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What is the best way to respond to data changes when property setters are called. For example, if I have a property called data, how can I react when [object setData:newData] is called and still use the synthesised setter. Instinctively, I would override the synthesised setter like so:

- (void)setData:(DataObject *)newData {
    // defer to synthesised setter
    [super setData:newData];

    // react to new data

...but of course this doesn't make sense - I can't use super like this. So what is the best way to handle this situation? Should I be using KVO? Or something else?

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3 Answers 3

up vote 4 down vote accepted

There are a few different ways to do this, depending on how much control you want. One way to do it is to observe your own property:

[self addObserver:self forKeyPath:@"data" options:0 context:nil];

- (void)observeValueForKeyPath:(NSString *)path ofObject:(id)object change:(NSDictionary *)change context:(void *)context {
    if(object == self && [path isEqualToString:@"data"]) {
        //handle change here
    } else [super observeValueForKeyPath:path ofObject:object change:change context:context];

Make sure you remove yourself as an observer in your dealloc or finalize method, if not before.

Another way would be to override -didChangeValueForKey:. However, this method may not be called if there are no observers on the object.

- (void)didChangeValueForKey:(NSString *)key {
    [super didChangeValueForKey:key];
    if([key isEqualToString:@"data"]) {
        //handle change here
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Yes, KVO is the way to go. –  JeremyP Jan 17 '11 at 9:34
Overriding -didChangeValueForKey: is not be recommended. If you're using automatic KVO notifications (which most classes do), that method won't be called until an observer has been added. –  Mike Abdullah Jan 17 '11 at 10:25
@Mike: That's why its only the second option. –  ughoavgfhw Jan 17 '11 at 19:43
Thanks for the heads up, Mike. @ughoavgfhw, maybe you can edit that caveat into your answer. –  Simon Cave Jan 18 '11 at 0:38
Are the KVO mechanisms built into the getters and setters provided by @synthesize? I.e. if I were to write my own getter and simply release and retain, would I potentially be breaking KVO? –  Simon Cave Jan 18 '11 at 0:40

@synthesize creates default accessors for easy use. In case some special action is needed then it is always possible to write own accessors instead of using @synthesize. The setter and getter are not inherited from base class, they are created by the @synthesize directive. So you don't need to (neither you can) call super setData: (unless you really have created super class that support that).

Just ensure that you are managing memory correctly. Memory Management Programming Guide contains examples on how to manage memory for different types of memory policy (retain or assign or copy).

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I'm trying to find out if there's a way I can have it both ways: respond to the change and keep the implementation provided by @synthesize. Overriding the accessor and adding the memory management manually feels wrong. Is there perhaps a cleaner way to respond to property changes? –  Simon Cave Jan 17 '11 at 6:03
It's actually not wrong, neither something that is not-recommended. Personally I prefer that. Obviously there might be other better ways. let's check what other people suggest. –  taskinoor Jan 17 '11 at 6:10
For KVO, please check developer.apple.com/library/mac/#documentation/Cocoa/Conceptual/…. It says "You can control automatic observer notifications for properties of your subclass by implementing the class method automaticallyNotifiesObserversForKey:.", Though I have not tested that myself. So can't tell how difficult it will be to implement. –  taskinoor Jan 17 '11 at 6:31

From this SO answer.

You can define a synthesized "private" property, (put this in your .m file)

@interface ClassName ()

// Declared properties in order to use compiler-generated getters and setters
@property (nonatomic, strong <or whatever>) NSObject *privateSomeObject;


and then manually define a getter and setter in the "public" part of ClassName (.h and @implementation part) like this,

- (void) setSomeObject:(NSObject *)someObject {
  self.privateSomeObject = someObject;
  // ... Additional custom code ...

- (NSArray *) someObject {
  return self.privateSomeObject;

You can now access the someObject "property" as usual, e.g. object.someObject. You also get the advantage of automatically generated retain/release/copy, compatibility with ARC and almost lose no thread-safety.

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