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Let's say I have a few controllers. Each controller can at some point create new objects which will need to be stored on the server. For example I can have a RecipeCreationViewController which manages a form. When this form is submitted, a new Recipe object is created and needs to be saved on the server.

What's the best way to design the classes to minimize complexity and coupling while keeping the code as clean and readable as possible?

Singleton

Normally I would create a singleton NetworkAdapter that each controller can access directly in order to save objects.

Example:

[[[NetworkAdapter] sharedAdapter] saveObject:myRecipe];

But I've realized that having classes call singletons on their own makes for coupled code which is hard to debug since the access to the singleton is hidden in the implementation and not obvious from the interface.

Direct Reference

The alternative is to have each controller hold a reference to the NetworkAdapter and have this be passed in by the class that creates the controller.

For example:

[self.networkAdapter saveObject:myRecipe];

Delegation

The other approach that came to mind is delegation. The NetworkAdapter can implement a "RemoteStorageDelegate" protocol and each controller can have a remoteStorageDelegate which it can call methods like saveObject: on. The advantage being that the controllers don't know about the details of a NetworkAdapter, only that the object that implements the protocol knows how to save objects.

For example:

[self.remoteStorageDelegate saveObject:myRecipe];

Direct in Model

Yet another approach would be to have the model handle saving to the network directly. I'm not sure if this is a good idea though.

For example:

[myRecipe save];

What do you think of these? Are there any other patterns that make more sense for this?

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What about dependency injection? –  Peter Wooster Jan 14 '13 at 2:07
    
@PeterWooster Thanks, I will read up more about this, I'm still not 100% clear on what it is yet. If you can provide an overview of how and why you would apply it in this specific case I would appreciate it. –  nebs Jan 14 '13 at 2:12
    
This is a great question. In your discussion of singletons, what do you mean by "since the access to the singleton is hidden in the implementation and not obvious from the interface"? Of course it is hidden, since saving an object is an implementation detail and doesn't need to be exposed though the interface. I think that a singleton is the way to go, and I've seen it used in projects successfully, both for Core Data and networking access. –  BlackRider Jan 14 '13 at 6:32
    
@BlackRider: Basically what I meant was that the controller has a hidden coupling to the network manager singleton. If I later choose to remove this singleton, or change it for something else, the controller will have to change. Singletons are very convenient and I use them often, but I've been rethinking this approach lately in an effort to write more manageable code. You're right, I've seen apple code use core data in a similar manner (the controller accesses it directly internally). But I can't help to think that perhaps a delegate/protocol approach would make more sense.. –  nebs Jan 14 '13 at 16:48
    
You can think of your singleton as a factory. You provide a method to get an instance (NetworkAdapter sharedInstance), and a method to do the action NetworkAdapter saveObject). It is very east to swap the implementation of the network adapter, without modifying any of the client code. –  BlackRider Jan 14 '13 at 17:28

1 Answer 1

I would also stick with Dependency Injection in your case. If you want to read about that you will easily find good articles in the web, e.g. on Wikipedia. There are also links to DI frameworks in Objective C.

Basically, you can use DI if you have two or more components, which must interact but shouldn't know each other directly in code. I'll elaborate your example a bit, but in C#/Java style because I don't know Objective C syntax. Let's say you have

class NetworkAdapter implements NetworkAdapterInterface {
  void save(object o) { ... }
}

with the interface

interface NetworkAdapterInterface {
  void save(object o);
}

Now you want to call that adapter in a controller like

class Controller {
  NetworkAdapterInterface networkAdapter;

  Controller() {
  }

  void setAdapter(NetworkAdapterInterface adapter) {
    this.networkAdapter = adapter;
  }

  void work() {
    this.networkAdapter.save(new object());
  }
}

Calling the Setter is where now the magic of DI can happen (called Setter Injection; there is also e.g. Constructor Injection). That means that you haven't a single code line where you call the Setter yourself, but let it do the DI framework. Very loose coupled!

Now how does it work? Typically with a common DI framework you can define the actual mappings between components in a central code place or in a XML file. Image you have

<DI>
  <component="NetworkAdapterInterface" class="NetworkAdapter" lifecycle="singleton" />
</DI>

This could tell the DI framework to automatically inject a NetworkAdapter in every Setter for NetworkAdapterInterface it finds in your code. In order to do this, it will create the proper object for you first. If it builds a new object for every injection, or only one object for all injections (Singleton), or e.g. one object per Unit of Work (if you use such a pattern), can be configured for each type.

As a sidenote: If you are unit testing your code, you can also use the DI framework to define completely other bindings, suitable for your test szenario. Easy way to inject some mocks!

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