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Programming in C++, I often want to give the user of a class read-only access to an attribute, and the class itself read-write access. I hate XxxGet() methods, so I often use a public const & to a private attribute, like this:

class counter {
     int _count;

     const int & count;

     counter : _count( 0 ), count( _count ){}

     void inc( void ){ _counter++; }

Is there a common name for this trick?

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Accessors (getters/setters) are not only means to restrict access to some member variables, they also hide the implementation. Your "trick" leaks the implementation, meaning that you will never be able to change the way count is represented in your class. What if you decide some day that count would be better computed on-the-fly, or that accessing the count should be synchronized to accomodate multi-threading? You would have to modify all the users of counter. You should probably stick to well-accepted idioms, and use getters. –  Luc Touraille Sep 15 '11 at 14:28
@Seb: probably not, this comes with more pain than glory (i.e. it is prone to create bugs in the application while it adds little to no value over a plain accessor) –  David Rodríguez - dribeas Sep 15 '11 at 14:31
@Wouter: I wonder why you "hate" XxxGet() methods? I mean, I hate them too but I'd use them here, because that is exactly what you need. –  John Dibling Sep 15 '11 at 14:48
@JD: Dunno, I guess it feels wrong for me. I don't like the () for something that (at the very least conceptually) dows nothing but yielding a value. Like havling two write pi() every time I need that constant. –  Wouter van Ooijen Sep 15 '11 at 14:57
Just now I thought of a name that could be considered the same pattern. Though not typically used for member variables. –  sehe Sep 15 '11 at 15:22

3 Answers 3

My personal name for that trick would be bad idea.

I would avoid the approach that you are following, as it incurs extra unneeded cost. If you add accessors they can be inlined as needed, with the only penalty of having to type an extra pair of parentheses:

class counter {
    int _count;
    counter() : _count() {}
    int count() const { return _count; }
    void inc() { ++_count; }

The main difference is that in your solution you are incrementing the size of the object by one reference (for most implementations this means pointer), and then each access requires an extra indirection. On the other hand, with the accessor, the actual variable is used, the function will be optimized away (inlined, and resolved to a single read to the variable).

As of a proper name for that type of construct, well, I have never seen your particular construct in C++, but if you consider other languages, that is the basic concept of a property in C#, where you can make the getter public and the setter private.

EDIT: I guess that bad idea can be misinterpreted as just a personal opinion (which it is), but consider the side effects of that design:

Because of the reference in the object, you inhibit the implicit definition of the assignment operator. Much worse, the copy constructor will compile but not work as expected:

// consider the implementation with the const reference
counter c1;
counter c2( c1 );          // compiles, so it must work
std::cout << c2.count;   // outputs 0
// c2 = c1;              // error: well, at least this does not compile!

The problem is that the compiler generated copy constructor will make the count reference in c2 refer to the same int that the count reference in c1 refers to, which might lead to hard-to-find subtle issues in your code that are actually quite hard to debug.

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Thx for precising my point about copy constructor. +2 then :) –  sehe Sep 15 '11 at 14:32
I feel like I should practise a bit more C++... –  Seb Sep 15 '11 at 14:55
The handcrafted assignment operator would just assign the _count member and leave the reference as it is. The copy constructor is a worse problem, though. –  UncleBens Sep 15 '11 at 15:24
@UncleBens: Right... I got confused with having to reassign the reference but you are right that the reference does not need to be reseated as it will still refer to the local member. I have removed that comment from the answer. The copy constructor is also simple to implement, but it has to be manual and the problem is that it increases the chances for mistakes. –  David Rodríguez - dribeas Sep 15 '11 at 15:42
you never initialized _count. –  Mooing Duck Sep 15 '11 at 17:00


Just now I thought of a name that could be considered the same pattern. Though not typically used for member variables.

There could actually be a name for this, as has been made popular by the Boost Tuple library as well as the TR1/C++11 implementations:


Typical example:

 tuple<int> tie(ref(some_var));
 // or shorter:
 auto tied = tie(var1, var2, var3);

Assignment complications

The closest name for this (anti?) pattern I could _immediately think of before, is: pointer or reference aliasing. It is not a very good idea for many reasons, some of which have been mentioned

  • class layout + size
  • copy/assignment semantics
  • compiler optimizations: the compiler will shun from making assumptions about the value of (register-allocated) variables when it knows references could point to the same memory location.

In addition to the points David makes, the compiler will be unable to generate default

  • semantically valid copy constructor
  • assignment operator
  • move assignment operator

for your class now that contains references. Note also that your class can't possibly be POD anymore

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+1, good points! –  avakar Sep 15 '11 at 14:25
@David: agreed, I too was hoping for a requirement to use T(T&&) = default; to explicitely summon a default move constructor... –  sehe Sep 15 '11 at 14:43

A number of others have already condemned this idea, and I (mostly) tend to agree with them. Although quite a few people probably dislike it (at least) as much, if I was going to support something on this order, I'd do something like this:

class counter { 
    int count_;
    counter(int init=0) : count_(init) {}
    operator int() const { return count_; }
    void inc() { ++count_; }

The one problem with this is one that's shared with implicit conversions in general: that the implicit conversion can happen even when you don't want it to. OTOH, the fact that it's a user-supplied conversion actually eliminates many of the problems -- only one implicit conversion will happen automatically in any given situation, so (for example) the fact that you've supplied a conversion to int will not mean that a counter with a value of 0 can be implicitly converted from a counter to an int to a (null) pointer to T, because that would involve two implicit conversions.

There are times this can cause a problem anyway, in which case (as of C++11) you can make the conversion operator explicit, so it'll only happen when/if the user does an explicit conversion like:

counter t;

int x = t;  // allowed by code above, but not with `explicit` conversion operator.

int y = static_cast<int>(t);    // allowed with `explicit` conversion operator.
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