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I'm reading through Test Driven Development: By Example and one of the examples is bugging me. In chapter 3 (Equality for all), the author creates an equals function in the Dollar class to compare two Dollar objects:

public boolean equals(Object object)
{
    Dollar dollar= (Dollar) object;
    return amount == dollar.amount;
}

Then, in the following chapter (4: Privacy), he makes amount a private member of the dollar class.

private int amount;

and the tests pass. Shouldn't this cause a compiler error in the equals method because while the object can access its own amount member as it is restricted from accessing the other Dollar object's amount member?

//shouldn't dollar.amount be no longer accessable?
return amount == dollar.amount

Am I fundamentally misunderstanding private?

UPDATE I decided to go back and code along with the book manually and when I got to the next part (chapter 6 - Equality For All, Redux) where they push amount into a parent class and make it protected, I'm getting access problems:

public class Money
{
    protected int amount;
}

public class Dollar : Money
{
    public Dollar(int amount)
    {
        this.amount = amount;
    }
    // override object.Equals
    public override bool Equals(object obj)
    {
        Money dollar = (Money)obj;
        //"error CS1540: Cannot access protected member 'Money.amount'
        // via a qualifier of type 'Money'; the qualifier must be of 
        // type 'Dollar' (or derived from it)" on the next line:
        return amount == dollar.amount;
    }
}

Does this mean that protected IS instance-based in C#?

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I have not read the book, but is it possible that he made a publicly accessible property for the amount member? –  TheTXI May 5 '09 at 19:44
    
@TheTXI: Java does not have properties. The exact change was that amount used to be package-private field (int amount;) and it was changed to be a private field (private int amount;). (I don't know why Kent uses package-private in the book instead of public. Maybe it's just to reduce the verbosity of the Java language and to focus on the main points.) –  Esko Luontola May 5 '09 at 22:29
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5 Answers

up vote 7 down vote accepted

Yep, you're fundamentally misunderstanding private. Privacy is class-specific, not instance-specific.

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Does instance-specific privacy exist? –  brian May 5 '09 at 19:45
    
Not in any language I'm familiar with. –  Carl Manaster May 5 '09 at 19:48
1  
In Scala object-private exists. See my answer stackoverflow.com/questions/826592/… –  Esko Luontola May 5 '09 at 19:55
    
Thanks; I'll have to take a look at Scala. –  Carl Manaster May 5 '09 at 20:07
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In Java, private means class-private. Within the class, you can access that field in all instances of the class.

In Scala there is also an object-private scope which is written private[this]. Also in other respects Scala's scopes are more flexible (see this article for more information).

But in Java there is no object-private scope.

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In languages of the C++ family (C++,Java,C#), access control is only at the class level. So private allows access to any instance of that class.

IIRC in Smalltalk privacy behaves as you expect.

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Modifier private is class-private, not object-private.

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Fundamentally misunderstanding private, Dollar can access any Dollar private method if they are the same class.

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After reading the answers, I'm left wondering: is he fundamentally misunderstanding private? –  Pesto May 5 '09 at 19:48
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