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If i have the following code example:

public class ClassBase
{
    public int ID { get; set; }

    public string Name { get; set; }
}

public class ClassA : ClassBase
{
    public int JustNumber { get; set; }

    public ClassA()
    {
        this.ID = 0;
        this.Name = string.Empty;
        this.JustNumber = string.Empty;
    }
}

What should I do to hide the property Name (Don't shown as a member of ClassA members) without modifying ClassBase ?

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This is a violation of one of the basic tenets of OOP (polymorphism and, relatedly, the L in SOLID). –  jason Dec 9 '09 at 17:43
    
Specifically a violation of the liskov substitution principle (en.wikipedia.org/wiki/Liskov_substitution_principle) –  Robert Venables Dec 9 '09 at 17:51
7  
Many of the answers ignore the simple fact that a the base class may be provided by a third party. As this code is not owned, it cannot be changed. There is definite validity to wanting to create a more narrowly focused version of the base class by hiding members. And it is nicer to inherit than to use the base control as a component of a new control as that requires a lot of extra work in exposing methods already found on the base. –  Mario Aug 12 '14 at 19:15

7 Answers 7

up vote 28 down vote accepted

I smell a code smell here. It is my opinion that you should only inherit a base class if you're implementing all of the functionality of that base class. What you're doing doesn't really represent object oriented principles properly. Thus, if you want to inherit from your base, you should be implementing Name, otherwise you've got your inheritance the wrong way around. Your class A should be your base class and your current base class should inherit from A if that's what you want, not the other way around.

However, not to stray too far from the direct question. If you did want to flout "the rules" and want to continue on the path you've chosen - here's how you can go about it:

The convention is to implement the property but throw a NotImplementedException when that property is called - although, I don't like that either. But that's my personal opinion and it doesn't change the fact that this convention still stands.

If you're attempting to obsolete the property (and it's declared in the base class as virtual), then you could either use the Obsolete attribute on it:

[Obsolete("This property has been deprecated and should no longer be used.", true)]
public override string Name 
{ 
    get 
    { 
        return base.Name; 
    }
    set
    {
        base.Name = value;
    }
}

(Edit: As Brian pointed out in the comments, the second parameter of the attribute will cause a compiler error if someone references the Name property, thus they won't be able to use it even though you've implemented it in derived class.)

Or as I mentioned use NotImplementedException:

public override string Name
{
    get
    {
        throw new NotImplementedException();
    }
    set
    {
        throw new NotImplementedException();
    }
}

However, if the property isn't declared as virtual, then you can use the new keyword to replace it:

public new string Name
{
    get
    {
        throw new NotImplementedException();
    }
    set
    {
        throw new NotImplementedException();
    }
}

You can still use the Obsolete attribute in the same manner as if the method was overridden, or you can throw the NotImplementedException, whichever you choose. I would probably use:

[Obsolete("Don't use this", true)]
public override string Name { get; set; }

or:

[Obsolete("Don't use this", true)]
public new string Name { get; set; }

Depending on whether or not it was declared as virtual in the base class.

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4  
The obsolete attribute also has a second parameter that specifies that using the property should be considered an error. At that point you should get a compile time error, which is helpful. –  Brian Hasden Dec 9 '09 at 17:29
    
Thanks Brian, I should've thought to mention that, good catch. –  BenAlabaster Dec 9 '09 at 17:32
    
I believe you can also use the "new" keyword to specify new functionality for the property even if it's not marked virtual. That would allow him to mark the property as obsolete even if it's from a class where the property wasn't virtual. –  Brian Hasden Dec 9 '09 at 17:33
    
@Brian - I had already mentioned that –  BenAlabaster Dec 9 '09 at 17:40
    
Yeah, you must've add that just as I was posting my comment. Oh well, just trying to help. –  Brian Hasden Dec 9 '09 at 17:41

While technically the property won't be hidden, one way to strongly discourage its use is to put attributes on it like these:

[Browsable(false)]
[Bindable(false)]
[DesignerSerializationVisibility(DesignerSerializationVisibility.Hidden)]
[EditorBrowsable(EditorBrowsableState.Never)]

This is what System.Windows.Forms does for controls that have properties that don't fit. The Text property, for instance, is on Control, but it doesn't make sense on every class that inherits from Control. So in MonthCalendar, for instance, it appears like this (per Reflector):

[Browsable(false), Bindable(false), 
    DesignerSerializationVisibility(DesignerSerializationVisibility.Hidden), 
    EditorBrowsable(EditorBrowsableState.Never)]
public override string Text
{
    get { return base.Text; }
    set { base.Text = value; }
}

Browsable indicates whether the member shows up in the Property window. EditorBrowsable indicates whether it shows up in the Intellisense dropdown. You can still type the property if EditorBrowsable is set to false, and it'll still build, but it won't be as obvious that you can use it.

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I had to write public new string Text to make it works. –  szamil Jun 20 '14 at 21:42

Just hide it

 public class ClassBase
{
    public int ID { get; set; }
    public string Name { get; set; }
}
public class ClassA : ClassBase
{
    public int JustNumber { get; set; }
    private new string Name { get { return base.Name; } set { base.Name = value; } }
    public ClassA()
    {
        this.ID = 0;
        this.Name = string.Empty;
        this.JustNumber = 0;
    }
}

Note: Name will still be a public member of ClassBase.

share|improve this answer
    
With this method, doing something like ClassA.Name outside ClassA will expose the ClassBase.Name property. It is not possible to new a member to a more restricted access than it was originally declared. –  Alex Essilfie Nov 26 '14 at 1:05
    
That is the point of the note. Name will not be a public member of ClassA as per the question. For serialization and reflection this can be important. –  CCondron Dec 2 '14 at 6:36
    
Yes, that's true. It is however worthy of note that when one wants to hide a member from an inherited class, it can be because he is setting the member's value to one of a set of predefined values and so changing it can result in unexpected behaviour. –  Alex Essilfie Dec 2 '14 at 6:50
    
Agreed, and given the constraint of not changing the base class there is no way to stop that. –  CCondron Dec 3 '14 at 16:13
    
Agreed. After all, when pushed, one can use reflection to modify even private members. –  Alex Essilfie Dec 3 '14 at 16:17

You can't, that's the whole point of inheritance: the subclass must offer all methods and properties of the base class.

You could change the implementation to throw an exception when the property is called (if it were virtual)...

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Why force inheritance when it's not necessary? I think the proper way of doing it is by doing has-a instead of a is-a.

public class ClassBase
{
    public int ID { get; set; }

    public string Name { get; set; }
}

public class ClassA
{
    private ClassBase _base;

    public int ID { get { return this._base.ID; } }

    public string JustNumber { get; set; }

    public ClassA()
    {
        this._base = new ClassBase();
        this._base.ID = 0;
        this._base.Name = string.Empty;
        this.JustNumber = string.Empty;
    }
}
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I don’t think a lot of the people replying here understand inheritance at all. There is a need to inherit from a base class and hide its once public var’s and functions. Example, lets say you have a basic engine and you want to make a new engine that is supercharged. Well, 99% of the engine you will use but you will tweak a bit of its functionality to make it run much better and yet still there is some functionality that should only be shown to the modifications made, not the end user. Because we all know that every class MS puts out doesn’t really ever need any modifications.

Besides using the new to simply override the functionality it is one of the things that Microsoft in their infinite wis….. oh, I mean mistakes considered a tool not worthwhile anymore.

The best way to accomplish this now is multi-level inheritance.
public class classA { } public class B : A {} public class C : B {}

Class B does all your work and class C exposes what you need exposed.

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I think it is bad design if you have to do this, especially if you are able to design the code from the ground up.

Why?

Good design is to let the base-class share common properties that a certain concept has (virtual or real). Example: System.IO.Stream in C#.

Further down the lane bad design will increase the cost for maintenance and make implementation harder and harder. Avoid this as much as possible!

Basic rules which I use:

  • Minimize the number of properties and methods in the base-class. If you do not expect to use some properties or methods in a class that inherits the base class; do not put it in the baseclass then. If you are in the developmentstage of a project; always go back to the drawing-board now an then to check the design because things change! Redesign when needed. When your project is live the costs for changing things later in the design will go up!

    • If you are using a baseclass implemented by a 3:rd party, consider "go up" one level instead of "overriding" with "NotImplementedException" or such. If there is no other level, consider design the code from scratch.

    • Always consider to seal classes you do not want anyone to be able to inherit it. It forces coders to "go up one level" in the "inheritance- hierarchy" and thus "loose ends" like "NotImplementedException" can be avoided.

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