Being new to objective-c, cocoa, and iPhone dev in general, I have a strong desire to get the most out of the language and the frameworks.

One of the resources I'm using is Stanford's CS193P class notes that they have left on the web. It includes lecture notes, assignments and sample code, and since the course was given by Apple dev's, I definitely consider it to be "from the horse's mouth".

Class Website:

Lecture 08 is related to an assignment to build a UINavigationController based app that has multiple UIViewControllers pushed onto the UINavigationController stack. That's how the UINavigationController works. That's logical. However, there are some stern warnings in the slide about communicating between your UIViewControllers.

I'm going to quote from this serious of slides:

Page 16/51:

How Not To Share Data

  • Global Variables or singletons
    • This includes your application delegate
  • Direct dependencies make your code less reusable
    • And more difficult to debug & test

Ok. I'm down with that. Don't blindly toss all your methods that will be used for communicating between the viewcontroller into your app delegate and reference the viewcontroller instances in the app delegate methods. Fair 'nuff.

A bit further on, we get this slide telling us what we should do.

Page 18/51:

Best Practices for Data Flow

  • Figure out exactly what needs to be communicated
  • Define input parameters for your view controller
  • For communicating back up the hierarchy, use loose coupling
    • Define a generic interface for observers (like delegation)

This slide is then followed by what appears to be a place holder slide where the lecturer then apparently demonstrates the best practices using an example with the UIImagePickerController. I wish the videos were available! :(

Ok, so... I'm afraid my objc-fu is not so strong. I'm also a bit confused by the final line in the above quote. I've been doing my fair share of googling about this and I found what appears to be a decent article talking about the various methods of Observing/Notification techniques:

Method #5 even indicates delegates as an method! Except.... objects can only set one delegate at a time. So when I have multiple viewcontroller communication, what am I to do?

Ok, that's the set up gang. I know I can easily do my communication methods in the app delegate by reference's the multiple viewcontroller instances in my appdelegate but I want to do this sort of thing the right way.

Please help me "do the right thing" by answering the following questions:

  1. When I am trying to push a new viewcontroller on the UINavigationController stack, who should be doing this push. Which class/file in my code is the correct place?
  2. When I want to affect some piece of data (value of an iVar) in one of my UIViewControllers when I am in a different UIViewController, what is the "right" way to do this?
  3. Give that we can only have one delegate set at a time in an object, what would the implementation look like for when the lecturer says "Define a generic interface for observers (like delegation)". A pseudocode example would be awfully helpful here if possible.

These are good questions, and its great to see that you're doing this research and seem concerned with learning how to "do it right" instead of just hacking it together.

First, I agree with the previous answers which focus on the importance of putting data in model objects when appropriate (per the MVC design pattern). Usually you want to avoid putting state information inside a controller, unless it's strictly "presentation" data.

Second, see page 10 of the Stanford presentation for an example of how to programmatically push a controller onto the navigation controller. For an example of how to do this "visually" using Interface Builder, take a look at this tutorial.

Third, and perhaps most importantly, note that the "best practices" mentioned in the Stanford presentation are much easier to understand if you think about them in the context of the "dependency injection" design pattern. In a nutshell, this means that your controller shouldn't "look up" the objects it needs to do its job (e.g., reference a global variable). Instead, you should always "inject" those dependencies into the controller (i.e., pass in the objects it needs via methods).

If you follow the dependency injection pattern, your controller will be modular and reusable. And if you think about where the Stanford presenters are coming from (i.e., as Apple employees their job is to build classes that can easily be reused), reusability and modularity are high priorities. All of the best practices they mention for sharing data are part of dependency injection.

That's the gist of my response. I'll include an example of using the dependency injection pattern with a controller below in case it's helpful.

Example of Using Dependency Injection with a View Controller

Let's say you're building a screen in which several books are listed. The user can pick books he/she wants to buy, and then tap a "checkout" button to go to the checkout screen.

To build this, you might create a BookPickerViewController class that controlls and displays the GUI/view objects. Where will it get all the book data? Let's say it depends on a BookWarehouse object for that. So now your controller is basically brokering data between a model object (BookWarehouse) and the GUI/view objects. In other words, BookPickerViewController DEPENDS on the BookWarehouse object.

Don't do this:

@implementation BookPickerViewController

-(void) doSomething {
   // I need to do something with the BookWarehouse so I'm going to look it up
   // using the BookWarehouse class method (comparable to a global variable)
   BookWarehouse *warehouse = [BookWarehouse getSingleton];

Instead, the dependencies should be injected like this:

@implementation BookPickerViewController

-(void) initWithWarehouse: (BookWarehouse*)warehouse {
   // myBookWarehouse is an instance variable
   myBookWarehouse = warehouse;
   [myBookWarehouse retain];

-(void) doSomething {
   // I need to do something with the BookWarehouse object which was 
   // injected for me
   [myBookWarehouse listBooks];

When the Apple guys are talking about using the delegation pattern to "communicate back up the hierarchy," they're still talking about dependency injection. In this example, what should the BookPickerViewController do once the user has picked his/her books and is ready to check out? Well, that's not really its job. It should DELEGATE that work to some other object, which means that it DEPENDS on another object. So we might modify our BookPickerViewController init method as follows:

@implementation BookPickerViewController

-(void) initWithWarehouse:    (BookWarehouse*)warehouse 
   myBookWarehouse = warehouse;
   myCheckoutController = checkoutController;

-(void) handleCheckout {
   // We've collected the user's book picks in a "bookPicks" variable
   [myCheckoutController handleCheckout: bookPicks];

The net result of all this is that you can give me your BookPickerViewController class (and related GUI/view objects) and I can easily use it in my own application, assuming BookWarehouse and CheckoutController are generic interfaces (i.e., protocols) that I can implement:

@interface MyBookWarehouse : NSObject <BookWarehouse> { ... } @end
@implementation MyBookWarehouse { ... } @end

@interface MyCheckoutController : NSObject <CheckoutController> { ... } @end
@implementation MyCheckoutController { ... } @end


-(void) applicationDidFinishLoading {
   MyBookWarehouse *myWarehouse = [[MyBookWarehouse alloc]init];
   MyCheckoutController *myCheckout = [[MyCheckoutController alloc]init];

   BookPickerViewController *bookPicker = [[BookPickerViewController alloc] 
   [window addSubview:[bookPicker view]];
   [window makeKeyAndVisible];

Finally, not only is your BookPickerController reusable but also easier to test.

-(void) testBookPickerController {
   MockBookWarehouse *myWarehouse = [[MockBookWarehouse alloc]init];
   MockCheckoutController *myCheckout = [[MockCheckoutController alloc]init];

   BookPickerViewController *bookPicker = [[BookPickerViewController alloc] initWithWarehouse:myWarehouse andCheckoutController:myCheckout];
   [bookPicker handleCheckout];

   // Do stuff to verify that BookPickerViewController correctly called
   // MockCheckoutController's handleCheckout: method and passed it a valid
   // list of books
  • 19
    When I see questions (and answers) like this, crafted with such care, I can't help but smile. Well-deserved kudos to our intrepid questioner and to you!! Meanwhile, I wanted to share an updated link for that handy invasivecode.com link you referenced in your second point: invasivecode.com/2009/09/… — Thanks again for sharing your insight and best practices, plus backing it up with examples! – Joe D'Andrea Oct 29 '09 at 12:36
  • I agree. The question was well formed, and the answer was simply fantastic. Rather than just have a technical answer it also included some psychology behind how/why it's implemented using DI. Thank you! +1 up. – Kevin Elliott Jan 10 '10 at 0:05
  • What if you also wish to use BookPickerController for picking a book for a wish list, or one of several possible bookpicking reasons. Would you Still use the CheckoutController interface approach (perhaps renamed to something like BookSelectionController) or maybe use NSNotificationCenter? – Les Dec 16 '10 at 14:13
  • This is still pretty tightly coupled. Raising and consuming events from a centralized place would be looser. – Neil McGuigan Jun 5 '12 at 1:37
  • 1
    The link referenced in point 2 seems to have changed again - here's the working link invasivecode.com/blog/archives/322 – vikmalhotra Jun 13 '12 at 12:30

This sort of thing is always a matter of taste.

Having said that, I always prefer to do my coordination (#2) via model objects. The top-level view controller loads or creates the models it needs, and each view controller sets properties in its child controllers to tell them which model objects they need to work with. Most changes are communicated back up the hierarchy by using NSNotificationCenter; firing the notifications is usually built in to the model itself.

For example, suppose I have an app with Accounts and Transactions. I also have an AccountListController, an AccountController (which displays an account summary with a "show all transactions" button), a TransactionListController, and a TransactionController. AccountListController loads a list of all accounts and displays them. When you tap on a list item, it sets the .account property of its AccountController and pushes the AccountController onto the stack. When you tap the "show all transactions" button, AccountController loads the transaction list, puts it in its TransactionListController's .transactions property, and pushes the TransactionListController onto the stack, and so on.

If, say, TransactionController edits the transaction, it makes the change in its transaction object and then calls its 'save' method. 'save' sends a TransactionChangedNotification. Any other controller that needs to refresh itself when the transaction changes would observe the notification and update itself. TransactionListController presumably would; AccountController and AccountListController might, depending on what they were trying to do.

For #1, in my early apps I had some sort of displayModel:withNavigationController: method in the child controller that would set things up and push the controller onto the stack. But as I've become more comfortable with the SDK, I've drifted away from that, and now I usually have the parent push the child.

For #3, consider this example. Here we are using two controllers, AmountEditor and TextEditor, to edit two properties of a Transaction. The Editors should not actually save the transaction being edited, since the user could decide to abandon the transaction. So instead they both take their parent controller as a delegate and call a method on it saying if they've changed anything.

@class Editor;
@protocol EditorDelegate
// called when you're finished.  updated = YES for 'save' button, NO for 'cancel'
- (void)editor:(Editor*)editor finishedEditingModel:(id)model updated:(BOOL)updated;  

// this is an abstract class
@interface Editor : UIViewController {
    id model;
    id <EditorDelegate> delegate;
@property (retain) Model * model;
@property (assign) id <EditorDelegate> delegate;

...define methods here...

@interface AmountEditor : Editor
...define interface here...

@interface TextEditor : Editor
...define interface here...

// TransactionController shows the transaction's details in a table view
@interface TransactionController : UITableViewController <EditorDelegate> {
    AmountEditor * amountEditor;
    TextEditor * textEditor;
    Transaction * transaction;
...properties and methods here...

And now a few methods from TransactionController:

- (void)viewDidLoad {
    amountEditor.delegate = self;
    textEditor.delegate = self;

- (void)editAmount {
    amountEditor.model = self.transaction;
    [self.navigationController pushViewController:amountEditor animated:YES];

- (void)editNote {
    textEditor.model = self.transaction;
    [self.navigationController pushViewController:textEditor animated:YES];

- (void)editor:(Editor*)editor finishedEditingModel:(id)model updated:(BOOL)updated {
    if(updated) {
        [self.tableView reloadData];

    [self.navigationController popViewControllerAnimated:YES];

The thing to notice is that we've defined a generic protocol which Editors may use to communicate with their owning controller. By doing so, we can reuse the Editors in another part of the application. (Perhaps Accounts can have notes, too.) Of course, the EditorDelegate protocol could contain more than one method; in this case that's the only one necessary.

  • 1
    Is this supposed to work as-is? I'm having trouble with the Editor.delegate member. In my viewDidLoad method, I'm getting Property 'delegate' not found.... I'm just not sure if I screwed something else up. Or if this is abridged for brevity. – Jeff Jun 22 '13 at 18:11
  • This is now pretty old code, written in an older style with older conventions. I wouldn't copy and paste it directly to your project; I'd just try to learn from the patterns. – Brent Royal-Gordon Jun 23 '13 at 22:35
  • Gotcha. Thats exactly what I wanted to know. I got it working with some modifications, but I was a little concerned that it wasn't matching up verbatim. – Jeff Jun 25 '13 at 17:28

I see your problem..

What has happened is that someone has confused idea of MVC architecture.

MVC has three parts.. models, views, and controllers.. The stated problem seems to have combined two of them for no good reason. views and controllers are seperate pieces of logic.

so... you do not want to have multiple view-controllers..

you want to have multiple views, and a controller that chooses between them. (you could also have multiple controllers, if you have multiple applications )

views should NOT be making decisions. The controller(s) should do that. Hence the seperation of tasks, and logic, and ways of making your life easier.

So.. make sure your view just does that, puts out a nice veiw of the data. let your controller decide what to do with the data, and which view to use.

(and when we talk about data, we are talking about the model... a nice standard way of being storred, accessed, modified.. another separate piece of logic that we can parcel away and forget about)


Suppose there are two classes A and B.

instance of class A is

A aInstance;

class A makes and instance of class B, as

B bInstance;

And in your logic of class B, somewhere you are required to communicate or trigger a method of class A.

1) Wrong way

You could pass the aInstance to bInstance. now place the call of the desired method [aInstance methodname] from the desired location in bInstance.

This would have served your purpose, but while release would have led to a memory being locked and not freed.


When you passed the aInstance to bInstance, we increased the retaincount of aInstance by 1. When deallocating bInstance, we will have memory blocked because aInstance can never be brought to 0 retaincount by bInstance reason being that bInstance itself is an object of aInstance.

Further, because of aInstance being stuck, the memory of bInstance will also be stuck(leaked). So even after deallocating aInstance itself when its time comes later on, its memory too will be blocked because bInstance cant be freed and bInstance is a class variable of aInstance.

2)Right way

By defining aInstance as the delegate of bInstance, there will be no retaincount change or memory entanglement of aInstance.

bInstance will be able to freely invoke the delegate methods lying in the aInstance. On bInstance's deallocation, all the variables will be its own created and will be released On aInstance's deallocation, as there is no entanglement of aInstance in bInstance, it will be released cleanly.

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