Binder
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binder Classes Binder

Binder abstract#

abstract class Binder

Core interface for registering and resolving dependencies.

Binder abstracts the concrete DI container (be it GetIt, a simple map, or any other implementation) behind a uniform API used by Module.binds and Module.exports.

Dependency resolution follows the order: Local -> Imports -> Parent.

class NetworkModule extends Module {
  @override
  void binds(Binder i) {
    i.registerLazySingleton<HttpClient>(() => HttpClient());
    i.registerFactory<ApiService>(() => ApiService(i.get<HttpClient>()));
  }
}

See also:

Implementers

Constructors#

Binder()#

Binder()

Properties#

hashCode no setter inherited#

int get hashCode

The hash code for this object.

A hash code is a single integer which represents the state of the object that affects operator == comparisons.

All objects have hash codes. The default hash code implemented by Object represents only the identity of the object, the same way as the default operator == implementation only considers objects equal if they are identical (see identityHashCode).

If operator == is overridden to use the object state instead, the hash code must also be changed to represent that state, otherwise the object cannot be used in hash based data structures like the default Set and Map implementations.

Hash codes must be the same for objects that are equal to each other according to operator ==. The hash code of an object should only change if the object changes in a way that affects equality. There are no further requirements for the hash codes. They need not be consistent between executions of the same program and there are no distribution guarantees.

Objects that are not equal are allowed to have the same hash code. It is even technically allowed that all instances have the same hash code, but if clashes happen too often, it may reduce the efficiency of hash-based data structures like HashSet or HashMap.

If a subclass overrides hashCode, it should override the operator == operator as well to maintain consistency.

Inherited from Object.

Implementation
external int get hashCode;

runtimeType no setter inherited#

Type get runtimeType

A representation of the runtime type of the object.

Inherited from Object.

Implementation
external Type get runtimeType;

Methods#

addImports()#

void addImports(List<Binder> binders)

Appends binders to the list of imported scopes searched during dependency resolution.

Implementation
void addImports(List<Binder> binders);

contains()#

bool contains(Type type)

Returns true if type is registered in any reachable scope (local, imports, or parent chain).

Implementation
bool contains(Type type);

get()#

T get<T extends Object>()

Resolves a dependency of type T.

Throws DependencyNotFoundException if the type is not registered.

Implementation
T get<T extends Object>();

noSuchMethod() inherited#

dynamic noSuchMethod(Invocation invocation)

Invoked when a nonexistent method or property is accessed.

A dynamic member invocation can attempt to call a member which doesn't exist on the receiving object. Example: 

dynamic object = 1;
object.add(42); // Statically allowed, run-time error

This invalid code will invoke the noSuchMethod method of the integer 1 with an Invocation representing the .add(42) call and arguments (which then throws).

Classes can override noSuchMethod to provide custom behavior for such invalid dynamic invocations.

A class with a non-default noSuchMethod invocation can also omit implementations for members of its interface. Example: 

class MockList<T> implements List<T> {
  noSuchMethod(Invocation invocation) {
    log(invocation);
    super.noSuchMethod(invocation); // Will throw.
  }
}
void main() {
  MockList().add(42);
}

This code has no compile-time warnings or errors even though the MockList class has no concrete implementation of any of the List interface methods. Calls to List methods are forwarded to noSuchMethod, so this code will log an invocation similar to Invocation.method(#add, [42]) and then throw.

If a value is returned from noSuchMethod, it becomes the result of the original invocation. If the value is not of a type that can be returned by the original invocation, a type error occurs at the invocation.

The default behavior is to throw a NoSuchMethodError.

Inherited from Object.

Implementation
@pragma("vm:entry-point")
@pragma("wasm:entry-point")
external dynamic noSuchMethod(Invocation invocation);

parent()#

T parent<T extends Object>()

Resolves a dependency of type T from the parent scope.

Throws DependencyNotFoundException if the parent scope does not contain the requested type.

Implementation
T parent<T extends Object>();

registerFactory()#

void registerFactory<T extends Object>(T Function() factory)

Registers a factory for type T.

The factory closure is called on every get call, producing a new instance each time.

Implementation
void registerFactory<T extends Object>(T Function() factory);

registerLazySingleton()#

void registerLazySingleton<T extends Object>(T Function() factory)

Registers a lazy singleton of type T.

The factory closure is called once on the first get call; subsequent calls return the cached instance.

Implementation
void registerLazySingleton<T extends Object>(T Function() factory);

registerSingleton()#

void registerSingleton<T extends Object>(T instance)

Registers an already-created instance as an eager singleton of type T.

Implementation
void registerSingleton<T extends Object>(T instance);

toString() inherited#

String toString()

A string representation of this object.

Some classes have a default textual representation, often paired with a static parse function (like int.parse). These classes will provide the textual representation as their string representation.

Other classes have no meaningful textual representation that a program will care about. Such classes will typically override toString to provide useful information when inspecting the object, mainly for debugging or logging.

Inherited from Object.

Implementation
external String toString();

tryGet()#

T? tryGet<T extends Object>()

Attempts to resolve a dependency of type T.

Returns null instead of throwing when the type is not found.

Implementation
T? tryGet<T extends Object>();

tryParent()#

T? tryParent<T extends Object>()

Attempts to resolve a dependency of type T from the parent scope.

Returns null when the parent scope does not contain the type.

Implementation
T? tryParent<T extends Object>();

Operators#

operator ==() inherited#

bool operator ==(Object other)

The equality operator.

The default behavior for all Objects is to return true if and only if this object and other are the same object.

Override this method to specify a different equality relation on a class. The overriding method must still be an equivalence relation. That is, it must be:

  • Total: It must return a boolean for all arguments. It should never throw.

  • Reflexive: For all objects o, o == o must be true.

  • Symmetric: For all objects o1 and o2, o1 == o2 and o2 == o1 must either both be true, or both be false.

  • Transitive: For all objects o1, o2, and o3, if o1 == o2 and o2 == o3 are true, then o1 == o3 must be true.

The method should also be consistent over time, so whether two objects are equal should only change if at least one of the objects was modified.

If a subclass overrides the equality operator, it should override the hashCode method as well to maintain consistency.

Inherited from Object.

Implementation
external bool operator ==(Object other);
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