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I have something like

class X
{
    private:
    someclass obj;

    public:
    someclass& get()
    {
        return obj;
    }
};

I dont want to make obj public, so i get a reference of it and pass it around to functions. Is this a good/ok practice or is it outright evil ?

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1  
Please Note: I am returing a reference because i want to modify it. –  jack_carver Sep 16 '11 at 10:01
3  
If you want to modify it, and you plan on exposing a straight reference, then what benefit do you foresee getting out of keeping it private? –  Dennis Zickefoose Sep 16 '11 at 10:15
    
Modifying is not the same as replacing. Calling code can't change the reference in obj, only the properties on it. Other code may depend on that reference not changing. –  Flynn1179 Feb 27 '12 at 7:53
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6 Answers

up vote 7 down vote accepted

If you pass a non-const reference as in your code then obj can be modifed from outside your class. If you wish that it cannot be changed from outside X you must return a const ref,

const someclass& get();

Note with this case it is worth adding another const after the function name

const someclass& get() const;

which tells the compiler that calling get() on an X won't change its internal state. (This is not true of your example)

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+1. Better answer than others so far. More complete! –  Nawaz Sep 16 '11 at 10:13
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It's not evil. It is how it is supposed to be done: you can return references to internal data members. You don't need to do it through pointers or by value if you don't want a copy: references were made to do this.

If you don't want it to be modified, you have to return a "const" reference to your internal data member:

public:
const someclass & get() const
{
    return obj;
}

Note that then I added const at the end of the get() method to instruct that using this method will not modify the class.

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How will you ensure that your X stays around as long as obj is needed? –  Nicola Musatti Sep 16 '11 at 10:01
    
You have to ensure it yourself in your code, that you still can use it. You have to be careful about X lifespan –  Nikko Sep 17 '11 at 7:35
    
Using a shared_ptr is a better solution unless you can prove that the performance decrease is unacceptable. –  Nicola Musatti Sep 17 '11 at 7:53
    
I think obj should depend on X lifespan. If you put up code that takes a member of an object then discard this object away but keep a reference ( not a copy ) to one of its internal and use it, that's evil. –  Nikko Sep 17 '11 at 8:01
    
Exactly. But what can you do to enforce this? Just rely on carefulness? –  Nicola Musatti Sep 17 '11 at 9:01
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It is OK.

Just consider making the reference constant, or at least making two get() methods (one for normal and one for constant objects).

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What you did is technically correct: you get a reference to an internal part of X you use to change it.

The only thing you have to take care is that X itself lives longer than the place you store the returned reference.

There is nothing evil with this.

The evil thing is another: you allow full access to obj to whoever can cal get() (practically everyone). You are at all effect making public obj itself, giving the illusion it is still private.

If you accept everyone can modify obj... just make it public. If you want "someone" can, keep it private an make someone a friend. If you want anyone access obj in read-only ... return a const& fron a const function.

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Many books advice not to have direct access to variable and to use GET/SET methods like:

class SetandGet
{
public:
    void Set(int x){
        TheVariable = x;
    }
    int Get(){
        return TheVariable;
    }
private:
    int TheVariable;
}
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I consider it evil. obj will be destroyed when the containing instance of X will be destroyed and you have no way to force callers of X::get() to take this into account:

someclass & evil() {
  X x;
  return x.get();
}

It definitely is evil ;-)

The only things that are safe to return by reference are either *this in a member function or arguments that were taken by reference in the first place.

If obj is small enough return it by value, otherwise implement some way of sharing its ownership. Boost.SharedPtr, now part of the C++ standard, may be of help.

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What you say is true also for pointers and is the same far whatever object is referring to another not in its control. But if this is "evil" the most of dynamic data structure cannot exist! –  Emilio Garavaglia Sep 16 '11 at 10:10
    
Unless you are doing something odd with the internal variable, there is no real question as to the lifetime of the returned reference. It has to be tied to something, after all. –  Dennis Zickefoose Sep 16 '11 at 10:13
    
@Emilio Garavaglia: Pointers have the slight advantage of at least being explicit about it, but they still leave the problem open. Obviously there's very little you can do without using dynamic memory, but if you want to write solid code you should adopt tools and techniques that enforce correct memory management. shared_ptr helps, and so does garbage collection. –  Nicola Musatti Sep 16 '11 at 10:14
1  
Why consider a reference to *this a special case? Suppose get() returned *this by reference, then X &evil() { X x; return x.get(); } is just as bad as your evil function. Likewise, int &evil() { std::vector<int> x(1); return x[0]; } is bad, does that mean one should never use vector, because it does this thing you disapprove of? In all these cases, including your example, the problem lies with the person who wrote the function "evil", because they failed to consider the lifetime of the object to which they took a reference. As long as get() is properly documented, of course. –  Steve Jessop Sep 16 '11 at 10:17
2  
You can't. But if your user does that, your user needs to figure out what language he's using, because this is a pretty common thing in C++. –  Dennis Zickefoose Sep 16 '11 at 10:19
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