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I am a little confused right now regarding C++ reference semantics. Suppose I have a class that returns a const reference:

class foo
    std::map<int, int> stuff;
    const std::map<int, int>& getStuff()
        return stuff;

And I use it as follows:

foo f;
const std::map<int, int>& s = f.getStuff();

which is fine, but if I were to use it as follows:

foo f;
std::map<int, int> s = f.getStuff();

What happens exactly?

If I understand correctly, a const reference to stuff was returned and a copy created into s on which I can wreak havoc. Would there be any way to avoid this?


So there is no way to avoid the copy constructor being called here, for std::map anyways...

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AFAIK the copy constructor will be called and I don't see a way to avoid this. – Lagerbaer Nov 29 '10 at 4:36
You're right. But you could always make s const if you want to prevent yourself from doing that. Also making s a const ref means that you need to make sure that f remains alive in the meantime -- which is will happen automatically if it is a previously-declared automatic variable as it is here, but requires management if it was created on the heap. – j_random_hacker Nov 29 '10 at 4:37
But whatever modification you perform on s will not affect the original object stuff. So how does it affect you? – Naveen Nov 29 '10 at 4:43
Instead of returning a reference to the map, why don't you just return const_iterators to begin() ad end()? Problem solved. No need to write a bunch of wrapper code. – John Dibling Nov 29 '10 at 5:11
@John: That's not really a usable solution if the OP wants to use std::map specific functionality like {upper,lower}_bound or find. – James McNellis Nov 29 '10 at 5:13
up vote 4 down vote accepted

Short answer: no, you can't prevent it. The client can't modify the original, but if you give the client read-access to the map, then the client is responsible for not doing stupid things with the information; the class can't possibly prevent that.

Longer answer: maybe, but not really. If you really want to make copying difficult, you can wrap the map in a class with private copy constructor and assignment operator. That way the s assignment will be illegal (rejected by the compiler). The client will still be able to read the elements of the map piecemeal and populate a new map with them -- a manual copy -- but the only way to prevent that is to restrict the read-access in the wrapper class, which kind of defeats the purpose of getStuff.

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A Wrapper! Yes, that is what I needed, thank you!!! my brain is totally fried tonight :s – Victor Parmar Nov 29 '10 at 5:03
std::map<int, int> s = f.getStuff();

This invokes the std::map<int, int> copy constructor and makes a copy of the object. The contents of the stuff map are copied into the new map s.

You can't wreak havoc with the original object because s is a new object completely unrelated to the original object, aside from the fact that the original object and the new object have the same contents.

It is impossible to legitimately wreak havoc with the stuff map via the const reference returned by foo::getStuff(). The only way you could modify the map would be through a const_cast, and modifying an object via a pointer or reference obtained through a const_cast may yield undefined behavior.

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Amazing that so many votes, inspite of the fact that it doesn't answer the question 'Would there be any way to avoid this?' – Chubsdad Nov 29 '10 at 4:58
Fair enough, I guess it's either use the reference or go const std::map<int, int> s = f.getStuff(); then – Victor Parmar Nov 29 '10 at 4:59
@Chubsdad: No, I was tackling the OP's meta-question of "how does this line of code really work?" Once you figure out that the original object is copied in entirety and that the new object is wholly unrelated to the original object aside from having the same contents, it should be straightforward. – James McNellis Nov 29 '10 at 5:01
@vic: Right. It should be up to the calling code whether or not it can modify the copy that it makes. If a caller wants to call foo::getStuff(), make a copy of the map, and wreak havoc with the copy, the foo class shouldn't care. – James McNellis Nov 29 '10 at 5:03

Yes, your understanding is correct. This is nothing by copy initialization and involves the use of a copy constructor. There is no way to avoid this copy as this is what is being requested by the code snippet you have shown.

Even if you wreak havoc on the copy, don't worry. The original is still safe. The concern is only if the process of creating a copy can wreak havoc, but then that's a different issue.

C++ 03 relevant references:

$8.5/12- "The initialization that occurs in argument passing, function return, throwing an exception (15.1), handling an exception (15.3), and brace-enclosed initializer lists (8.5.1) is called copy-initialization and is equivalent to the form T x = a;"

$8.5/14- "If the initialization is direct-initialization, or if it is copy-initialization where the cv-unqualified version of the source type is the same class as, or a derived class of, the class of the destination, constructors are considered. The applicable constructors are enumerated (, and the best one is chosen through overload resolution (13.3). The constructor so selected is called to initialize the object, with the initializer expression(s) as its argument(s). If no constructor applies, or the overload resolution is ambiguous, the initialization is ill-formed."

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So, if the OP is a little confused regarding reference semantics, quoting the standard is probably a bit overbearing... – James McNellis Nov 29 '10 at 4:50

Yep, this will create a copy of the map.

As for your question - depends just how much you want to avoid. In general, if this is a class you declared yourself, you can make the copy constructor or operator = private to prevent it from being used, but obviously, this will prohibit you from quite a few things.

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