Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Recently I have been working with a bit of audio code and though domain experience is not needed to understand the question, I think it may help to get my intention.

I have a controller object with a std::vector of Audio_channel objects. Each audio channel in that vector is there to keep the state of each channel (playing, not playing...). The one particular library I am using works with callbacks so you play a sound you mark the channel as "playing" and when it's done playing a callback is made so you can mark it as "idle". For the purposes of this example, let's assume that Audio_channel::play_something() exists and does as expected: mark as playing and start playing a sound, waiting for the callback when the sound is done.

Anyway, most of the time you get to play sounds through the controller object, like this:

int channel=0;
audio_controller.play_some_sound(channel); //It would really do something like this->channels.at(0).play_something();

And it will, of course, work since the audio_controller really owns these Audio_channels.

There will be times when you want a channel all to yourself and would do this:

Audio_channel c=audio_controller.get_me_this_channel(0); //This returns the channel by reference with vector.at(). Try and catch blocks are ommited. 
c.play_something();

And though it will work (since it wraps a library that does not know of these abstractions) I know for a fact that this Audio_channel is a copy of the original and, thus, not queryable from the controller (since any changes aren't reflected).

I can always go:

Audio_channel& c=audio_controller.get_me_this_channel(0);
c.play_something();

And this time I get the real deal and any changes are reflected everywhere... Thing is, from the standpoint of "calling code" it may be counterintuitive to force the reference there - specially where no error would ever be emmited by the compiler, since no error exists. There's always pointers but I would like to keep those under the surface. I guess that smart pointers are also an option but, again, I would like to keep it as close to the original code as possible.

What other options can you see here that I may be missing?. I thought about wrapping the Audio_channel into something else that does the dirty reference work and return copies of this other interface... I would be getting into a lot of code redirection and methods that just call the methods of the referenced channel but well...

As said, is there something I may be missing?. I am working with a recent gcc compiler, so C++X11 hot stuff is allowed. Thanks a lot.

share|improve this question
    
make get_me_this_channel return reference –  Gasim Jan 17 '14 at 19:46
    
The actual prototype is Canal_audio& obtener_canal(int) throw(); It does already return the reference. Thanks anyway. –  The Marlboro Man Jan 17 '14 at 19:48
1  
"specially where no error would ever be emmited by the compiler, since no error exist" there would be if you make Audio_channel noncopyable. Is that an option? It seems to make sense to me since you also say working with a copy has it's own problems. –  stijn Jan 17 '14 at 19:57
    
unless you are using pointer, there only two way you can do it is the way you did it or audio_controller.get_me_this_channel(0).play_something(); –  Gasim Jan 17 '14 at 19:58
    
stijn, I tried that too before but if make it noncopyable I won't be able to populate the vector. –  The Marlboro Man Jan 17 '14 at 20:17

2 Answers 2

no error would ever be emmited by the compiler, since no error exists

If you want an error here, change the design of Audio_channel, with C++11 you can write:

class Audio_channel
{
    Audio_channel( const Audio_channel& ) = delete;
    Audio_channel& operator=( const Audio_channel& ) = delete;
    ...
};
Audio_channel c=audio_controller.get_me_this_channel(0);

This will cause a compile error. Now calling code is forced to take the return value by reference.

If you really want a value-semantic, like your answer suggests, you are already on the right track. You are implementing the proxy pattern to a reference of the audio-channel. Something like:

class Audio_channel_proxy
{
public:
    Audio_channel_proxy( Audio_channel& c ) : m_channel( c ) {}
    void play_something() { m_channel.play_something(); }
...
private:
    Audio_channel &m_channel;
}

By default, I would prefer the first method, forcing a reference is quite common, self-documenting and easy to implement.

The second method is not that common, but also not rare. It has a potential pitfall. Especially if you rename your proxy with Audio_channel: it's not self-documenting.

Audio_channel c=audio_controller.get_me_this_channel(0);

This line suggests unique ownership of the channel because it's a copy by value. But really it's just an alias to a channel, someone else can also modify. So you better document it well (I would start with the naming). I think you already noticed it. Every time I saw this method, at least one person got it wrong, until he learnt his lesson, including me. Further you need to implement and maintain the interface of Audio_channel in the proxy. Just for the syntactic sugar of not been forced to write a reference, it's not really worth it.

On the other hand a proxy has a real value if you want a different behavior of the channel (or at least recognize) if it's called via the audio_controller or someone else directly accesses it. But only start with it if there's a need for it.

share|improve this answer
    
Upvote because I really appreciate the time and knowledge :). I reworked the code a bit to accomodate deleting these methods and though it works on its own, I smashed myself against a wall again when it came to populate the vector... With no copy capabilities these things are not assignable and I can't make it past that. It is a shame since I really need to have a vector of them (there may be a changing number as the program runs)... Changing the internal code so there is a std::vector<Audio_channel *> that is accesed with return * vector.at(index) –  The Marlboro Man Jan 18 '14 at 10:34
    
makes references to be enforced. It also makes for a few weird idioms when some other object has to temporarily keep track of a channel that may change later (forces pointers around, but again, makes sense and alternatives such as storing the index exist). I don't know which solution I'll choose but thanks a lot!. –  The Marlboro Man Jan 18 '14 at 10:42
    
@TheMarlboroMan if you want a vector of non-copyable objects the C++11 way of doing that, is using std::vector<std::reference_wrapper<Audio_channel>>. I must admit that I haven't really worked with it so far, but maybe it's a starting point for you. –  DaBrain Jan 18 '14 at 13:18
    
Will probably take a look at it later... So far I have a working solution with the answer below but I'd like to learn more. Thanks a lot!. –  The Marlboro Man Jan 20 '14 at 6:33
up vote 0 down vote accepted

I will answer myself here but will remain open to any suggestions since this solution seems right, though not optimal.

What I have done is turn the Audio_channel into Audio_channel_nonpublic and keep it private to the controller. The controller now return a wrapper class around the Audio_channel_nonpublic (aptly named Audio_channel) that has a reference to the original one and gets the copy stuff right. The new Audio_channel implements the same public interface as the Audio_channel_nonpublic and forwards each call to the referenced object. This way no client code has to be changed at all.

The result works, but has a lot of forward declarations and chunks of code that could be a bit confusing when I come back to them a few months later... It's documenting time!!.

Thanks for your comments.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.