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Why isn't the following used:

struct Foo
    int x;

int main()
    Foo &foo = *new Foo();
    foo.x = 7;
    std::cout << foo.x << std::endl;
    delete &foo;

After all, one must use references when possible, and with this approach, once we dereferenced initially, we never have to worry about forgetting it again. What are the downsides?


I know about operator ->, by forgetting i mean

int &n = *new int;
n = 7;
int *m = new int;
*m = 7; //here you can forget it
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But you should delete the memory through delete &foo; –  0x499602D2 May 11 '13 at 0:35
What exactly do you mean by forgetting? –  0x499602D2 May 11 '13 at 0:37
Use smart pointers, such as shared_ptr, which automatically delete their objects. In that case, your code will need no delete statements and it won't leak memory. –  Neil Kirk May 11 '13 at 0:47
@NeilKirk all right, but you can also delete this way and it wont leak memory. This was about using the same syntax for dynamic objects. –  Innkeeper May 11 '13 at 0:57
I do agree this is one annoying part of C++, the fact that there are pointers and references (it is a little easier in C#, java since there are only references). I think it is just a peculiarity of the language which has evolved over so many years. Maybe just one of those things you have to live with? –  Wayne Uroda May 11 '13 at 0:59
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4 Answers

up vote 3 down vote accepted

You'll have a memory leak. You'd have to do something like this at the end of the function:

delete &foo;

This is a bad idea.

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But why is it a bad idea? –  Innkeeper May 11 '13 at 0:39
My experience is that I will start forgetting which variables are or are not dynamically allocated. It complicates things for me and for anyone reading the code. –  danf May 11 '13 at 0:43
Ok, so forgetting which variables to delete is a concern, yes. –  Innkeeper May 11 '13 at 0:45
A very big one, beside there is zero gain in dereferencing it, since you still will have to delete, and you wont forget to dereference it when its needed (I.E passing as argument to a function) because then it wont compile. –  AngelCastillo May 11 '13 at 0:47
@AngelCastillo Ok, I see that, but is this the only reason? Not saying it isn't enough, I just want to be thorough. –  Innkeeper May 11 '13 at 0:54
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You can do this in conjunction with a smart pointer.

std::unique_ptr<Foo> p(new Foo);
Foo &foo = *p;

Then, the memory will be properly deleted for you at the end of the scope.

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Apart from the confusing syntax compared to simply allocating as Foo foo; I wonder if there is a compelling reason to allocate something in this way - for example, it is allocated on the heap and not the stack - could this make a difference (eg avoid stack overflows?) when used with very large objects? –  Wayne Uroda May 11 '13 at 1:12
The only reason I had thought of is if the instance needs to live beyond the scope of the reference. E.g., the pointer (or reference) is passed to a framework that manages the object instance. Your point about large objects overwhelming the stack is also a good reason to dynamically allocate over using a local instance. –  jxh May 11 '13 at 1:15
If you want the memory to live longer than the scope of the reference, it will have to be std::moveed out of the unique_ptr p, right? I don't think this would be possible if all you have to work with is the reference to *p - I've only worked with auto_ptr and not yet C++11 so correct me if I'm wrong :) –  Wayne Uroda May 11 '13 at 1:18
@WayneUroda: Yes, it would have to be std::moveed. –  jxh May 11 '13 at 1:34
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There is no visible downside of this approach. However, if one has to use reference with dynamic allocation, i.e. T& t = *new T;, then the design should be reconsidered.
Why? Because,

"References have to be initialized when declared."

Which means, you cannot do T& t; and then allocate some memory to it.
Thus below statement:

T& t = *new T;  // (1) costly heap allocation (2) exception handling (3) need cleaning

becomes trivially inferior alternative to:

T t;  // (1) cheaper auto allocation (2) no exception (2) no need to clean

So even though you can dynamically allocate references, they are almost never needed.

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Yes, the better use case is when a pointer is passed to a function. The function implementation can then use a reference and dereference the pointer argument to get a short-hand. –  jxh May 11 '13 at 1:03
@user315052, but then one need to make sure that pointer is not null. Otherwise results in undefined behavior. –  iammilind May 11 '13 at 1:05
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Re: "one must use references when possible"? Where does this (bad) advice come from?

Foo foo;
foo.x = 7;
std::cout << foo.x << std::endl;

No pointers, no references, no free store, no delete.

But when you do allocate from the free store, you get a pointer to the data object. Don't turn that into a reference unless you absolutely have to, and even then, don't do it.

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