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I am in the process of porting an Objective-C application to C++ and I decided to create a class similar to NSObject and NSDictionary. If you are unfamiliar with this system, an NSObject is an object which all objects inherit form in Obj-C and then there is a reference counting mechanism within it. When there are no more references, the object frees itself.

In my code, I would like to be able to do the following

CMDictionary["Key"] = Object;

Internally, this is stored as

Map<string, CMObject*> mDictionary

Whenever a new object is assigned into the object, the dictionary must then retain this object by calling its retain function as well as calling release on any object that this new object might have replaced. My problem stems from the fact that I cannot find anyway to run code and determine when the brackets are being used in an assignment as I would not want the retain function to be called when I wrote something like

CMDicionary["key"]->StringValue();

Would there by anyway to do this, or would I need to just use getter/setter functions to modify my dictionary

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Don't overengineer this, and don't approach this with such a strict OOP mindset -- replace NSObject with std::shared_ptr<> and NSDictionary with std::unordered_map<>. The way you're trying to do it, it would be kludgey at best to properly track the CMObject*s that you must allocate and dellocate (as you seem to be discovering, apparent from your replies to the current answers). –  ildjarn Jul 14 '12 at 2:38
    
I am porting to a cross platform system which distributes to a variety of different architectures (mobile and desktop). The C++ 11 standards are not yet available and will not be for some time. –  David Jul 14 '12 at 4:09
    
Not sure what you're thinking of, but the C++11 standard has been published since 2011-04-11... Welcome to 2012? ;-] –  ildjarn Jul 14 '12 at 4:27
    
They are not yet available for simultaneous cross compilation to Symbian, iOS, Android, Bada, PC, and OSX using the Marmalade platform. Hopefully that clears it up. –  David Jul 14 '12 at 5:24

3 Answers 3

up vote 4 down vote accepted

What you typically do in this situation is to implement:

Object const& Map::operator[](string) const;
Object& Map::operator[](string);

Note that I wrote Object& instead of Object. You can at any rate instantiate a new Object and hand it out, relying on a proper Object& Object::operator=(Object const&) to be implemented, which will then perform the assignment, after your Map::operator[] function returns (don't worry, the compiler will optimise it away in most cases).

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Sounds great! I didn't realize that this was legal in C++. I'll check it out and mark it was the answer if it works correctly. –  David Jul 14 '12 at 1:12
    
I just thought of a problem... I could tell by what is passed if I am going to need to release an old object, but I see no way to retain any new object that is getting assigned using this method. –  David Jul 14 '12 at 1:22
    
@David: I'm afraid I don't know what you mean. Could you clarify? –  bitmask Jul 14 '12 at 10:03
    
So when I assign, I would use this pseudo code: SetObject(key k, object o) {if(isSet(k) Objects[k]->release; InternalDictSet(k,o);o->retain;} When using the brackets, I would know that my object was about to be overwritten with Object& Map::operator[](string); so I could release the old object if it was there for that key, but there would be no way to retain the new object that I can see. –  David Jul 14 '12 at 16:11
    
I think this is something that belongs in the Object class. Your map should only concern itself, with allocating the first Object in that slot and afterwards only return a reference to it. –  bitmask Jul 14 '12 at 16:32

You should overload the operator[] to accept a string.

http://courses.cms.caltech.edu/cs11/material/cpp/donnie/cpp-ops.html

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1  
This does not fix the whole problem. Read the bottom of my post. How do you tell if you are using it to assign or to read? You don't want to double retain just because you read. –  David Jul 14 '12 at 1:07
    
Oh I see the issue here. Sorry for giving an incomplete answer. –  Crackers Jul 14 '12 at 1:25

Consider writing a new class similar to shared_ptr<CMObject*> and do the retain/release inside of that object.

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Better yet, just use shared_ptr<> itself -- attempting to reinvent it will only end in pain. –  ildjarn Jul 14 '12 at 2:40
    
Unfortunately, I am porting to a cross platform system which deploys to a variety of Arm and X86 type systems. The C++ 11 standards are not yet available for all these systems and so I am stuck doing it the old fashion way. –  David Jul 14 '12 at 4:10
    
@David : The old fashioned way would be boost::shared_ptr<> and boost::unordered_map<> -- still no need to reinvent the wheel here. :-] –  ildjarn Jul 14 '12 at 23:07
    
We've been looking into getting boost cross compiling to all these platforms with mixed results. I'm sure it will get there eventually, but hopefully sooner rather than later –  David Jul 15 '12 at 3:15
2  
@David : FWIW the two libraries I mentioned are header-only, no linking needed, and consequently no more cross-compiling needed than just cross-compiling your own application. –  ildjarn Jul 15 '12 at 3:25

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