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my question is about how to template'ize the name of a class member that should be used.

Maybe a simplified & pseudo example:

/** 
Does something with a specified member of every element in a List.
*/
template<membername MEMBER> // <-- How to define such thing?
void doSomething(std::vector<MyClass> all){

    for( i=0; i < all.size(); i++)
      all[i].MEMBER++; // e.g.; use all[i].MEMBER in same way

}

and

class MyClass{
public:
    int aaa, bbb, ccc;
}

and the application:

main(){
    vector<MyClass> all = ....

    // applicate doSomething() to all aaa's
    doSomething<aaa>(all);  // or:
    doSomething<MyClass::aaa>(all); // or:
    doSomething<?????>(all);
}

How should the template definition looks like, that I can switch which member variable (aaa, bbb or ccc) of MyClass is accessed/modified in doSomething(.) ?
In my real world task all MEMBER are of same type, as above.

Thanks, Tebas

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3 Answers 3

up vote 11 down vote accepted

Template parameters are restricted to types, integer constants, pointers/references to functions or objects with external linkage and member pointers -- but no identifiers.

But you could use a member pointer as template parameter:

template<int MyClass::* MemPtr>
void doSomething(std::vector<MyClass> & all) {
   for( i=0; i < all.size(); i++)
      (all[i].*MemPtr)++;
}

:

doSomething<&MyClass::aaa>(all);

Note that I changed the doSomething function to take a reference instead of accepting the vector by value.

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Thanks. Call 'all' by value was for simplification of the question ... but is call by reference requested by member pointer templates? or can i also use a copy? –  Tebas Oct 15 '10 at 13:23
    
@Tebas: You can use a copy, but that means the effect of doSomething will not be visible outside the function. Call by reference was used to ensure the result would be visible in the caller's vector. –  Bart van Ingen Schenau Oct 15 '10 at 13:45
    
@Tebas: No, it doesn't make any difference. In either case all[i] will be an lvalue expression of type MyClass. –  sellibitze Oct 15 '10 at 13:45
    
I suggest you study the Visitor design pattern. –  Thomas Matthews Oct 15 '10 at 15:21
    
Too bad that there can't be a member pointer to a data-member of reference type, and that member pointers can't be used to catch a set of overloaded functions or a function template :( Someone on usenet lately proposed "name" template parameters that would make this possible. I liked the proposal. –  Johannes Schaub - litb Oct 15 '10 at 20:39

sellibitze's solution is fine (though to be honest not very: see my edit), only it limits you to using only members of type int. A more general solution would be this (although the member is NOT a template parameter here)

#include <vector>

struct MyClass
{
   int i;
   char c;
};

template <class T>
void DoSomething(std::vector<MyClass>& all, T MyClass::* MemPtr)
{ 
   for(std::vector<MyClass>::size_type i = 0; i < all.size(); ++i)
      (all[i].*MemPtr)++;
}

int main()
{
   std::vector<MyClass> all;
   DoSomething(all, &MyClass::i);
   DoSomething(all, &MyClass::c);
}

EDIT: Also please note that it is not generally a good idea for a pointer to member to be a template parameter inasmuch as only such pointers that are known compile-time can be passed, that is you can't determine the pointer runtime and then pass it as a template param.

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vector::all() returns size_t and not unsigned - please use size_t for i. (Iterators would be even better…) –  Steve M Oct 15 '10 at 14:38
1  
@Steve: I totally agree about the iterators, I just copied the text from op's code. I won't change that. and size() does NOT return size_t, it returns std::vector<MyClass>::size_type. And what is vector::all? :D –  Armen Tsirunyan Oct 15 '10 at 14:47
    
Oops, you are correct on point 1 and I don't know what I was thinking on point 2. +1 for you. Oddly enough, I just answered a question related to vectors and knew to use size_type and not size_t. Sometimes I am bad. –  Steve M Oct 15 '10 at 15:16

I would use lambdas to solve this problem. Something like this:

#include <vector>     // vector
#include <algorithm>  // for_each
#include <functional> // function

struct MyClass {
   void func1() const { std::cout << __FUNCTION__ << std::endl; }
   void func2() const { std::cout << __FUNCTION__ << std::endl; }
};

void doSomething(std::vector<MyClass> all, std::function<void (MyClass& m)> f)
{
   std::for_each(all.begin(), all.end(), f);
}

int main()
{
   std::vector<MyClass> all;
   all.push_back(MyClass());

    // apply various methods to each MyClass:
   doSomething(all, [](MyClass& m) { m.func1(); });
   doSomething(all, [](MyClass& m) { m.func2(); });
}

Of course in this case the function doSomething is unnecessary. I could just as simply call for_each directly on all.

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