Unreified is a dependency injection container and in-process pipeline orchestrator for .NET
It is designed to help manage dependencies that will be created as a part of a longer or more complex process and to facilitate flow of data from one step to the next.
via command line dotnet add package Unreified
or via NuGet Install-Package Unreified
No more using global variables or IMemoryCache to pass things between different services. Just return the thing. That's it.
async static Task<Func<string>> LongOperation()
{
await Task.Delay(1000);
return () => "hello there";
}
void SayHello(Func<string> getMessage) => Console.WriteLine(getMessage());
var executor = new Executor();
await executor.Execute(Step.FromMethod(LongOperation), CancellationToken.None);
// the result of LongOperation (Func<string>) is now available in a container and will be injected to SayHello
await executor.Execute(Step.FromMethod(SayHello), CancellationToken.None);So one of your execution steps returns a thing, that thing is a dependency for a factory, and that factory returns something for the next step. Sounds awful to do with a "standard" container. With Unreified it is easy:
async static Task<object> LongOperation()
{
await Task.Delay(1000);
return new Func<string>(() => "hello there");
}
var executor = new Executor();
executor.AddSteps(
Step.FromMethod(LongOperation), // the first step
Step.FromMethod((string mes) => Console.WriteLine(mes))); // the next step
// the factory. the order of registration does not matter
executor.RegisterTransientFactory<string>((Func<string> func) => func());
// Notice that LongOperation returns Task<object>.
// The dependency for the string factory will be materialized during execution, as a result of one of the steps
// and then it will be properly registered as a delegate of type Func<string>
await executor.RunAll(maxDegreeOfParallelism: 1, CancellationToken.None);If your execution steps do not depend on one another, you can execute them simultaneously
record class Dependency1();
record class Dependency2();
Task<Dependency1> IndependentStep1() => Task.FromResult(new Dependency1());
Task<Dependency2> IndependentStep2() => Task.FromResult(new Dependency2());
string FirstStepWithDependencies(Dependency1 d1, Dependency2 d2) => "";
void SecondStepWithDependencies(string s) => {};
var executor = new Executor();
// These steps can be registered in ANY order. Here they happen to be registered in execution order,
// but that's simply to make it easier to understand what was the author's intention
executor.AddSteps(
Step.FromMethod(IndependentStep1),
Step.FromMethod(IndependentStep2),
Step.FromMethod(FirstStepWithDependencies),
Step.FromMethod(SecondStepWithDependencies));
await executor.RunAll(maxDegreeOfParallelism: 5, CancellationToken.None);
// Look here, this is important ^This code will execute in parallel IndependentStep1 and IndependentStep2, then it will run FirstStepWithDependencies, and the last thing will be SecondStepWithDependencies