Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Say I have a class with a private data member n and a public get_n() function. When overloading the output operator for example, I can either use get_n() or make it a friend and use n. Is there a 'best' choice? And if so, why? Or is the difference going to be optimized away? Thanks.

share|improve this question
1  
Why do you think a get_n() function is even noticable compared to the output itself? –  Bo Persson May 25 '11 at 13:27
add comment

5 Answers

up vote 1 down vote accepted

You've already gotten a lot of somewhat-conflicting answers, so what you undoubtedly need is one more that contradicts nearly all of them.

From an efficiency viewpoint, it's unlikely to make any difference. A function that just returns a value will undoubtedly be generated inline unless you specifically prohibit that from happening by turning off all optimization.

That leaves only a question of what's preferable from a design viewpoint. At least IMO, it's usually preferable to not have a get_n in the first place. Once you remove that design problem, the question you asked just disappears: since there is no get_n to start with, you can't write other code to depend upon it.

That does still leave a small question of how you should do things though. This (of course) leads to more questions. In particular, what sort of thing does n represent? I realize you're probably giving a hypothetical example, but a good design (in this case) depends on knowing a little more about what n is and how it's used, as well as the type of which n is a member, and how it is intended to be used as well.

If n is a member of a leaf class, from which you expect no derivation, then you should probably use a friend function that writes n out directly:

class whatever { 
    int n;

    friend std::ostream &operator<<(std::ostream &os, whatever const &w) { 
        return os << w.n;
    }
};

Simple, straightforward, and effective.

If, however, n is a member of something you expect to use (or be used) as a base class, then you usually want to use a "virtual virtual" function:

class whatever { 
    int n;

    virtual std::ostream &write(std::ostream &os) { 
        return os << n;
    }    

    friend std::ostream &operator<<(std::ostream &os, whatever const &w) { 
        return w.write(os);
    }
};

Note, however, that this assumes you're interested in writing out an entire object, and it just happens that at least in the current implementation, that means writing out the value of n.

As to why you should do things this way, there are a few simple principles I think should be followed:

  1. Either make something really private, or make it public. A private member with public get_n (and, as often as not, public set_n as well) may be required for JavaBeans (for one example) but is still a really bad idea, and shows a gross misunderstanding of object orientation or encapsulation, not to mention producing downright ugly code.
  2. Tell, don't ask. A public get_n frequently means you end up with client code that does a read/modify/write cycle, with the object acting as dumb data container. It's generally preferable to convert that to a single operation in which the client code describes the desired result, and the object itself does the read/modify/write to achieve that result.
  3. Minimize the interface. You should strive for each object to have the smallest interface possible without causing unduly pain for users. Eliminating a public function like get_n is nearly always a good thing in itself, independent of its being good for encapsulation.

Since others have commented about friend functions, I'll add my two cents worth on that subject as well. It's fairly frequent to hear comments to the effect that "friend should be avoided because it breaks encapsulation."

I must vehemently disagree, and further believe that anybody who thinks that still has some work to do in learning to think like a programmer. A programmer must think in terms of abstractions, and then implement those abstractions as reasonably as possible in the real world.

If an object supports input and/or output, then the input and output are parts of that object's interface, and whatever implements that interface is part of the object. The only other possibility is that the type of object does not support input and/or output.

The point here is pretty simple: at least to support the normal conventions, C++ inserters and extractors must be written as free (non-member) functions. Despite this, insertion and extraction are just as much a part of the class' interface as any other operations, and (therefore) the inserter/extractor are just as much a part of the class (as an abstraction) as anything else is.

I'd note for the record that this is part of why I prefer to implement the friend functions involved inside the class, as I've shown them above. From a logical viewpoint, they're part of the class, so making them look like part of the class is a good thing.

I'll repeat one last time for emphasis: Giving them access to class internals can't possibly break encapsulation, because in reality they're parts of the class -- and C++'s strange requirement that they be implemented as free functions does not change that fact by one, single, solitary iota.

share|improve this answer
    
Thank you for the detailed explanation, it's exactly what I was hoping for. Your points about encapsulation and the general use of friend functions are very clear and helpful. –  Garp May 26 '11 at 9:05
add comment

Use get_n, since this is not a proper usage of friend. And if get_n is a simple return n, the compiler is most likely going to inline it automatically.

share|improve this answer
5  
-1 for friends are not OOP friendly. This is not the case. A popular example are classes with private constructors, that have a factory-class as friends. This is very good object oriented design that relies on friends. A more detailed explanation can be found in the C++FAQ lite. –  Björn Pollex May 25 '11 at 13:25
2  
@Space_C0wb0y: This is not the same as that, because the data member is already publicly exposed. –  Puppy May 25 '11 at 13:27
    
@Space_C0wb0y: Thanks for the clarification (+1 for I like failing generalizations), and I am aware of usage of friend but in this specific question's case, it really is not the solution. I am going to edit my answer to be clearer. –  Ozair Kafray May 25 '11 at 13:28
2  
@DeadMG: I agree, but the answer states it in a very general fashion (saying they are not OOP friendly, instead of they are not appropriate here), so I felt obligated to contradict. –  Björn Pollex May 25 '11 at 13:28
    
@Space_C0wb0y: Edited to reflect your point. –  Ozair Kafray May 25 '11 at 13:32
show 2 more comments

I will answer your question with a question:

  • Why did you create the public get_n() in the first place?
share|improve this answer
    
That was a dummy example. I could have a simple container with a private sz member and a size() const public function. –  Garp May 25 '11 at 13:58
    
@Garp: And that was a rhetorical question. –  Lightness Races in Orbit May 25 '11 at 14:00
add comment

In this case the best practice is for the class to implement a toString method, that the output operator uses to get a string representation. Since this is a member function, it can access all the data directly. It also has the added benefit that you can make this method vritual, so that subclasses can override it, and you only need a single output operator for the base class.

share|improve this answer
    
It already has a toString method- the stream insertion operator. –  Puppy May 25 '11 at 13:46
    
@DeadMG: The stream-insertion operator is not a method (which to me means the same as member function). It always has to be a free function (for user-defined types). –  Björn Pollex May 25 '11 at 13:52
add comment

Can the operator be implemented without using friend? Yes- don't use friend. No- make friend.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.