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I am trying to write very simple Any object, which can hold object of any type. I want it use inside container, to achieve heterogeneous container.

#include <iostream>
#include <vector>
#include <string>

struct Any
{
    template < typename T >
    Any(const T & t) 
        :p(new storageImpl<T>(t)) { }

    ~Any() 
    {
        delete p;
    }

    struct storage
    {
        virtual ~storage() {}
    };

    template <typename T>
    struct storageImpl : storage
    {
        storageImpl(const T & t) : data(t) {}
        T data;
    };

    template <typename T>
    T & get()
    {
        storageImpl<T> * i = static_cast<storageImpl<T>*>(p);
        return i->data;
    }

    storage * p;
};

usage

int main ()
{
    //block1
    Any copy(Any(std::string("foo")));      
    std::cout << copy.get<std::string>();   

    //block2
    std::vector<Any> cont;
    cont.push_back(Any(5));
    cont.push_back(Any(37.9f));
    std::cout << cont[0].get<int>();    
    std::cout << cont[1].get<float>();  
}

I have problem with copy-construction.

When I push Any into vector (//block2), the unnamed Any gets destroyed, so pointer gets deleted, and pushed object is no longer valid.

So I have 2 questions:

1, How to write copy constructor for class Any?

2, Why isn't unnamed Any in block1 destroyed, so its pointer isn't deleted?\

EDIT I have tried

template <typename T>
Any(const Any & rhs)
    :p(new storageImpl<T>(rhs.get()))
{
}

but it doesn't get triggered.

share|improve this question
1  
In case you don't know, there is already Boost.Any. –  kennytm Sep 2 '12 at 8:46
    
@KennyTM I know, but I do not want to use boost. –  relaxxx Sep 2 '12 at 8:52

2 Answers 2

up vote 2 down vote accepted

Any is not a template class. Trying to template the copy-constructor as template <typename T> Any(const Any & rhs) is meaningless.

What you could do is to use the virtual constructor idiom, to let the storageImpl copy itself. This is also the method used in Boost.Any.

struct Any {
    template < typename T >
    Any(const T& t) : p(new storageImpl<T>(t)) {}

    Any(const Any& other) : p(other.p->clone()) {}
 // ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

    ~Any() { delete p; }

    struct storage {
        virtual ~storage() {}
        virtual storage* clone() = 0;
     // ^^^^^^^^^^^^^^^^^^^^^^^^^^^^
    };

    template <typename T>
    struct storageImpl : storage {
        storageImpl(const T & t) : data(t) {}

        virtual storage* clone() { return new storageImpl(data); }
     // ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

        T data;
    };

    template <typename T>
    T& get() {
        storageImpl<T>* i = static_cast<storageImpl<T>*>(p);
        return i->data;
    }

    storage * p;
};

Notice that this implementation have a lot of problems, e.g. the get() method won't check whether the Any is really holding a T. It is still better to use a well-tested library e.g. Boost.Any.


Why isn't unnamed Any in block1 destroyed, so its pointer isn't deleted?

Copy elision.

share|improve this answer
    
Thank you very much Kenny, the type check is not really a concern, I plan to use it just once, for one minor problem, so I do not want to use boost. –  relaxxx Sep 2 '12 at 9:10
  1. Make a deep copy, i.e. dynamically allocate a new storageImpl<T> object, initialized to the contents of the one from the object being copied from.

  2. You could have copy elision taking place, meaning there is no temporary object to be deleted.

Or, avoid all problems by using boost::any.

share|improve this answer
    
thank you, but how to write such constructor? See edit of my question for what I have tried. And thanks for Copy elision –  relaxxx Sep 2 '12 at 8:53
    
@relaxxx are you sure the code compiler? You are calling a non-const methog get() on a const reference. Actually, it looks like you need to know rhs's T in order to copy. –  juanchopanza Sep 2 '12 at 8:58

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