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In a pure C++ world we can generate interfacing or glue code between different components or interfaces at compile time, using a combination of template-based compile-time and runtime-techniques (to e.g. mostly automatically marshall to/from calls using legacy types).

When having to interface C++ applications with Objective-C/Cocoa for GUI, system integration or IPC though, things become harder due to the less strict typing - yet often not more then a flat repitive interface layer is needed: thin bridging delegates have to be defined or conversion code to language bridging calls has to be written.

If you have to deal with interfaces of non-trivial size and want to avoid script-based code generation this quickly becomes cumbersome and is just a pain every time refactorings have to take place. Using a combination of (template) metaprogramming and the Objective-C runtime library, it should be possible to reduce the amount of code considerably...

Before i go to reinvent the wheel (and possibly waste time), does anyone know about techniques, best-practices or examples in that direction?

As for an example, lets say we need a delegate that supports this informal protocol:

- (NSString*)concatString:(NSString*)s1 withString:(NSString*)s2;
- (NSNumber*)     indexOf:(CustomClass*)obj;

Instead of implementing an Obj-C class now that explicitly bridges to a C++-instance, i'd like to do something like this instead:

class CppObj {
    ObjcDelegate m_del;
    CppObj() : m_del(this) 
            <NSString* (NSString*, NSString*)>
            ("concatString", &CppObj::concat);
            <NSNumber* (CustomClass*)>
            ("indexOf", &CppObj::indexOf);

    std::string concat(const std::string& s1, const std::string& s2) {
        return s1.append(s2);

    size_t indexOf(const ConvertedCustomClass& obj) {
        return 42;

All that should be needed from the user to support additional types would be to specialize a conversion template function:

template<class To, class From> To convert(const From&);

NSString* convert<NSString*, std::string>(const std::string& s) { 
    // ...

// ...

The example above of course does ignore support for formal protocols etc. but should get the point across. Also, due to the type-information for Objc-runtime-types being mostly decayed into some-native-types or class-type i don't think the explicit specification of parameter and return types for the delegate-methods can be avoided.

share|improve this question
This is a very interesting question. I do a lot of this kind of wrapping, and while I have a lot of patterns I use, I've never really found a metaprogramming approach to simplifying the patterns. It will be interesting to see if anyone has. C++ templates cannot be used to create ObjC classes, and C++ lacks sufficient run-time introspection to dynamically create ObjC classes. But still, some kind of template language might be appropriate; perhaps even macro based. I'm currently working on this subject for my next posting at Cocoaphany (, so I'll have to give it more thought. – Rob Napier Feb 16 '10 at 22:36
Unless i'm overlooking something, i could at least modify and extend Objective-C classes by using the Obj-C runtime (haven't investigated the class-registration part yet). Utilizing templates to inspect the C++ signatures to bind to etc. i don't see a big problem in that direction... at least not yet, one of the reasons for my asking :) – Georg Fritzsche Feb 16 '10 at 22:56
In projects I work on we use the following approach: XML+external code generator. I don't know if it is an option for you, but anyway... As far as I understood, this approach is painful in the beginning, but then you don't have to "reinvent" the solutions later each time. And it does not matter how many languages you use. And yes, in our case the XML file is generated as well: it is accessible via GUI frontend (but of course you can always change XML directly anyway). – avp Feb 19 '10 at 13:13
I don't like external code-generation and only use it as a last resort. The interesting question is how to use metaprogramming to avoid the need for code-generators as far as possible. I guess i'll have to start testing my ideas when my private Mac arrives. – Georg Fritzsche Feb 19 '10 at 20:58
This question is very very interesting +1, I hope to hear the results of your experiments @gf. – Goles Feb 22 '10 at 10:15
up vote 5 down vote accepted

I didn't find anything satisfactory and came up with a prototype that, given the following informal protocol:

- (NSString*)concatString:(NSString*)s1 withString:(NSString*)s2;

and this C++ code:

struct CppClass {
    std::string concatStrings(const std::string& s1, const std::string& s2) const {
        return s1+s2;

std::string concatStrings(const std::string& s1, const std::string& s2) {
    return s1+s2;

allows creating and passing a delegate:

CppClass cpp;
og::ObjcClass objc("MyGlueClass");
objc.add_handler<NSString* (NSString*, NSString*)>
    ("concatString:withString:", &cpp, &CppClass::concatStrings);
// or using a free function:
objc.add_handler<NSString* (NSString*, NSString*)>
    ("concatString:withString:", &concatStrings);
[someInstance setDelegate:objc.get_instance()];

which can then be used:

NSString* result = [delegate concatString:@"abc" withString:@"def"];
assert([result compare:@"abcdef"] == NSOrderedSame);

Boost.Function objects can also be passed, which means Boost.Bind can easily be used as well.

While the basic idea works, this is still a prototype. I did a short blog post on the subject and the prototype source is available via bitbucket. Constructive input and ideas welcome.

share|improve this answer

Did you look at the wxWidgets library? I don't code in Objective-C, but at least the developers claim decent support for Cocoa/Objective-C. Which means, they have some mapping from C++ implemented somehow. The library's website is

share|improve this answer
Thanks, there seems to be some notification-bridging - will have to read more into it later. – Georg Fritzsche Feb 22 '10 at 17:52
Good hint, but wasn't quite satisfactory. – Georg Fritzsche Mar 6 '10 at 12:21

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