What is a smart pointer and when should I use one?
A smart pointer is a class that wraps a "bare" C++ pointer, to manage the lifetime of the object being pointed to.
With "bare" C++ pointers, the programmer has to explicitly destroy the object when it is no longer useful.
A smart pointer by comparison defines a policy as to when the object is destroyed. You still have to create the object, but you no longer have to worry about destroying it.
Note that scoped_ptr instances cannot be copied. This prevents the pointer from being deleted multiple times (incorrectly). You can however pass references to it around to other functions you call.
Scoped pointers are useful when you want to tie the lifetime of the object to a particular block of code, or if you embedded it as member data inside another object, the lifetime of that other object. The object exists until the containing block of code is exitted, or until the containing object is itself destroyed.
A more complex smart pointer policy involves reference counting the pointer. This does allow the pointer to be copied. When the last "reference" to the object is destroyed, the object is deleted. This policy is implemented by
Reference counted pointers are very useful when the lifetime of your object is much more complicated, and is not tied directly to a particular section of code or to another object.
There is one drawback to reference counted pointers — the possibility of creating a dangling reference.
Another possibility is creating circular references.
To work around this problem, both boost and C++11 define
Also note that the existing standard C++ library does define a special kind of smart pointer
A smart pointer is like a regular (typed) pointer, like "char*", except when the pointer itself goes out of scope then what it points to is deleted as well. You can use it like you would a regular pointer, by using "->", but not if you need an actual pointer to the data. For that, you can use "&*ptr".
It is useful for:
You may not want to use a smart pointer when:
Most kinds of smart pointers handle disposing of the pointer-to object for you. It's very handy because you don't have to think about disposing of objects manually anymore.
The most commonly-used smart pointers are
Smart pointer is a pointer-like type with some additional functionality, e.g. automatic memory deallocation, reference counting etc.
Small intro is available on page Smart Pointers - What, Why, Which?.
One of the simple smart-pointer type is
Another convenient type is
Subject is covered in depth in book "C++ Templates: The Complete Guide" by David Vandevoorde, Nicolai M. Josuttis, chapter Chapter 20. Smart Pointers. Some topics covered:
Definitions provided Chris,Sergdev and Llyod is correct. I prefer a simpler definition though, just to keep my life simple:
Smart pointer is simply a class that overloads
A smart pointer is an object that acts like a pointer, but additionally provides control on construction, destruction, copying, moving and dereferencing.
One can implement one's own smart pointer, but many libraries also provide smart pointer implementations each with different advantages and drawbacks.
For example, Boost provides the following smart pointer implementations:
These are just one linear descriptions of each and can be used as per need, for further detail and examples one can look at the documentation of Boost.
Additionally, the C++ standard library provides three smart pointers;
Here is the Link for similar answers : http://sickprogrammersarea.blogspot.in/2014/03/technical-interview-questions-on-c_6.html
A smart pointer is an object that acts, looks and feels like a normal pointer but offers more functionality. In C++, smart pointers are implemented as template classes that encapsulate a pointer and override standard pointer operators. They have a number of advantages over regular pointers. They are guaranteed to be initialized as either null pointers or pointers to a heap object. Indirection through a null pointer is checked. No delete is ever necessary. Objects are automatically freed when the last pointer to them has gone away. One significant problem with these smart pointers is that unlike regular pointers, they don't respect inheritance. Smart pointers are unattractive for polymorphic code. Given below is an example for the implementation of smart pointers.
This class implement a smart pointer to an object of type X. The object itself is located on the heap. Here is how to use it:
Like other overloaded operators, p will behave like a regular pointer,
protected by Bo Persson Jul 2 '12 at 23:38
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