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As my first programming language I learned Java, but since I changed to a different University, I am now learning C++.

Coming from Java and learning the basics of C++, I read about references and reference variables. And how dangerous they can be, and how to be careful with them and so on.

So in my head arises one simple question: Why should I bother using that kind of complicated, and therefore potentially problem-causing, stuff at all?

Is it somehow worth it, or just a relic from times where RAM was about 64MB big?

Since a lot of answers have mentioned pointers: That concept is clearly from the stone age, imho. Except for high-performance-computation I wouldn't even touch that stuff.

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closed as not a real question by Hailei, martin clayton, Vikdor, Dan, Joe Oct 5 '12 at 2:53

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

8  
They're less dangerous than pointers. –  Luchian Grigore Oct 4 '12 at 13:52
4  
What you should ask yourself instead is: Now that I got references, why do I need pointers? (By the way, references and smart pointers are more like their Java counterparts than regular pointers). –  Krumelur Oct 4 '12 at 13:53
1  
Besides call by value, you had only references in java. –  stacker Oct 4 '12 at 13:53
    
Can you give us an example of where you think a reference is a bad idea, while you think something else (and tell what) is better? –  penelope Oct 4 '12 at 14:01
3  
Trying to learn C++ through a filter of Java understanding is a bad idea. Try to forget everything you know about Java. You may not appreciate that Java is confusingly slipping in pointers when passing objects. In C++ everything is transparent. –  TheMathemagician Oct 4 '12 at 14:06

8 Answers 8

up vote 2 down vote accepted

The problem is not related to reference itself.

The problem is that in C++ lifetime of objects is managed different way than in Java or other run-time environment with garbage collector. C++ doesn't have standard built-in garbage collector. C++ objects lifetime could be automatic (within local or global scope) or manual (explicitly allocated/deallocated in heap).

C++ reference is just simple alias for an object. It doesn't know nothing about object lifetime for the sake of efficiency. Programmer must care about it.

Reference is important part of C++ basic concepts and you just cannot avoid using it for 90% of tasks. Otherwise you have to use pointers that is usually even worse :-)

E.g., when you need to pass object as function argument by reference instead of by value you shall use references:

void f(A copyOfObj);       // Passed by value, f receives copy of passed A instance
void f(A& refToObj);       // Passed by ref, f receives passed A instance itself, modifiable
void f(const A& refToObj); // Passed by const ref, f receives passed A instance itself, non modifiable
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A reference is a pointer with restrictions. A reference is a way of accessing an object, but is not the object itself. If it makes sense for your code to use these restrictions, then using a reference instead of a pointer lets the compiler to warn you about accidentally violating them.

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If you pass large objects as function parameters by value, there could be a very real performance drop that is solved by passing them as references. Also, you can modify the objects inside functions if you pass them by reference instead of by value.

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The actual question is "why use references instead of pointers".

I haven't quite figured that out yet. Currently, I use references

  • because you can't assign to them. Worst case this doesn't mean anything to the compiler, but there's the chance that the compiler can make use of that knowledge.

  • often when I want to return a pointer that always exists, or to indicate that a parameter is required and may not be a nullptr (there is no null-reference). It's not a hard rule; sometimes an actual pointer feels more natural.

  • when things just ask for references, like operator overloads.

In general, I end up using a lot of references, since I don't generally want to copy objects unless I really need an actual copy, and references often work.

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+1 for, indicating that a parameter is required and indicating that the object returned cannot be null. –  Len Holgate Oct 4 '12 at 14:30

As you just came from Java, I can imagine you have problems with a lot of dangerous stuff that C/C++ lets you do. In my opinion, the difference is here:

  • C/C++ lets you do a lot of powerful and dangerous stuff. You can do a lot of great things, but also shoot yourself in the leg
  • Java restricts what you can do in the name of safety

What you don't like ("pointers/references are dangerous") is exactly what I love ("it lets me do a lot of stuff, and if I mess up it's my fault") about C++. It's a matter of programming language taste, in my opinion.

References were made to avoid some dangers of pointers, but on the other hand, even the pointers still have uses besides the obvious fast-access stuff. For example, let's say that you have a low-level object that does some useful work and is shared between more than one high-level objects. It can be shared for various reasons (e.g. it updates the internal state every time it does useful work so copying it is not an option).

class HL{
    private:
    LL &object;

    public:
    HL(LL &obj){
        object = obj; // initialization of reference
    }
    // a no-argument constructor is not possible because you HAVE to
    // initialize the reference at object-creation (or you could initialize
    // it to a dummy static object of type LL, but that's a mess)
    void some_routine(){
        ....
        object.useful_work();
        ...
    }
}

Using references in this case enforces the initialization of internal object. If, on the other hand, the functionality that the object provides is just optional for the high-level object, than the pointer is a way to go:

class HL{
    private:
    LL *object;

    public:
    HL(LL &obj){
        object = &obj; // initialization of reference
    }
    HL(){} // no-argument constructor possible
    void some_routine(){
        ....
        if (object != NULL)
           object->useful_work();
        ...
    }
}

Also, as for use of the call-by-reference, that's the most useful when you're passing a big structure to a function, e.g. vector<int>.

void function(vector <int> a); // call by value, vector copied every time
void function(vector <int> &a); // call by reference, you can modify
                                // the vector in the function
void function(const vector <int> &a); // if you don't want to be able to modify
                                      // it, you can add const for "protection"
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For example because they are forcing you to initialze, this makes them less dangerous

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This seems more like a comment.. –  Coding Mash Oct 4 '12 at 14:12

References make call-by-reference easier, since the caller does not have to use the & operator when passinng an object.

Like this:

MyObject ob;

void foo_ref(MyObject& o){ ...}
void foo_ptr(Myobject* o){ ...}

//call

foo_ref(ob);
foo_ptr(&ob);

Furthermore, they enable initializing pointers in a function:

MyObject* ob = nullptr;
MySubject* sub = nullptr;

void foo_init(MyObject *& o, MySubject *& s) {

   o = new MyObject;
   s = new MySubject;
}

//call

foo_init(ob, sub);

Without the reference to pointer this example would only work with a pointers to pointers, making the code look terrible, as you would have to derefernce each argument first

MyObject* ob = nullptr;
MySubject* sub = nullptr;

void foo_init(MyObject ** o, MySubject ** s) {

   *o = new MyObject;
   *s = new MySubject;
}

//call

foo_init(&ob, &sub);
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References make call by reference possible, because you cannot take the address of an arbitrary object to pass it to a function. –  James Kanze Oct 4 '12 at 14:21

The most frequent use of references is to avoid an expensive deep copy; by default, C++ has value semantics, and if you write something like:

void f( std::vector<double> d );

The entire vector will be copied each time you invoke f. So you write something like:

void f( std::vector<double> const& d );

One place where this is particularly important is when defining a copy constructor. If you were to write:

MyType( MyType other );

, you would end up with infinite recursion, since the compiler would have to call the copy constructor in order to copy the argument to the this constructor. (In fact, the compiler will only accept a constructor which takes a reference as the copy constructor, precisely to avoid this problem.)

Outside of constructors, this is really an optimization, and could be considered as premature optimization. In practice, however, the almost universal convention is to pass class types by reference to const, rather than by value.

References may also be used as out parameters; compared to a pointer, they have the advantage that they cannot be null.

References can also be used to provide a "window" into the class data. The classical example is the overload of operator[] in std::vector; it returns a reference so that you can modify, take the address of, etc. the actual element in the array.

Other than as parameters and return values, in the above cases, references are somewhat rare. If you use one as a class member, for example, you must be aware that you cannot give the class classical assignment semantics. (This is not an issue if the class doesn't support assignment.) As a global variable, they might be used to hide the implementation of what is being refered to, but this is exceedingly rare. As a local variable, about the only use I know is to cache the results of another expression which returns a reference: for example, if I'm accessing someMap[aKey] a large number of times in a short block of code, it makes sense to write:

ValueType& element = someMap[aKey];

at the start, and use element after that. (Note that this only makes sense because someMap[aKey] returns a reference.)

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