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While cleaning some code today written by someone else, I changed the access modifier from Public to Private on a class variable/member/field. I expected a long list of compiler errors that I use to "refactor/rework/review" the code that used this variable. Imagine my surprise when I didn't get any errors. After reviewing, it turns out that another instance of the Class can access the private members of another instance declared within the Class. Totally unexcepted.

Is this normal? I been coding in .NET since the beginning and never ran into this issue, nor read about it. I may have stumbled onto it before, but only "vaguely noticed" and move on. Can anyone explain this behavoir to me? I would like to know the "why" I can do this. Please explain, don't just tell me the rule. Am I doing something wrong? I found this behavior in both C# and VB.NET. The code seems to take advantage of the ability to access private variables. The disadvantage is the programmer created a big plate of Spaghetti.

Sincerely,

  • Totally Confused

Class Jack
    Private _int As Integer
End Class
Class Foo
    Public Property Value() As Integer
        Get
            Return _int
        End Get
        Set(ByVal value As Integer)
            _int = value * 2
        End Set
    End Property
    Private _int As Integer
    Private _foo As Foo
    Private _jack As Jack
    Private _fred As Fred
    Public Sub SetPrivate()
        _foo = New Foo
        _foo.Value = 4  'what you would expect to do because _int is private
        _foo._int = 3   'TOTALLY UNEXPECTED
        _jack = New Jack
        '_jack._int = 3 'expected compile error 
        _fred = New Fred
        '_fred._int = 3 'expected compile error 
    End Sub
    Private Class Fred
        Private _int As Integer
    End Class
End Class
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2  
You may be surprized, but C++ has the same behaviour. –  Vlad Apr 10 '10 at 23:52
    
@Vlad: Really? It has been a long time, last was Borland 3.x, but I dont remember this. –  AMissico Apr 11 '10 at 0:09
1  
try this with any modern C++ compiler: class X { private: int x; void f() { X* px = new X(); px->x = 1; } }; –  Vlad Apr 11 '10 at 0:30
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4 Answers

up vote 12 down vote accepted

This is "normal". Private members are private to the class, not to the particular instance.

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But, I am accessing a private member of the Class from two different instances of the Class. –  AMissico Apr 10 '10 at 23:46
2  
As he said, "Not to the particular instance" –  Oskar Kjellin Apr 10 '10 at 23:48
1  
@AMissico: That's what I mean: private prevents access from outside the class. Access is always permitted from within the class - to all instances. –  Paul Baker Apr 10 '10 at 23:49
1  
@AMissco - "how do I keep instances from corrupting each other?"... well you're writing the class, just don't write code that corrupts other instances! There are many cases in which you need to access another instance's fields (equality comparisons, for example). The case you should be more interested in is with protected members, which have more complex rules, described here: blogs.msdn.com/ericlippert/archive/2005/11/09/… –  Greg Beech Apr 11 '10 at 1:16
1  
@AMissico - "I have no control over other programmers code or their implementations" - but surely if you're writing the class, and the fields are private, then it doesn't matter what other programmers do? It's all down to you as the author. Unless you're saying you don't trust the people you work with who might also edit the class not to get it wrong? That's what code reviews and tests are for -- to make sure you have got it right! –  Greg Beech Apr 11 '10 at 17:10
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You said:

Please explain, don't just tell me the rule.

Well, here's my two cents.

As I see it, the premise of private members of a class is that a class may internally be aware of its own implementation without exposing that implementation to the outside world. Thus one instance of a class is perfectly capable of understanding the way another instance of the same class is implemented; so it is not restricted from taking advantage of that implementation knowledge.

As for instances manipulating each other, I will concede this is somewhat unusual. But take for example static construction methods. Would you also restrict these from accessing instances' private members? If so, you've rendered a lot of useful code impossible. If not, it's unclear why static methods should be able to access private members but instance methods shouldn't.

In other words, the word "private" in OOP is not meant to convey the idea of personal privacy, as in individuals hiding from one another. Rather, think of a class as more of a "members only" sort of club, where there are certain ways of doing things that only members of the club know about.

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@Dan Tao: Thank you. As I mentioned in a comment, I rarely have run across this use. Do you know of any documentation that describes why this behavior exists? (Static is a little different because I can still access static outside of the class.) –  AMissico Apr 15 '10 at 3:17
    
+1 for the last paragraph. –  Dan Aug 8 '11 at 17:29
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The issue of access is about where the code is accessing the private members and not so much about what it is accessing them through.

You have access to the _foo._int field in the definition of the Foo class, but not outside of it.

It may surprise you further that the following extension to the nested Fred class is also legal.

Private Class Fred
    Private _int As Integer
    Private Sub Blah(ByVal foo As Foo)
        foo._int = 9
    End Sub
End Class
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After my initial surprise, I tested this to verify what I found. So I was already surprised. :O) –  AMissico Apr 15 '10 at 3:13
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This is expected behavior. Nested classes can access private members of the container class.

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Fred is the nested Class and has access, which is expected and the behavior I am aware of. Foo is not nested and can access another Foo's private implementation. –  AMissico Apr 10 '10 at 23:48
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