree shaking algorithms will clear compiled code out of unused stubs.
Type Plugins #
Type plugins can modify objects data and behavior.
Fields compilation method works with plugins and will also compile plugin fields
so we can add a plugin for TestSerializable
from previous example.
abstract class TestPlugin extends TypePlugin<TestSerializable> {
@Field
String extraField = 'test';
}
Now, calling toJson
should return something like:
{
'className' : 'TestSerializable',
'foo' : 'something',
'bar' : 10,
'testPlugin.extraField': 'test'
}
We can also extend / change decorated classes behaviors using Plugable
and
Plugin
annotations.
With this customization point defined in parent class:
@Plugable
bool validate(int foo, int bar) {
return foo > bar;
}
Plugin class can customize behavior of such methods:
@Plugin
beforeValidate(int foo, int bar) {
bar = bar + 1;
}
@Plugin
afterValidate(bool ret) {
return !ret;
}
Development Info #
Running tests:
pub run build_runner build && dart test/swift_composer_test.dart