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My first foray in to C++ is building an audio synthesis library (EZPlug).

The library is designed to make it easy to set up a graph of interconnected audio generator and processor objects. We can call the EZPlugGenerators

All of the processor units can accept one or more EZPlugGenerators as inputs.

Its important to me that all configuration methods on these EZPlugGenerators are chainable. In other words, the methods used in setting up the synthesis graph should always return a pointer to the parent object. That allows me to use a syntax which very nicely shows the nested nature of the object relationships like this:

            a(new Panner())
                a(new TriggererPeriodic())
                    v(new FixedValue(1), "envTriggerFreq")
                    a(new Enveloper())
                    ->setAllTimes(v(0.0001), v(0.05), v(0.0f, "envSustain"), v(0.01))
                        a(new SineWaveMod())
                            a(new Adder())
                            ->addGenerator(a(new Adder()))
                            ->addGenerator(v(5000, "sineFreq"))
                                a(new Multiplier())
                                    a(new TriggererPeriodic())
                                        a(new Enveloper())
                                        ->setAllTimes(0.1, 0.1, 0, 0.0001)
                                        ->setAudioSource(v(1, "envAmount"))


The "a" and "v" functions in the above code store and return references to objects and handle retrieving them and destroying them.

I suspect my approach to C++ looks a little weird, but I'm finding that the language can actually accommodate the way I want to program fairly well.

Now to my question

I'd like to create a common superclass for all EZPlugGenerators which can accept inputs to inherit from. This superclass would have a method, "addInput", which would be overridden by each subclass. The problem comes from the fact that I want "addInput" to return a pointer to an instance of the subclass, not the superclass.

This isn't acceptable:

EZPlugProcessor* addInput(EZPlugGenerator* generator)

because that returns a pointer to an instance of the superclass, not the sublass destroying the chainability that I'm so happy with.

I tried this:

template<typename T> virtual T* addInput(EZPlugGenerator* obj){

but the compiler tells me I can't create a virtual template function.

I don't HAVE to use inheritance here. I can implement 'addInput' on every single EZPlugGenerator that can take an input. It just seems like gathering all of them under a single parent class will help make it clear that they all have something in common, and will help enforce the fact that addInputis the proper way to plug one object in to another.

So, is there a way I can use inheritance to dictate that every member of a group of classes must implement an 'addInput' method, while allowing that method to return a pointer to an instance of the child class?

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Too. Much. new. MY EYES! –  Xeo Feb 22 '12 at 16:52
Oh dear lord... –  Lightning Racis in Obrit Feb 22 '12 at 16:52
Sorry Xeo. I tried to keep it as simple as I could! –  morgancodes Feb 22 '12 at 16:53
@LightnessRacesinOrbit Shall I mark you down as one of the "I suspect my approach to C++ looks a little weird" people? –  morgancodes Feb 22 '12 at 16:54
But they don't have anything in common — all those member functions would be completely different. Also don't use new and pointers. Also named parameters > chains. –  Cat Plus Plus Feb 22 '12 at 17:00

2 Answers 2

up vote 4 down vote accepted

Virtual functions in C++ can have covariant return types, which means that you can define

virtual EZPlugProcessor *addInput(EZPlugGenerator* generator) = 0;

in the base class, and then

struct MyProcessor : EZPlugProcessor {
    virtual MyProcessor *addinput(EZPlugGenerator* generator) { 
        return this;

As long as the caller knows (by the type they're using) that the object is a MyProcessor, they can chain addInput together with other functions specific to MyProcessor.

If your inheritance hierarchy has more levels, then unfortunately you'll sometimes find yourself writing:

struct MySpecificProcessor : MyProcessor {
    virtual MySpecificProcessor *addinput(EZPlugGenerator* generator) {
        return static_cast<MySpecificProcessor*>(MyProcessor::addInput(generator));

because there's no way to specify in EZPlugProcessor that the return type of addInput is "pointer to the most-derived type of the object". Each derived class has to "activate" the covariance for itself.

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+1 you wrote the answer i was writing. :-/ –  Cheers and hth. - Alf Feb 22 '12 at 17:17

Yes, C++ already provides for covariant return types.

class Base
    virtual Base* add() = 0 { return <some base ptr>; }

class Child : public Base
    virtual Child* add() { return <some child ptr>; }

On the other hand no one will ever be able to read your code so you might want to consider if there's an alternate way to set up the configuration than writing LISP chaining in C++.

share|improve this answer
Thanks Mark B. Exactly what I'm looking for. As for the unreadability of my code... it's weird, and for most purposes would be the wrong approach. I agree with you there. But I've come to this style after wrestling with doing this a more "normal" way and finding that that was too slow and, ironically, too hard to read. If you have any ideas for other ways to build and configure object trees in pure C++ using a syntax which allows me to get the gist of the entire structure in a quick scan, please share! –  morgancodes Feb 22 '12 at 17:24
@morgancodes: one option is to define your own domain-specific language to describe the relations between the components. Perhaps that's an XML/YAML/JSON format, perhaps something you invent from scratch. Then put string literals in your code (or loaded at runtime), parse them, and build the object tree accordingly. Obviously you pay in performance (but the cost is only at setup), and you might have to write more code to support it (especially if you're writing the parser). The benefit is that the definition reads exactly as you want it to, no compromises with C++ syntax. –  Steve Jessop Feb 22 '12 at 17:51
@SteveJessop That's certainly a viable approach, and is quite common for audio synthesis systems. However, my goal with this project is to keep it all as simple as possible, and to keep it all in C++. –  morgancodes Feb 22 '12 at 18:21

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