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The documentation for -hash says it must not change while a mutable object is stored in a collection, and similarly the documentation for -isEqual: says the -hash value must be the same for equal objects.

Given this, does anybody have any suggestions for the best way to implement -hash such that it meets both these conditions and yet is actually calculated intelligently (i.e. doesn't just return 0)? Does anybody know how the mutable versions of framework-provided classes do this?

The simplest thing to do is of course just forget the first condition (about it not changing) and just make sure I never accidentally mutate an object while it's in a collection, but I'm wondering if there's any solution that's more flexible.

EDIT: I'm wondering here whether it's possible to maintain the 2 contracts (where equal objects have equal hashes, and hashes don't change while the object is in a collection) when I'm mutating the internal state of the object. My inclination is to say "no", unless I do something stupid like always return 0 for the hash, but that's why I'm asking this question.

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guess this is an old question, just found it... but aren't mutable objects used as keys in a collection usually copied? Doesn't that just sidestep the problem? –  nielsbot Mar 16 '12 at 3:24
    
@nielsbot: Only keys for NSDictionaries are copied. NSSet doesn't copy its objects, and the CFDictionarySetValue() API doesn't copy its keys either. –  Kevin Ballard Mar 16 '12 at 4:29
    
CFDictionarySetValue does if you pass kCFTypeDictionaryKeyCallbacks to CFDictionaryCreate, no? The docs are almost non-sensical... I suppose a mutable collection obj could, uh, cache the hash values, which is the same as assuming a mutable obj in a collection will not change its hash, right? –  nielsbot Mar 16 '12 at 8:36
    
@nielsbot: kCFTypeDictionaryKeyCallbacks only retains the key. -[NSMutableDictionary setObject:forKey:] is a bit special in that it copies the incoming key, even if it's really a CFMutableDictionaryRef that has a key callbacks that doesn't retain the key. –  Kevin Ballard Mar 16 '12 at 19:06
    
yeah.. you're right. I guess you could replace the retain callback with a copy callback... but maybe that's skanky. ...ANYways.... /me back to work –  nielsbot Mar 17 '12 at 3:43

5 Answers 5

up vote 2 down vote accepted

Interesting question, but I think what you want is logically impossible. Say you start with 2 objects, A and B. They're both different, and they start with different hash codes. You add both to some hash table. Now, you want to mutate A, but you can't change the hash code because it's already in the table. However, it's possible to change A in such a way that it .equals() B.

In this case, you have 2 choices, neither of which works:

  1. Change the hashcode of A to equal B.hashcode, which violates the constraint of not changing hash codes while in a hash table.
  2. Don't change the hashcode, in which case A.equals(B) but they don't have the same hashcodes.

It seems to me that there's no possible way to do this without using a constant as a hashcode.

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That's what I thought, and I guess it's probably right. –  Kevin Ballard Jan 14 '09 at 16:37

My reading of the documentation is that a mutable object's value for hash can (and probably should) change when it is mutated, but should not change when the object hasn't been mutated. The portion of the documentation to which to refer, therefore, is saying, "Don't mutate objects that are stored in a collection, because that will cause their hash value to change."

To quote directly from the NSObject documentation for hash:

If a mutable object is added to a collection that uses hash values to determine the object’s position in the collection, the value returned by the hash method of the object must not change while the object is in the collection. Therefore, either the hash method must not rely on any of the object’s internal state information or you must make sure the object’s internal state information does not change while the object is in the collection.

(Emphasis mine.)

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Yes, that's the way I read it, but if the hash doesn't rely on internal state that makes it pretty hard to make equal objects hash the same. This is why I'm asking this question, to find out if anybody has a clever solution to storing mutable objects in map tables. –  Kevin Ballard Jan 14 '09 at 14:52
    
If you're looking for clever tricks for this, I don't think I can help, but note that the documentation says that the hash method must not rely on internal state or the internal state must be guaranteed not to change while in the collection. You can use internal state if you conform to the latter. –  Evan DiBiase Jan 14 '09 at 15:11
    
On re-reading the question: are you asking if there's a way to keep the hash and isEqual: contract while mutating an object in a collection, or just whether it's possible to keep the contract in general? I was responding to the second question, which may not be what you were asking. –  Evan DiBiase Jan 14 '09 at 15:14
    
I'm asking the former. I'll update the question to make this clearer –  Kevin Ballard Jan 14 '09 at 15:55

The question here isn't how to meet both of these requirements, but rather which one you should meet. In Apple's documentation, it is clearly stated that:

a mutable dictionary can be put in a hash table but you must not change it while it is in there.

This being said, it seems more important that you meet the equality requirement of hashes. The hash of an object should always be a way to check if an object is equal to another. If this is ever not the case, it is not a true hash function.

Just to finish up my answer, I'll give an example of a good hash implementation. Let's say you are writing the implementation of -hash on a collection that you have created. This collection stores an array of NSObjects as pointers. Since all NSObjects implement the hash function, you can use their hashes in calculating the collection's hash:

- (NSUInteger)hash {
    NSUInteger theHash = 0;
    for (NSObject * aPtr in self) { // fast enumeration
        theHash ^= [aPtr hash];
    }
    return theHash;
}

This way, two collection objects containing the same pointers (in the same order) will have the same hash.

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In Java, most mutable classes simply don’t override Object.hashCode() so that the default implementation returns a value that is based on the address of the object and doesn’t change. It might just be the same with Objective C.

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1  
Except that violates the rule that equal objects need to have the same hash. The default implementation for -isEqual: just compares pointers, but I'm overriding it to do a value-based comparison of the fields in the object. –  Kevin Ballard Jan 14 '09 at 13:04

Since you are already overriding -isEqual: to do a value-based comparison, are you sure you really need to bother with -hash?

I can't guess what exactly you need this for of course, but if you want to do value-based comparison without deviating from the expected implementation of -isEqual: to only return YES when hashes are identical, a better approach might be to mimick NSString's -isEqualToString:, so to create your own -isEqualToFoo: method instead of using or overriding -isEqual:.

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1  
The NSObject protocol docs for this explicitly state that overriding -isEqual: and not -hash is incorrect, and can cause problems when an instance of the class is stored in a collection. Also, NSString overrides -isEqual: to call -isEqualToString: if both objects are strings. See this Apple doc: developer.apple.com/documentation/Cocoa/Conceptual/… –  Quinn Taylor Jul 10 '09 at 22:36

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