Multi-project dependency injection - scala

Apologies for the vague question, but how is dependency injection typically handled in a multi-project environment? Each module should be able to define its own dependencies and ideally they would be using the same dependency "container".
In the past, in a single project environment, I went about creating a dependency object container where I defined my implicits and then just imported then when I needed a dependency.
Any pointers or tips to point me in the right direction would be helpful.

This will have to be a bit vague since you don't say anything about what you're using to do your dependency injection, but FWIW, we have a current multi-project mixed scala/java environment injected with guice, so maybe this will be helpful to you.
Since guice allows you to include modules (i.e. nest one module inside another) this allows for hierarchical module structure (they must assume people will use it like this - there's even a grapher included with the distribution to make a nice picture of the relationship between your modules). So, for example, you might have a module that includes database connections and various objects that interact directly with that, and you'd then include that module directly with anything that interacts with the db layer.

Related

Unity container injection in my view models

I am a newcomer to C# / .Net / Prism / WPF / DevExpress and started to work on a big project in my company. As I am starting a bit late in the project, a lot of code was already produced and I stumble upon code like this very often:
public class AboutWindowViewModel : BindableBase
{
public AboutWindowViewModel(IUnityContainer container)
{
...
What I find "special" here is the dependence of the view model in the container. In the codebase I am currently looking at, it seems to be the "pattern". Every class gets a dependence in the IUnityContainer and then the dependencies are resolved manually with e.g.
container.ResolveEx<...>(...);
I am used to work with DI frameworks in other languages, so that example was just a non-sense to me because it goes against the definition of a DI framework and the problems it is meant to solve. For example, I tried to make up some code to test one of those view models and it turned out to be a nightmare.
Now, I addressed that concern to the developpers of my company and they answered me the following:
Prism recommendation is to resolve services using containers as they are needed.
Therefore, they resolve them all the time with the IUnityContainer.ResolveEx method.
My question is: is that really the recommended way to build up software with Prism??? If not, do you know where I can find documentation that clearly addresses that point with examples?
is that really the recommended way to build up software with Prism???
Not at all, in it's an anti-pattern.
Prism recommendation is to resolve services using containers as they are needed.
Not really just Prism, but more generally, the recommendation is to let the container resolve the dependencies. Of course, this can be done by calling Resolve manually, but in doing that one defeats all the benefits expected from dependency injection.
Rather, you want to list the dependencies as constructor parameters and let the container fill them. Your code does not need to depend on the container, except for the very entry-point ("resolution root"). The application should only ever contain a single Resolve statement that resolves the first instance.
Here's where Prism comes into play: in your PrismApplication.RegisterTypes and IModule.RegisterTypes, you configure your container. You tell it which type should implement which interface. Later on, when view models are needed, Prism (the ViewModelLocator to be precise) uses the container to resolve the view models, thereby resolving all the dependencies. There's no reason to make any class depend on the container, in fact, Prism doesn't register anything for IContainerRegistry in the first place.
Keep in mind that the container can not only inject singleton services, but also transient instances or factories. And if you need parametrized factories, you can always manually create and register complex factories.
On a side-note, I, personally, would be hesitant to work for a client with a code-base like this, as it's an obvious proof that their developers have no idea what they're doing.

Autofac modules declare required registrations

Is it possible for Autofac modules to declare registrations that it depends on?
It would be nice of Autofac could validate that these dependencies are fulfilled before a further runtime error.
The idea comes from one of Java's dependency injection framework, Guice which has a requireBinding function within its modules.
Autofac modules do not support the ability to declare their "requirements". Given the flexible nature of Autofac with the ability to provide dynamic registration sources and such, providing a function like requireBinding would require quite a bit of change to the internals of Autofac. (It is for this same reason that Autofac can't analyze potential object resolution failures at runtime without actually resolving the objects in question.)

Why should I prefer OSGi Services over exported packages?

I am trying to get my head around OSGi Services. The main question I keep asking myself is: What's the benefit of using services instead of working with bundles and their exported packages?
As far as I know it seems the concept of Late Binding has something to do with it. Bundle dependencies are wired together at bundle start, so they are pretty fixed I guess. But with services it seems to be almost the same. A bundle starts and registers services or binds to services. Of course services can come and go whenever they want and you have to keep track of these chances. But the core idea doesn't seem that different to me.
Another aspect to this seems to be that services are more flexible. There could be many implementations for one specific Interface. On the other hand there can be a lot of different implementations for a specific exported package too.
In another text I read that the disadvantage of using exported packages is that they make the application more fragile than services. The author wrote that if you remove one bundle from the dependency graph other dependencies would no longer be met, thus possibly causing a domino effect on the whole graph. But couldn't the same happen if a service would go offline? To me it looks like service dependencies are no better than bundle dependencies.
So far I could not find a blog post, book or presentation that could clearly describe why services are better than just exposing functionality by exporting and importing packages.
To sum my questions up:
What are the key benefits of using OSGi Services that make them superior to exporting and importing packages?
Addition
I have tried to gather further information about this issue and come up with some kind of comparison between plain export/import of packages and services. Maybe this will help us to find a satisfying answer.
Start/Stop/Update
Both, bundles (hence packages) and services, can be started and stopped. In addition to that they can be kind of updated. Services are also tied to the bundle life cycle itself. But in this case I just mean if you can start and stop services or bundles (so that the exported packages "disappear").
Tracking of changes
ServiceTracker and BundleTracker make it possible to track and react to changes in the availability of bundles and services.
Specific dependencies to other bundles or services.
If you want to use an exported package you have to import it.
Import-Package: net.jens.helloworld
Would net.jens.helloworld provide a service I would also need to import the package in order to get the interface.
So in both cases their would be some sort of "tight coupling" to a more or less specific package.
Ability to have more than one implementation
Specific packages can be exported by more than one bundle. There could be a package net.jens.twitterclient which is exported by bundle A and bundle B. The same applies to services. The interface net.jens.twitterclient.TwitterService could be published by bundle A and B.
To sum this up here a short comparison (Exported packages/services):
YES/YES
YES/YES
YES/YES
YES/YES
So there is no difference.
Additionally it seems that services add more complexity and introduce another layer of dependencies (see image below).
alt text http://img688.imageshack.us/img688/4421/bundleservicecomparison.png
So if there is no real difference between exported packages and services what is the benefit of using services?
My explanation:
The use of services seems more complex. But services themselves seem to be more lightweight. It should be a difference (in terms of performance and resources) if you start/stop a whole bundle or if you just start and stop a specific service.
From a architectural standpoint I also guess that bundles could be viewed as foundation of the application. A foundation shouldn't change often in terms of starting and stopping bundles. The functionality is provided by services of this packages in some kind of dynamic layer above the "bundle layer". This "service layer" could be subject to frequent changes. For example the service for querying a database is unregistered if the database is going offline.
What's your opinion? Am I starting to get the whole point of services or am I still thinking the wrong way? Are there things I am missing that would make services far more attractive over exported packages?
Its quite simple:
Bundles are just providing classes you can use. Using Imports/Exports you can shield visibility and avoid (for example) versioning conflicts.
Services are instances of classes that satisfy a certain contract (interfaces).
So, when using Services you don't have to care about the origin of a implementation nor of implementation details. They may even change while you are using a certain service.
When you just want to rely on the Bundle Layer of OSGi, you easily introduce crosscutting dependencies to concrete implementations which you usually never want. (read below about DI)
This is not an OSGi thing only - just good practice.
In non OSGi worlds you may use Dependency Injection (DI) frameworks like Guice, Spring or similar. OSGi has the Service Layer built into the framework and lets higher level frameworks (Spring, Guice) use this layer. - so in the end you usually dont use the OSGi Service API directly but DI adapters from user friendly frameworks (Spring-->Spring DM,Guice-->Peaberry etc).
HTH,
Toni
I'd recommend purchasing this book. It does an excellent job explaining services and walking through the construction of a non-trivial application that makes use of OSGi Services.
http://equinoxosgi.org/
My company routinely builds 100+ bundle applications using services. The primary benefits we gain from using services are:
1) Loose coupling of producer/consumer implementation
2) Hot swappable service providers
3) Cleaner application architecture
When you start with OSGi, it is always easier to start with an export-package approach it certainly feels more java-like. But when your application starts growing and you need a bit of dynamicity, services are the way to go.
Export-package only does the resolution on startup, whereas services is an on-going resolution (which you may want or not). From a support point of view having services can be very scary (Is it deterministic? How can I replicate problems?), but it is also very powerful.
Peter Kriens explains why he thinks that Services are a paradigm shift in the same way OO was in its time. see µServices and Duct Tape.
In all my OSGi experience I haven't had yet the occasion to implement complex services (i.e. more than one layer), and certainly annotations seem the way to go. You can also use Spring dynamic module to ease the pain of dealing with service trackers. (and many other options like iPOJO, and Blueprint)
Lets consider the two following scenarios:
Bundle A offers a service which is an arithmetic addition add(x,y) return x+y. To achieve this, it exports "mathOpe package" with "IAddition interface", and registers a service within the service registry. Bundles B, C, D, ... consume this service.
Bundle A exports "mathOpe package", where we found a class Addition exposing an operation (x+y)<--add(x,y). Bundles B, C, D, ... import the package mathOpe.
Comparison of scenario 1 vs. scenario 2:
Just one implementation instance vs. many instances (Feel free to make it static!)
Dynamic service management start, stop, update vs. no management, the consumer is owning the implementation (the "service")
Flexible (we can imagine a remote service over a network) vs. not flexible
... among others.
PS: I am not an OSGI expert nor a Java one, this answer shows only my understanding of the phenomena :)
I think this excellent article could answer a lot of your questions:OSGi, and How It Got That Way.
The main advantage of using a service instead of the implementation class is that the bundle offering the service will do the initialization of the class itself.
The bundle that uses the service does not need to know anything about how the service is initialized.
If you do not use a service you will always have to call kind of a factory to create the service instance. This factory will leak details of the service that should remain private.

IoC container configuration

How should the configuration for an IoC container be organized? I know that registering by code should be placed at the highest level in an application, but what if an application had hundreds of dependencies that need to be registered? Same with XML configurations. I know that you can split up the XML configurations into multiple files, but that would seem like it would become a maintenance hassle if someone had to dig through multiple XML files.
Are there any best practices for organizing the registration of dependencies? From all the videos and tutorials that I've seen, the code used in the demo were simple enough to place in a single location. I have yet to come across a sample application that utilizes a large number of dependencies.
Autofac and others (eg Ninject) employ a module concept for this exact purpose. http://code.google.com/p/autofac/wiki/StructuringWithModules may be what you're looking for.
Hth
Nick
It would help a little if we knew if you were talking about any particular IoC Container.
Windsor, for example, allows you to define dependencies across a wide range of XML files (organised however you want), and simply included in the configuration. The structure should be in a format that makes sense. Have a file/folder for Controllers, Facilities, etc etc. A heirarchy of related items.
With something more code-oriented, such as Autofac, you could easily create a host of container configuration providers to power your configuration. With Hiro, you don't really need to do much configuration at all.
Regardless of the container used, they all provide facilites for convention-over-configuration based registrations, so that should be your first stop in cleaning up registrations. A great example would be to register all classes whose name ends in 'Controller' in an MVC application.

Impacts of configuring IoC Container from code

I currently have a home-made IoC container that I will soon replace with a new one. My home-made IoC container is configured using config files. From what I have read on the net, the ability to "configure from code" seems to be a very popular feature.
I don’t like the idea of having a class that knows every other class in the system in order to setup the IoC Container. Such class would have to be in an assembly that depends on the 80 other assemblies of my project.
Are there best practices on how to organize the code that configures the container?
I have read this post. Using conventions and auto-wiring is good when there are patterns in the types to be registered. But I have hundreds of types that are in different assemblies and that don’t have anything in common. How should I organize the code for those?
Regards,
Update: I chose an approach where the code that configures the container is decentralized. Each assembly in my system is given a chance to configure the container. The method at the entry points in my system (many .exe apps, the web app, the web services app and the unit test fixtures are all entry points) are responsible for calling each assembly to let them setup the container. I'm currently implementing that, I' not sure if it is going to be satisfactory. I will post another update soon.
Depending on your programming language (I use c#) you might want to look something like Autofac modules: http://code.google.com/p/autofac/wiki/StructuringWithModules