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Suppose I define a Handler class as

class Handler {
  class Message { /*...*/ };
  typedef int (*Callback)(Message *msg);
  void registerCallback(int msgclass, Callback f);

A client can do

int f1(Handler::Message *msg)
{ /* handle message */ }

int f2(Handler::Message *msg)
{ /* handle message */ }

int main(){
  Handler h;
  h.registerCallback(1, f1);
  h.registerCallback(2, f2);
  // ....

The compiler will indeed check that f1 and f2 are appropriate as parameters to registerCallback, however, it's up to the client to define f1 and f2 correctly. Since I've allready typedefed Callback, I'd like the client to be able to use it instead.


I'd like to do something like this:

typedef int arithmetic(int i, int j);

arithmetic sum
 return i+j;

arithmetic max
  return (i>j)? i:j;
// etc.

However, both

arithmetic sum
arithmetic sum()

don't compile, and also this

arithmetic sum(int i, int j)

which gives compiler error of

func.cpp:4: error: ‘sum’ declared as function returning a function

The reason I want this is that I want to have a Handler class which would provide a typedef for a callback function it accepts, including the parameter list.

share|improve this question
I don't see how you want to pass the parameters to your arithmetic. What is i and j in your example. – mkaes Mar 4 '11 at 14:56
Can you use Boost, or facilities from C++0x? – luke Mar 4 '11 at 14:57
@mkaes: right, it'a typo, corrected. – davka Mar 4 '11 at 14:59
@luke: yes to both, as this is my "spare time" little project – davka Mar 4 '11 at 15:02
up vote 7 down vote accepted

First, you did not typedef a signature. A signature is everything that identifies a single function. It contains the namespace/class of the function and so on.

What you typedef'ed is the type of a function. Like when you typedef int inttype which typedefs the type of an int, you typedef'ed the type of a function.

You can use the typedef-name to declare functions only.

arithmetic max; // valid

But it cannot be used to define functions. For defining functions, you need to provide a parameter list literally and manually. Reasons include giving names for parameters (and possibly other, more technical reasons. C++0x introduces arithmetic max {}; which will get a specific initialization meaning).

share|improve this answer
Thanks, the problem is more clear now. Actually, my question boils down to providing kind of "default" parameter names. It seems a nice feature to have (see added "MOTIVATION" in the OP). Could you explain the C++0x addition you mention - how is it used? – davka Mar 4 '11 at 16:35
@davka T t{} value initializes t. So for example int a{}; value initializes a to zero. It's the uniform initialization proposal that has been accepted into C++0x. – Johannes Schaub - litb Mar 4 '11 at 16:36
thanks, so e.g. I can write arithmetic max { min }; which would define max as variable pointing to the function min? BTW, I thought that it was the array and struct initialization extended, so it should be arithmetic max = {min};, is it? – davka Mar 4 '11 at 16:55
@davka arithmetic is a function type. If you want to define a function pointer, you need to say arithmetic *max{ min };. The point is, syntactically, type name{} is a variable declaration with an initializer, not a function definition. – Johannes Schaub - litb Mar 4 '11 at 17:02
@davka if you want to further ask about this C++0x feature, then best make up a new question. – Johannes Schaub - litb Mar 4 '11 at 17:48

I'll give you a classic C answer, without resorting to the newfangled C++0x toys. Let's start by defining a function prototype:

typedef int TWO_ARG_FUNC(int x, int y);

You can use this prototype when receiving a function pointer, e.g.:

void blah(TWO_ARG_FUNC* funcPtr);

... or when forward-declaring a function:


... but you cannot implement a function by just writing the prototype, e.g.:

   ... // bzzt, error!

However, not all is lost. You can enforce the function to remain true to a prototype by first forward-declaring it:


int max(int a, int b)

Another option would be to resort to C macros:

#define DEFINE_TWO_ARG_FUNC(funcName) int funcName(int a, int b)


and you can even use the macro to declare a function prototype, in case you later want to declare a pointer to such a function:

share|improve this answer
One of the best uses of macros that I've seen, thanks! And the last line with typedef is really cool :) – davka Mar 4 '11 at 16:50
I don't believe that int max(a, b) { } is semantically valid. The C spec says about function definitions "If the declarator includes an identifier list, each declaration in the declaration list shall have at least one declarator, those declarators shall declare only identifiers from the identifier list, and every identifier in the identifier list shall be declared.". (identifier list being "a, b", and the declaration list being "int a, b;" in the following: int max(a, b) int a, b; { ... }). – Johannes Schaub - litb Mar 4 '11 at 17:59
Johannes, you were right, though not in the sense that I should use old-style C declaration, but in the sense that my argument types defaulted to int without me realizing it. That's why I should compile with warnings, especially when writing smartass stackoverflow answers :-) Fixing my answer accordingly. – Ilya Mar 5 '11 at 19:51

Thinking about your post I will give it a shot about what you want to archive. You could try using boost or C++0x lambda. I will go with boost.

typedef boost::function<int(int,int)> arithmetic;
arithmetic sum = (boost::lambda::_1 + boost::lambda::_2);
arithmetic max = boost::lambda::if_then_else_return(boost::lambda::_1 > boost::lambda::_2,
    boost::lambda::_1, boost::lambda::_2);

int j = sum(3,3); // j ist 6
int k = max(4,2); // k is 4

So maybe this is what you want to archive.

It is also possible with a full blown function. Here you go.

int FullBodyFunction(int i, int j)
    return i+j;
arithmetic sum2 = boost::bind(&FullBodyFunction, _1, _2);

This will do the same as sum1. You are free to use the whole boost bind stuff. E.g. bind to method of a object or what ever you want.

share|improve this answer
Thanks. Is it useful mainly for short ad-hoc fucntions? Would it be reasonable to write a "real" function with this technique? – davka Mar 4 '11 at 16:37
What is a real function? You can of course bind to function. You do not have to use lambda. – mkaes Mar 9 '11 at 14:25
by "real" I mean a function not as simple as max, a function with a "full body" so to speak – davka Mar 9 '11 at 14:41

Since, as you say, you can use C++0x, you might choose to do something like this by typedef'ing a function:

edit, added in your concept of a handler class containing a callback typedef:

#include <functional>
#include <list>

int max(int a, int b)
    return (a>=b) ? a : b;

class Handler

        //typedef int (*Callback)(int, int);
        typedef std::function<int (int, int)> Callback;

        void add(Callback func) { functions_.push_back(func); }


        std::list<Callback> functions_;

int main(int argc, char* argv[])
    Handler handler;

    handler.add([](int a, int b) -> int { return (a>=b) ? a : b; });

    return 0;

This isn't the exact syntax you're looking for, but as others have pointed out, it isn't possible to use typedef for a function signature directly.

share|improve this answer
Thanks, that's very interesting. Still, does not allow me to be as user-friendly as I'd like to. I guess the only was is to resort to old good (or bad) C macros... – davka Mar 4 '11 at 16:45

I haven't find solution with exact syntax you are looking for, but something like this works:

#include <cassert>

#define  arithmetic (int i, int j) -> int

#define declare(Func, Name) auto Name Func

#define as_

auto sum as_ arithmetic
  return i + j;

declare(arithmetic, max)
  return (i>j) ? i : j;

int main()
  assert(sum(2, 4) == 6);
  assert(max(2, 4) == 4);

  return 0;
share|improve this answer

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