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Single point construction of hierarchical objects in C++

, 1 Dec 2010 CPOL
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Prohibit construction of hierarchical objects both on the heap and on the stack, and allow construction from a single construction point in the base class.


As it is well known, smart pointers with reference counting in C++ are responsible for sharing object pointers and managing their memory life cycle. When using smart pointers, it is assumed that an internal object pointer that is managed by a smart pointer is not accessible outside the smart pointer. Accessing the internal object pointer outside the smart pointer may lead to an accidental pointer deletion and subsequent memory problems. In order to avoid such problems, it would be great to allow object pointer creation only within the smart pointer and forbid its creation outside the smart pointer.


In one of my projects, we built a framework that introduced a bunch of base classes that the framework works with. The framework makes use of only smart pointers created from these base classes for controlling the class object's memory life cycle. The user may extend the framework by subclassing these base classes; however, the framework utilizes only smart pointers created from these derived user classes. In order to avoid the memory problems described above, a request appeared to disallow derived classes construction on the heap (pointers) as well as on the stack (it is a 'nice to have' ability) and allow only derived class' smart pointer construction. All this has to be done by means of the framework without any assistance from the user; in other words, this should be enforced over the user derived classes.

Code overview

In this article, I show the code that allows the base class to prohibit its derived classes construction on the stack and on the heap from outside the base class and enforce all derived classes to be constructed from a single construction point within the base class.

Here is an example of the Base class that achieves the declared goal:

class Base
    class ForbidConstruction

        ForbidConstruction(const ForbidConstruction&);
        ForbidConstruction& operator=(const ForbidConstruction&);

        friend class Base;    
    Base(const ForbidConstruction& /* dummy parameter */)
        // Do some construction activity
    virtual ~Base() {}

    template <typename T>
    static   SmartPtr<T> create() 
        return SmartPtr<T>( new T( Base::ForbidConstruction() ) ); 

    Base(const Base&);
    Base& operator=(const Base&);

class Derived: public Base
    Derived(const Base::ForbidConstruction& dummy, /* other constructor parameters */) : 
        // Do some construction activity
int main()
    SmartPtr<Derived> derived = Base::create<Derived>();

The class Base has a public constructor that accepts an internal class ForbidConstruction reference. Note that the internal class ForbidConstruction has a private constructor and thus can be created only within class Base that is declared as its friend. Any class that is derived from the Base class should pass the ForbidConstruction object to the Base class constructor. However, the derived class is not able to construct the ForbidConstruction object itself, so the only option is to accept the ForbidConstruction object as the derived class' constructor parameter.

Since the ForbidConstruction object can not be created anywhere outside the Base class, the Derived object can be created neither on the stack nor on the heap (pointer) outside the Base class. So the only way to construct the Derived object is from within the Base class. The Base class provides a static templated create() method that creates the Derived object pointer and returns it wrapped within a smart pointer SmartPtr class.

With the above preparations made in the Base class, we are able to create a robust framework that does not suffer from an accidental derived class pointer deletion.


This article, along with any associated source code and files, is licensed under The Code Project Open License (CPOL)


About the Author

Gregory Shpitalnik
Software Developer (Senior) Marvell
Israel Israel
17 years experience software engineer at Marvell company in Israel.

Comments and Discussions

GeneralMy vote of 5 Pinmemberiamxyb16-May-13 2:43 
GeneralDerived class with constructor having parameters Pinmemberck08157-Dec-10 23:48 
GeneralRe: Derived class with constructor having parameters PinmemberGregory Shpitalnik7-Dec-10 23:53 
Hi, Christian !
Yes, There is some template magic. I already answered this question to someone below.
Here is the answer:
In order to support more Derived class constructor parameters you can right another create() template methods
with more templated parameters, like below. ('[' is "less" and ']' is "greater" )
template [typename T, typename P1]
static SmartPtr[T] create(P1 p1)
return SmartPtr[T](new T( Base::ForbidConstruction(), p1) );
template [typename T, typename P1, typename P2]
static SmartPtr[T] create(P1 p1, P2 p2)
return SmartPtr[T] new T( Base::ForbidConstruction(), p1, p2 ) );
SmartPtr[Derived] d1 = Base::create[Derived](1);
SmartPtr[Derived] d2 = Base::create[Derived](1, 3.0);
GeneralRe: Derived class with constructor having parameters Pinmemberck08158-Dec-10 3:50 
GeneralMy vote of 4 PinmemberEmilio Garavaglia1-Dec-10 22:11 
GeneralRe: My vote of 4 PinmemberEmilio Garavaglia1-Dec-10 22:47 
GeneralRe: My vote of 4 PinmemberGregory Shpitalnik1-Dec-10 23:23 
GeneralRe: My vote of 4 PinmemberArman S.6-Dec-10 8:02 
GeneralRe: My vote of 4 PinmemberAndy Bantly14-Jun-13 12:19 
GeneralMy vote of 5 PinmemberGalatei1-Dec-10 13:52 
Generalcongratulations PinmemberMashaMariaD1-Dec-10 9:57 
GeneralHm... :) PinmemberEugen Podsypalnikov30-Nov-10 21:55 
GeneralRe: Hm... :) PinmemberGregory Shpitalnik30-Nov-10 22:31 
Generalsmart pointers pointing to local variables PinmemberSkond30-Nov-10 6:18 
GeneralRe: smart pointers pointing to local variables PinmemberxComaWhitex30-Nov-10 22:13 
GeneralRe: smart pointers pointing to local variables PinmemberGalatei1-Dec-10 13:48 
GeneralMy vote of 5 PinmemberBhasker Kandpal29-Nov-10 20:38 

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