Specifying IAsyncEnumerable<T>
as the injection type allows instances of all bindings implementing type T
to be injected in an asynchronous-lazy manner - the instances will be provided one at a time, in an order corresponding to the sequence of the bindings.
interface IDependency;
class AbcDependency : IDependency;
class XyzDependency : IDependency;
interface IService
{
Task<IReadOnlyList<IDependency>> GetDependenciesAsync();
}
class Service(IAsyncEnumerable<IDependency> dependencies) : IService
{
public async Task<IReadOnlyList<IDependency>> GetDependenciesAsync()
{
var deps = new List<IDependency>();
await foreach (var dependency in dependencies)
{
deps.Add(dependency);
}
return deps;
}
}
DI.Setup(nameof(Composition))
.Bind<IDependency>().To<AbcDependency>()
.Bind<IDependency>(2).To<XyzDependency>()
.Bind<IService>().To<Service>()
// Composition root
.Root<IService>("Root");
var composition = new Composition();
var service = composition.Root;
var dependencies = await service.GetDependenciesAsync();
dependencies[0].ShouldBeOfType<AbcDependency>();
dependencies[1].ShouldBeOfType<XyzDependency>();
The following partial class will be generated:
partial class Composition
{
private readonly Composition _root;
[OrdinalAttribute(20)]
public Composition()
{
_root = this;
}
internal Composition(Composition parentScope)
{
_root = (parentScope ?? throw new ArgumentNullException(nameof(parentScope)))._root;
}
public IService Root
{
[MethodImpl(MethodImplOptions.AggressiveInlining)]
get
{
[MethodImpl(MethodImplOptions.AggressiveInlining)]
async IAsyncEnumerable<IDependency> EnumerationOf_transientIAsyncEnumerable1()
{
yield return new AbcDependency();
yield return new XyzDependency();
await Task.CompletedTask;
}
IAsyncEnumerable<IDependency> transientIAsyncEnumerable1 = EnumerationOf_transientIAsyncEnumerable1();
return new Service(transientIAsyncEnumerable1);
}
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public T Resolve<T>()
{
return Resolver<T>.Value.Resolve(this);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public T Resolve<T>(object? tag)
{
return Resolver<T>.Value.ResolveByTag(this, tag);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public object Resolve(Type type)
{
var index = (int)(_bucketSize * ((uint)RuntimeHelpers.GetHashCode(type) % 1));
ref var pair = ref _buckets[index];
return pair.Key == type ? pair.Value.Resolve(this) : Resolve(type, index);
}
[MethodImpl(MethodImplOptions.NoInlining)]
private object Resolve(Type type, int index)
{
var finish = index + _bucketSize;
while (++index < finish)
{
ref var pair = ref _buckets[index];
if (pair.Key == type)
{
return pair.Value.Resolve(this);
}
}
throw new InvalidOperationException($"{CannotResolveMessage} {OfTypeMessage} {type}.");
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public object Resolve(Type type, object? tag)
{
var index = (int)(_bucketSize * ((uint)RuntimeHelpers.GetHashCode(type) % 1));
ref var pair = ref _buckets[index];
return pair.Key == type ? pair.Value.ResolveByTag(this, tag) : Resolve(type, tag, index);
}
[MethodImpl(MethodImplOptions.NoInlining)]
private object Resolve(Type type, object? tag, int index)
{
var finish = index + _bucketSize;
while (++index < finish)
{
ref var pair = ref _buckets[index];
if (pair.Key == type)
{
return pair.Value.ResolveByTag(this, tag);
}
}
throw new InvalidOperationException($"{CannotResolveMessage} \"{tag}\" {OfTypeMessage} {type}.");
}
private readonly static int _bucketSize;
private readonly static Pair<Type, IResolver<Composition, object>>[] _buckets;
static Composition()
{
var valResolver_0000 = new Resolver_0000();
Resolver<IService>.Value = valResolver_0000;
_buckets = Buckets<Type, IResolver<Composition, object>>.Create(
1,
out _bucketSize,
new Pair<Type, IResolver<Composition, object>>[1]
{
new Pair<Type, IResolver<Composition, object>>(typeof(IService), valResolver_0000)
});
}
private const string CannotResolveMessage = "Cannot resolve composition root ";
private const string OfTypeMessage = "of type ";
private class Resolver<T>: IResolver<Composition, T>
{
public static IResolver<Composition, T> Value = new Resolver<T>();
public virtual T Resolve(Composition composite)
{
throw new InvalidOperationException($"{CannotResolveMessage}{OfTypeMessage}{typeof(T)}.");
}
public virtual T ResolveByTag(Composition composite, object tag)
{
throw new InvalidOperationException($"{CannotResolveMessage}\"{tag}\" {OfTypeMessage}{typeof(T)}.");
}
}
private sealed class Resolver_0000: Resolver<IService>
{
public override IService Resolve(Composition composition)
{
return composition.Root;
}
public override IService ResolveByTag(Composition composition, object tag)
{
switch (tag)
{
case null:
return composition.Root;
default:
return base.ResolveByTag(composition, tag);
}
}
}
}
Class diagram:
classDiagram
class Composition {
<<partial>>
+IService Root
+ T ResolveᐸTᐳ()
+ T ResolveᐸTᐳ(object? tag)
+ object Resolve(Type type)
+ object Resolve(Type type, object? tag)
}
Service --|> IService
class Service {
+Service(IAsyncEnumerableᐸIDependencyᐳ dependencies)
}
class IAsyncEnumerableᐸIDependencyᐳ
AbcDependency --|> IDependency
class AbcDependency {
+AbcDependency()
}
XyzDependency --|> IDependency : 2
class XyzDependency {
+XyzDependency()
}
class IService {
<<interface>>
}
class IDependency {
<<interface>>
}
Composition ..> Service : IService Root
Service *-- IAsyncEnumerableᐸIDependencyᐳ : IAsyncEnumerableᐸIDependencyᐳ
IAsyncEnumerableᐸIDependencyᐳ *-- AbcDependency : IDependency
IAsyncEnumerableᐸIDependencyᐳ *-- XyzDependency : 2 IDependency