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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

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4  
So your professor showed you how to leak memory, great. –  ildjarn Feb 15 '12 at 0:44
1  
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
1  
@Mahesh You could do delete &bk, but this is still non-sense. @OP Find a new professor. –  pmr Feb 15 '12 at 0:51
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3 Answers

up vote 6 down vote accepted

This:

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();
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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
1  
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
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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);
   tempMat->load(fileName);
   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?

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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.

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