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Given the following class, which simply maps an internal functor f to a function to be run later:

class A {
   int (A::*f)(int);
   int foo(int x) { return x; }
   int bar(int x) { return x*2; }
   explicit A(bool foo=true) { f = foo ? &A::foo : &A::bar; }
   int run(int x) { return (this->*f)(x); }

Now say I have another class, B:

class B {
   int foo(int) { return x*x; }

And function foo:

int foo(int x) { return 0; }

I know it is not possible to have A assign and run B::foo or foo as their prototypes differ: int (A::*)(int) vs int (B::*)(int) vs int (*)(int).

What I am asking, is their any way to templatize A::f such that it could take any of them?

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2 Answers 2

up vote 2 down vote accepted

I am not exactly sure what you are trying to achieve, but you may want to look into:

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Normally, you use a std::/boost::/std::tr1 ::function<int(int)> for this kind of job. It can take any function object (including pointer) with the correct signature. You can create function objects that call member functions using bind, available in the same package.

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I will admit unfamiliarity with boost, heard of it, never used it. What would the prototype of f be in the case of my example such that f could be assigned any of the functions (A::foo, B::foo, and foo)? Just function<int(int)> f; And how would it be assigned? f = &::foo;, B b; f = & – steveo225 May 19 '11 at 19:00
@steveo225: Read the documentation. – Puppy May 19 '11 at 19:04
I see that now that Space_C0wb0y posted it – steveo225 May 19 '11 at 19:07
@steveo225 : I gave examples of this in the other thread you just posted in. – ildjarn May 19 '11 at 19:08
@ildjarn: That's hilarious. That question is what sparked me thinking of this. I often use functors, but never thought of using like that until I read that question. Then I got excited at all the possibilities. – steveo225 May 19 '11 at 19:18

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