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How to change configs in Spring.Net

开发者 https://www.devze.com 2022-12-14 22:45 出处:网络
An advantage of an IoC container is that you can swap in a mock service at the bottom of your object graph. However this seems much harder to do in Spring.Net than in 开发者_如何学编程other IoC Contai

An advantage of an IoC container is that you can swap in a mock service at the bottom of your object graph. However this seems much harder to do in Spring.Net than in 开发者_如何学编程other IoC Containers. Here's some code that does it in Unity and has Spring.Net code;

namespace IocSpringDemo
{
    using Microsoft.Practices.Unity;
    using NUnit.Framework;

    using Spring.Context;
    using Spring.Context.Support;

    public interface ISomeService
    {
        string DoSomething();
    }

    public class ServiceImplementationA : ISomeService
    {
        public string DoSomething()
        {
            return "Hello A";
        }
    }

    public class ServiceImplementationB : ISomeService
    {
        public string DoSomething()
        {
            return "Hello B";
        }
    }

    public class RootObject
    {
        public ISomeService SomeService { get; private set; }

        public RootObject(ISomeService service)
        {
            SomeService = service;
        }
    }

    [TestFixture]
    public class UnityAndSpringDemo
    {
        [Test]
        public void UnityResolveA()
        {
            UnityContainer container = new UnityContainer();
            container.RegisterType<ISomeService, ServiceImplementationA>();
            RootObject rootObject = container.Resolve<RootObject>();
            Assert.AreEqual("Hello A", rootObject.SomeService.DoSomething());
        }

        [Test]
        public void UnityResolveB()
        {
            UnityContainer container = new UnityContainer();
            container.RegisterType<ISomeService, ServiceImplementationB>();
            RootObject rootObject = container.Resolve<RootObject>();
            Assert.AreEqual("Hello B", rootObject.SomeService.DoSomething());
        }

        [Test]
        public void SpringResolveA()
        {
            IApplicationContext container = ContextRegistry.GetContext();
            RootObject rootObject = (RootObject)container.GetObject("RootObject");
            Assert.AreEqual("Hello A", rootObject.SomeService.DoSomething());
        }

        [Test]
        public void SpringResolveB()
        {
            // does not work - what to do to make this pass?
            IApplicationContext container = ContextRegistry.GetContext();
            RootObject rootObject = (RootObject)container.GetObject("RootObject");
            Assert.AreEqual("Hello B", rootObject.SomeService.DoSomething());
        }
    }
}

For the benefit of Spring, the following needed to be in the App.config file. Clearly this only serves the first spring test, and not the second. Can you put multiple spring configurations in the config file? If so, what is the syntax and how do you access them? Or is there another way to do this?

  <configSections>
    <sectionGroup name="spring">
      <section name="context" type="Spring.Context.Support.ContextHandler, Spring.Core"/>
      <section name="objects" type="Spring.Context.Support.DefaultSectionHandler, Spring.Core" />
    </sectionGroup>
  </configSections>
  <spring>
    <context>
      <resource uri="config://spring/objects"/>
    </context>
    <objects xmlns="http://www.springframework.net">
      <object name="RootObject" type="IocSpringDemo.RootObject, IocDemo" autowire="constructor" />
      <object name="service" type="IocSpringDemo.ServiceImplementationA, IocDemo" autowire="constructor" />
    </objects>
  </spring>

Update

Here is a partial answer based at code at the links that Marko Lahma gave to Mark Pollack's blog. I have the above tests passing, with the following code:

public static class SpringHelper
{
    public static T Resolve<T>(this IApplicationContext context, string name)
    {
        return (T)context.GetObject(name);
    }

    public static void RegisterType<T>(this GenericApplicationContext context, string name)
    {
        context.RegisterType(name, typeof(T));
    }

    public static void RegisterType(this GenericApplicationContext context, string name, Type type)
    {
        IObjectDefinitionFactory objectDefinitionFactory = new DefaultObjectDefinitionFactory();
        ObjectDefinitionBuilder builder = ObjectDefinitionBuilder.RootObjectDefinition(objectDefinitionFactory, type);
        builder.SetAutowireMode(AutoWiringMode.AutoDetect);

        context.RegisterObjectDefinition(name, builder.ObjectDefinition);
    }
}

...

    [Test]
    public void SpringResolveA()
    {
        GenericApplicationContext container = new GenericApplicationContext();
        container.RegisterType<RootObject>("RootObject");
        container.RegisterType<ServiceImplementationA>("service");

        RootObject rootObject = container.Resolve<RootObject>("RootObject");
        Assert.AreEqual("Hello A", rootObject.SomeService.DoSomething());
    }

    [Test]
    public void SpringResolveB()
    {
        GenericApplicationContext container = new GenericApplicationContext();
        container.RegisterType<RootObject>("RootObject");
        container.RegisterType<ServiceImplementationB>("service");

        RootObject rootObject = container.Resolve<RootObject>("RootObject");
        Assert.AreEqual("Hello B", rootObject.SomeService.DoSomething());
    }

This raises a few questions to me:

  • I want to integrate this technique into existing code that uses the usual container. Why do I have to use a different container type, GenericApplicationContext in this case? What if I want to read data into this object from the existing spring config in app.config or web.config? Would it work as the usual context? Could I then write data over these registrations with code?

  • How can I specify that ISomeService is to be created as a singleton? I don't mean supply a singleton instance to the container, but the container to create the instance, resolving its constructor, and use it when that type is needed.

  • how can I do the equivalent of container.RegisterType<ISomeService, ServiceImplementationA>(); ? I want to register type mappings to use in all cases where that type is needed by a constructor.

  • What exactly does container.RegisterType<ServiceImplementationA>("service"); do? It seems to register ServiceImplementationA as the implementation of ISomeService but ISomeServiceis never mentioned, so there could be ambiguity. e.g. what if ServiceImplementationA implemented more than one interface.

  • What is the string name given to the registration for? It won't work with en empty string, but it doesn't seem to matter what it is.

Am I trying to use spring in a way that it just does not work? I'm trying to use it like other IoC containers, but it's not quite working.


Adding as new answer trying to address the open points...

I want to integrate this technique into existing code that uses the usual container. Why do I have to use a different container type, GenericApplicationContext in this case? What if I want to read data into this object from the existing spring config in app.config or web.config? Would it work as the usual context? Could I then write data over these registrations with code?

Spring has concrete application context implementations for different kind of initialization tactics. The most common ones to use are GenericApplicationContext (manual), XmlApplicationContext (XML files) and WebApplicationContext (very much like XmlApplicationContext but tailored for web use). They all implement common interface: IApplicationContext which is the preferred way to access these containers.

Unfortonately altering registrations with code usually means that you need to use the specific sub-class directly. With GenericApplicationContext and StaticApplicationContext this is quite natural but XmlApplicationContext is usually considered to be XML only and this ways "fixed" to XML definition.

How can I specify that ISomeService is to be created as a singleton? I don't mean supply a singleton instance to the container, but the container to create the instance, resolving its constructor, and use it when that type is needed.

Your SpringHelper does just that, by default all objects in Spring are singletons. You could alter this behavior by calling ObjectDefinitionBuilder's SetSingleton method with false.

how can I do the equivalent of container.RegisterType(); ? I want to register type mappings to use in all cases where that type is needed by a constructor.

Spring uses object names (ids) to distinct between different implementations. So if you want to get specific type to serve a specific instance in case that there are many alternatives you should refer to this specific instance by name. If you are using autowiring and your object has dependency to interface ISomeService and there's only one object registered that implements it, the autowiring can set it without ambiguity.

What exactly does container.RegisterType("service"); do? It seems to register ServiceImplementationA as the implementation of ISomeService but ISomeServiceis never mentioned, so there could be ambiguity. e.g. what if ServiceImplementationA implemented more than one interface.

Continuing from previous answer, this registers singleton of type ServiceImplementationA with name "service". This object comes autowiring candidate with all it's implemented interfaces (and with it's concrete type of course).

What is the string name given to the registration for? It won't work with en empty string, but it doesn't seem to matter what it is.

It matters a great deal as explained earlier. The name is unique id within that context (parent context could have object with same name) and can be used to access specific object registrations. In short where other frameworks may associate a type as key to object registration, Spring uses name.


That's a bit apples and oranges comparison as the unit test uses code configuration for Unity and XML (app.config) configuration for Spring.NET.

If you go the XML route, then you can either comment out old implementation A and define the B implementation as the one to use - that what's configuration is all about right? Other option is to have dedicated XML files for each scenario (configuration setup) and include them via context's resource definitions (you have inline resource now). Other options include file system and assembly, see the web configuration section in Spring.NET's manual for a nice example.

If you go the code configuration route I would suggest to check Spring.NET Recoil and upcoming CodeConfig.

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