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The current WPF project I'm working on entails a viewer/editor for a complex business object.

First off- the business object is "generic", in that there is little inheritance- they use the same underlying domain model, but they are different due to the values of its (nested) properties.

For example, say the business object is Derivative, Derivative has a large amount of other nested business objects one of which is a collection of Legs.

The PROPERTIES of Leg determine the actual Derivative. Remember, all the business objects are "all encompassing" (One Leg class, not LegA extends base class LegBase.)

So say "Derivative X" is made of two legs, BOTH of which are of type Leg. One has a property say LegType=LegAFunding, and the second leg has LegType=CallableBlahh.

The issue is that different Derivatives require different screen, but they have may have the same Legs, the purpose being that you don't see to see some properties for some types, whereas for others you require some special properties etc.

Is there a "common" pattern to build or resolve view models so that if tomorrow, a new Derivative is released, we can resolve a view model for it using the builders or factories? It would be great to have a default view model we could resolve, and if need be we can extend a proper view model which contains the base set of properties we require, add the extra properties we want to bind/edit/view, and incorporate it into the builder or factory; the view for that NEW derivative will have the extra property in the view model.

This is sort of an inversion of control with regarding building the view models, but our resolution strategy is complex and will different for various view models we are resolving.

Any ideas? This Webpage describes these types of concepts as "Object Pools" and "Identity Maps" etc, but that I can't find any information on these concepts other than their vague ideas and descriptions on that site.

Psuedo Code:

public interface IViewModelFactoryProvider
{        
    // TBVM is the base view model you want and TM is the model you're 'wrapping'
    IViewModelFactory<TBVM, TM> GetViewModelFactory<TBVM, TM>()
        where TBVM : IViewModelBase;
}


public class ViewModelFactoryProvider
    : IViewModelFactoryProvider
{
    private readonly IUnityContainer container;

    public ViewModelFactoryProvider(IUnityContainer container)
    {
        this.container = container;

        RegisterFactories(container);
    }

    private static void RegisterFactories(IUnityContainer container)
    {
        container.RegisterType<IViewModelFactory<LegSummaryViewModel, Leg>, LegSummaryViewModelFactory>();
        // etc...
    }

    public IViewModelFactory<TBVM, TM> GetViewModelFactory<TBVM, TM>()
        where TBVM : IViewModelBase
    {
        // abstract away resolution from container
        return container.Resolve<IViewModelFactory<TBVM, TM>>();
    }
}


public class FundingLegSummaryViewModelFactory
    : BaseViewModelFactory<FundingLegSummaryViewModel, Leg>
{
    public FundingLegSummaryViewModelFactory(IUnityContainer container)
        : base(container)
    {
    }

    public override FundingLegSummaryViewModel CreateViewModel(Derivative deriv, Leg model)
    {
        var legType = model.LegType;
        switch (legType)
        {
            /*
            case "ThisFundingLegType":
                return container.Resolve<ThisFundingLegTypeSummaryViewModel>(new ResolverOverride[]
                    {
                        new ParameterOverride("deriv", deriv)
                    });
             */
            // I always have a default, new derivative, no problem...
            default:
                return container.Resolve<FundingLegSummaryViewModel>(new ResolverOverride[]
                    {
                        new ParameterOverride("deriv", deriv)
                    });
        }
    }
}

Usage In Derivate ViewModel to resolve Leg ViewModels:

foreach (var leg in model.Legs)
{
    // I want a LegSummaryViewModel, don't care which one...the factory should resolve it for me...There is another LegSummaryViewModelFactory that based on one property uses a specific leg factory, above you see FundingLegSummaryViewModelFactory as one of these.
    var legSummaryViewModel = viewModelFactoryProvider
                    .GetViewModelFactory<LegSummaryViewModel, Leg>()
                    .CreateViewModel(model, leg);

    LegSummaries.Add(legSummaryViewModel);
}

Note:

Note that I think this is overengineering it, or rather can be done better using Unity/DI. Maybe having an enum/enum-strings and the container can be bootstrapped somewhere where each viewmodel type (Derivative, Leg, Details, so one) can be registered like so:

container.RegisterType<IViewModelBase, SpecificLegSummaryViewModelForTradeTypeAndLegType>(ViewModelTypes.LegSummaryViewModel);

That may give me flexibility for using regions (Prism).

share|improve this question
    
I don't mean this in a bad way, but it is a real struggle trying to understand your question. So forgive me if I have misunderstood the question. I don't see any issue with different Derivatives requiring different screens but have same Legs. They are different classes. WPF supports the use of DataTemplates, which can be set up to target specific classes. In simple English, you can set it up so that if there are any Leg viewmodels on the screen, they will be "drawn" using the xaml in the datatemplate. It doesn't matter which Derivative they belong to. –  failedprogramming Mar 21 '13 at 9:44
    
you are sure about your last paragraph? because i can't really see any connection about your Link and what you are trying to describe maybe so sample code could help like Fendy already proposed –  WiiMaxx Mar 21 '13 at 10:42
    
I'm not quite sure I understand what you're asking about builders and factories, but if you're looking to just change the View for a Derivitive or Leg object based on a property, I typically use a ContentControl with it's ContentTemplate set via a DataTrigger, like this answer explains. –  Rachel Mar 21 '13 at 13:19
    
added some example code and thoughts above, thank you. –  chris Mar 21 '13 at 13:37

1 Answer 1

First of, don't rely at ViewModel as your base entities. More or less, ViewModel in WPF is coupled with the view. For example the commands, etc. It will reduce modularity.

Next, you said that the Leg class is some kind of generic, then I assume it can be designed using interfaces easily. Use interfaces as parameters instead of classes, as it will increase the modularity.

Make sure that you designs your business logics with using interfaces. With that, no matter what kind of Leg you are making, as long as you implemented the right interfaces, it will works well. Consider using dependency-injection that it will works well with this kind of scenario.

If you provide some examples of your generic Leg class and some of its derivatives maybe you can find better answer or even examples here.

EDIT1:

Now the question is more clearer than before. However, my assumption is in your question you need to create a view model based on the type of Leg class given. I will try to provide some example based on Mark Seeman's Abstract Factory pattern, based on his answer here.

First, the core of solution lies in the AbstractFactory. There are 2 pattern here: a. The logic lies in the factory, it will check the proper ViewModel to return. b. The logic is handled in resolver, to return proper Factory. However, I will try to provide the solution with (a.) logic.

public class LegVMFactory: ILegVMFactory{
  private readonly ILeg leg;
  public LegFactory(ILeg _leg){
    if(_leg == null) throw new Exception(""); //throw any exception you feel proper here
    this.leg = _leg;
  }
  public ILegViewModel Create(){
    if(leg is Leg){
      return new LegViewModel();
    }
    else if(leg is LegV1){
      return new LegV1ViewModel();
    }
    else if(leg is LegV2){
      return new LegV2ViewModel();
    }
    // and so on
  }
}

Then the usage (simple logic):

Leg leg = new Leg();
LegVMFactory legVmFactory = new LegVMFactory(leg);
ILegViewModel legVM = legVmFactory.Create();
share|improve this answer
    
Generic is a bad word. I tried to explain best I could. There is no inheritance/polymorphism - one Leg class that describes a Leg. Each leg in the collection differs because of its properties. I don't see how interfaces would help with this. The problem is creating view models, by using a "resolution strategy". This strategy currently is a switch/if statements in factories, but this seems ugly and wrong. –  chris Mar 21 '13 at 1:15
1  
@chris Maybe you need to describe your problem correctly. However, can you show us (pseudocode is fine) your implementation of factory? The Leg class will be help too –  Fendy Mar 21 '13 at 1:39
    
added some example code and thoughts above, thank you –  chris Mar 21 '13 at 14:04
    
@chris I have modified my answer based on your update –  Fendy Mar 22 '13 at 2:31

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