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When I want to add functionality to this structure, without changing it:

class MemberBase
    virtual MemberBase* clone() const; 
    virtual void action1(); 

class Container
    virtual void functionUsingAction1();
    std::vector<MemberBase*> members_

I can subclass MemberBase and

class MemberType1 : public MemberBase
    MemberBase* clone() const;// Reimplementation
    void action1();           // Reimplementation
    virtual void action2();   // New functionality

I can fill the container with the desired type of data by employing the

MemberBase* MemberBase::clone() const;

Method. But how do I call

void MemberType1::action2(); 

from the methods of the Container class? I can use dynamic_cast, but that is considered a design flaw. Is there any workaround? Or better, any pattern I can follow?

share|improve this question
First of all I would recommend reading about boost::ptr_vector. A boost::ptr_vector<MemberBase> would guarantee exception safety with not cost in your Container. Secondly, what are you really trying to achieve ? There are many ways to answer your question, it really depends on what's the problem at hand. – Matthieu M. Apr 11 '12 at 9:56
I believe, that in the Container class you wanted to write std::vector<MemberBase*> ? – Spook Apr 11 '12 at 10:00
Thank you! I am building a library of genetic algorithms. Each algorithm uses a container, but the requirements on the Container members change. For every algorithm there should be a specific MemberType class. – Martin Drozdik Apr 11 '12 at 10:04
What class responce for calling new functionality "void MemberType1::action2()"? – zabulus Apr 11 '12 at 10:16
@zabulus I want to call the "void MemberType1::action2()" from methods of Container and types derived from Container – Martin Drozdik Apr 11 '12 at 10:22
up vote 2 down vote accepted

Honestly, the more I look at it and it looks like a typical Visitor application to me.

I would suggest avoiding implementing any intelligence in your Container class, and instead delegate the actions to a specific Visitor class. The base Visitor can be given some way to safely interact with the underlying container structure (erase/insert).

// MemberBase.hpp
class Visitor;

class MemberBase {
  virtual MemberBase* clone() const = 0;

  virtual void accept(Visitor&) = 0;
  virtual void accept(Visitor&) const = 0;
}; // class MemberBase

// Visitor.hpp
class Member1;
class Member2;

class Visitor {
  virtual void visit(Member1&) = 0;
  virtual void visit(Member1 const&) = 0;

  virtual void visit(Member2&) = 0;
  virtual void visit(Member2 const&) = 0;

// Container.hpp
#include <MemberBase.hpp>

class Container {
  void accept(Visitor& v) {
    BOOST_FOREACH(MemberBase& mb, _members) {

  void accept(Visitor& v) const {
    BOOST_FOREACH(MemberBase const& mb, _members) {

  boost::ptr_vector<MemberBase> _members;

Then you need to implement the member's accept methods. It's purely mechanical.

// Member1.hpp
#include <MemberBase.hpp>

class Member1: public MemberBase {
  virtual Member1* clone() const { return new Member1(*this); }

  virtual void accept(Visitor& v);
  virtual void accept(Visitor& v) const;

// Member1.cpp
#include <Member1.hpp>
#include <Visitor.hpp>

void Member1::accept(Visitor& v) { v.visit(*this); }
void Member1::accept(Visitor& v) const { v.visit(*this); }

And finally you can implement a visitor:

// CountVisitor.hpp
#include <Visitor.hpp>

class CountVisitor: public Visitor {
  CountVisitor(): _count(0) {}

  size_t count() const { return _count; }

  virtual void visit(Member1&);
  virtual void visit(Member1 const&);

  virtual void visit(Member2&);
  virtual void visit(Member2 const&);

  size_t _count;

// CountVisitor.cpp
#include <CountVisitor.hpp>
//#include <Member1.hpp> // where you would include, but unnecessary here

void CountVisitor::visit(Member1&) { ++_count; }
void CountVisitor::visit(Member1 const&) { ++_count; }

void CountVisitor::visit(Member2&) { ++_count; }
void CountVisitor::visit(Member2 const&) { ++_count; }

And you use it as:

// main.cpp
#include <iostream>

#include <Container.hpp>
#include <CountVisitor.hpp>

int main() {
  Container const c = /* something */;

  CountVisitor cv;

  std::cout << cv.count() << " items in the container\n";

The weakness of this design is that a new visit method need be implemented for each new class directly deriving from MemberBase, and thus the MemberBase hierarchy is not so open. This can be alleviated using the Acyclic Visitor; however, I have rarely needed it.

To "extend" the ability, you can have Visitor::visit and MemberBase::accept return an "action" to be executed (erase, clone, etc...) and deal with this in the two loops you actually have. It could be reduced to one loop using some tricks...

share|improve this answer
OP said in comment that "requirements on the Container members change." I take that to mean they are unstable. So, doesn't this break the Visitor pattern? Visitors are the open part (the classes that can vary), and the Visitees (Containers in this case) are closed (supposed to be stable in the context of the pattern). – Fuhrmanator Apr 12 '12 at 2:32
@Fuhrmanator: I don't think so (and apparently neither does the OP since he accepted the answer). The requirements on Container changed before the introduction of the pattern, but now those changes are supported by the Visitor hierarchy which is open. I underlined the issue with introducing new types in the MemberBase rooted hierarchy at the end, which can be alleviated by the Acyclic Visitor pattern if necessary. I did not presented it here because it's more complicated and the answer was already long. – Matthieu M. Apr 12 '12 at 7:55
OK, I edited the next-to-last paragraph of your answer that said the Visitor hierarchy is not so open. – Fuhrmanator Apr 12 '12 at 13:11
@Fuhrmanator: thanks. – Matthieu M. Apr 12 '12 at 13:56

If you know, that each member will publish different functions, you may always create methods like EnumerateActions(), CallAction(std::string action) and so on - which will be safer, but might be compared to shooting a sparrow with a bazooka.

Another option is to make interfaces: IAction1, IAction2 and implement them in the member derived classes. Then you just check, if a member implement an interface and use it. Container won't be aware of specific member classes, yet you will still be able to access their specific functionalities.

share|improve this answer

One option I can think of o check each object whether it is MemberType1 object, and if the condition is true, then you can call the action2(). Its a very naive solution but I am sure someone else will soon come up with a smart one :)

share|improve this answer
He's already suggested that - I can use dynamic_cast, but that is considered a design flaw. Is there any workaround? – Luchian Grigore Apr 11 '12 at 9:57

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