Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

When I want to instantiate a class in C++ I usually go this way

Book bk = new Book();

My professor recently did this

Book &bk = *new Book();

He only told me that he would use a reference to be able to use the dot (eg bk.getTitle();) operator instead of arrow (eg bk->getTitle();). I understand this part of the code but what happens when you use the * operator in combination with new?

Thanks in advance

the full example code can be found here it is the arraystack in the main function

share|improve this question
So your professor showed you how to leak memory, great. –  ildjarn Feb 15 '12 at 0:44
If your professor uses that code for anything other than as an example of something that you really really shouldn't do, then you should find a new professor. –  Oli Charlesworth Feb 15 '12 at 0:44
Probably your professor said, const Book &bk = Book();. If that is not the case, I honestly don't understand what your professor meant. –  Mahesh Feb 15 '12 at 0:45
@Mahesh : The syntax in the question is valid, it's the semantics that are extremely misguided. –  ildjarn Feb 15 '12 at 0:47
@Mahesh You could do delete &bk, but this is still non-sense. @OP Find a new professor. –  pmr Feb 15 '12 at 0:51

3 Answers 3

up vote 6 down vote accepted


Book &bk = *new Book();

is pretty much equivalent to this:

Book *p = new Book();  // Pointer to new book
Book &bk = *p;  // Reference to that book

But there's one crucial difference; in the original code, you don't have a pointer which you can use to delete the dynamically-allocated object when you're done with it, so you've effectively created a memory leak.

Of course, you could do this:

delete &bk;

but that's extremely non-idiomatic C++, and very likely to cause problems later.

In summary, there's absolutely no good reason to write code like this, so don't do it. Either of the following is fine:

Book bk;
Book bk = Book();
share|improve this answer
thank you I think I will not use it then. The class is more about design patterns than it is about c++ so I will just ignore this programming style and do it my way. –  tim Feb 15 '12 at 0:53
You have definitely not created a memory leak though, I think that's a huge overstatement –  Seth Carnegie Feb 15 '12 at 0:56
@Seth : The original code does indeed have a leak... What do you mean? –  ildjarn Feb 15 '12 at 0:57
@SethCarnegie: That's why I said "effectively". But the need to write things like insanities such as delete &bk leads to all sorts of semantic issues, which in turn will lead to forgetting to clean something up somewhere down the line. –  Oli Charlesworth Feb 15 '12 at 0:58

maybe not 100% the right place, but I found non better article right now:

Suppose we want to take the return value of a func a() and assign it to the constructor of a new object:

SomeObject a = createNewSomeObject(x, y);
SomeConsumer con = SomeConsumer(a);

SomeConsumer is defined as:

public SomeConsumer::SomeConsumer(SomeObject& t) 
: local_t(t) { }

which indicates we have a internal variable in SomeConsumer to hold the reference.

1st question: should the internal variable be defined as:

SomeObject local_t;

or as:

SomeObject& local_t;

Then, what if the factory method does the following:

SomeObject& createNewSomeObject(int x, int y)
   mat* tempMat = new mat(x, y);
   return SomeObject(tempMat->memptr(),tempMat->n_rows, tempMat->n_cols);

Lets ignore the filename. What I want to achieve is that every time I call this method I create a new object. I know there is a memory leak inside the function, but is it really possible to remove the "new" keyword? SomeObject will get a mempointer to initialize because the mat object definition, which is i na library requests to do it that way. I have no other way to call that, so the way to create SomeObject is given by other means which I cannot modify.

What do you think?

share|improve this answer

I've found a situation that let me think about that syntax. Consider a smart pointer to a Base class and that has to hold a pointer to a derived class and you would like to access some non-virtual things of the derived class after the construction. In this case something like this is legal and may not be so bad:

Derived & d = * new Derived();

d.d_method( ..whatever.. );
d.d_member = ..whatever..;

std::unique_ptr<Base> p( &d );

Finally I still preferred the small arrows to the weird ampersands:

Derived d = new Derived();

d->d_method( ..whatever.. );
d->d_member = ..whatever..;

std::unique_ptr<Base> p( d );

But I think that in this a case is just a matter of taste, especially if you access a consistent number of methods.

Other things that lead either to leaks or delete &d; are just bad, bad, bad.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.