Forgive my ignorance in asking this basic question but I've become so used to using Python where this sort of thing is trivial that I've completely forgotten how I would attempt this in C++.

I want to be able to pass a callback to a function that performs a slow process in the background, and have it called later when the process is complete. This callback could be a free function, a static function, or a member function. I'd also like to be able to inject some arbitrary arguments in there for context. (ie. Implementing a very poor man's coroutine, in a way.) On top of that, this function will always take a std::string, which is the output of the process. I don't mind if the position of this argument in the final callback parameter list is fixed.

I get the feeling that the answer will involve boost::bind and boost::function but I can't work out the precise invocations that would be necessary in order to create arbitrary callables (while currying them to just take a single string), store them in the background process, and invoke the callable correctly with the string parameter.

  • 5
    Don;t pass a callback function, pass an object. And I really don't see why you think you have to bring Boost into this. – anon Mar 18 '10 at 16:27
  • 2
    Object, schmobject. Callbacks rock! ;) – John Dibling Mar 18 '10 at 16:30
  • 1
    @Neil: ah, I see what you mean. By that I mean that at the end of the chain, there will be a proper function of some type. (Because that's ultimately how you get things done.) But I wasn't expecting to pass that directly in here; I was expecting to pass in some sort of functor that referenced one of these. – Kylotan Mar 18 '10 at 16:50
  • 1
    This white-paper provides many ways of writing reasonably generic callbacks in C++, though it is quite terse to read, it may serve your interests; newty.de/jakubik/callback.pdf – Abhay Mar 18 '10 at 17:01
  • 1
    Ah, I wish I had any idea what 'taking advantage of binding or type erasure' meant in this context. :) – Kylotan Mar 19 '10 at 15:36

The callback should be stored as a boost::function<void, std::string>. Then you can use boost::bind to "convert" any other function signature to such an object, by binding the other parameters.


I've not tried to compile this, but it should show the general idea anyways

void DoLongOperation(boost::function<void, const std::string&> callback)
  std::string result = DoSomeLengthyStuff();

void CompleteRoutine1(const std::string&);
void CompleteRoutine2(int param, const std::string&);

// Calling examples
DoLongOperation(&CompleteRoutine1); // Matches directly
DoLongOperation(boost::bind(&CompleteRoutine2, 7, _1)); // int parameter is bound to constant.

// This one is thanks to David Rodríguez comment below, but reformatted here:
struct S 
  void f( std::string const & );

int main() 
  S s;
  DoLongOperation( boost::bind( &S::f, &s, _1 ) ); 
  • Could you provide an example? (Or a link to a specific example.) I already had a good idea that boost::function and boost::bind would do what I want but I have no clue about how to achieve that. – Kylotan Mar 18 '10 at 16:36
  • 3
    +1 and for a member function example: struct S { void f( std::string const & ); }; int main() { S s; DoLongOperation( boost::bind( &S::f, &s, _1 ) ); } where you can add extra arguments as you wish, just remember that boost::bind will copy the arguments. – David Rodríguez - dribeas Mar 18 '10 at 19:38

Sounds like you want to use the Observer pattern.

  • 1
    I can't impose interface requirements on the objects that need notifying. The only requirement they can have is to have a function of the correct signature. – Kylotan Mar 18 '10 at 16:35
  • In fact, there's no guarantee that the thing I'll be calling back into is even an object at all. It could be a free function. – Kylotan Mar 18 '10 at 16:53

The easiest way:

class Callback
  virtual ~Callback() {}
  virtual Callback* clone() const = 0;

  // Better to wrap the call (logging, try/catch, etc)
  void execute(const std::string& result) { this->executeImpl(result); }

  // Don't make sense to have them public
  Callback() {}
  Callback(const Callback&) {}
  Callback& operator=(const Callback&) { return *this; }

  virtual void executeImpl(const std::string& result) = 0;

// Example
class Example: public Callback
  Example(int a, int b): Callback(), mA(a), mB(b) {}
  virtual Example* clone() const { return new Example(*this); }

  virtual void executeImpl(const std::string& result) {}

  int mA;
  int mB;

And then, you can pass the callback class (by pointer / reference) to the process. The class has a state, as required, and may be copied if necessary (if not, drop the clone).

  • 2
    Unfortunately this would seem to require deriving a new class from Callback for each call site that I have, which I'm definitely hoping to avoid. – Kylotan Mar 18 '10 at 16:52
  • Yes and no, you would only need one class per functionality, which does not seem unreasonable to me. After all, don't you already have one function per functionality ? – Matthieu M. Mar 18 '10 at 17:44
  • A typical use of a callback would be a one-liner - invoke the routine and pass the function you want it to call at the end. In a more complex situation it might be 2 or 3 lines (eg. of boost::bind) to convert from a member function to a free function or to add extra parameters. This is 10 or 11 lines, which is too unwieldly by comparison. – Kylotan Mar 18 '10 at 17:56
  • Yes, for one liner it can prove a bit unwieldy :) I thought you had full fledged callback in mind in which case a few more lines don't matter because they are an order less of magnitude in comparison to the body of the function itself. – Matthieu M. Mar 19 '10 at 7:41

Your Answer

By clicking "Post Your Answer", you agree to our terms of service, privacy policy and cookie policy

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