If I change the access modifier of the setter of a public property from private to public, is that causes any breaking change in the other assemblies that refer it?

  • No, those other assemblies were never able to use the property before. – Hans Passant Dec 20 '11 at 19:07
  • @Hans, getter of the property is public so other assemblies can use it. – mkus Dec 20 '11 at 19:09
  • Well, you're not changing the getter are you? The JIT compiler doesn't have any trouble with the changed property declaration. – Hans Passant Dec 20 '11 at 19:11
  • is there a definite issue that you are having or is this a question of Accessor levels private , public, protected, Internal, Sealed...ect... – MethodMan Dec 20 '11 at 19:11
  • @HansPassant yes I'm not changing the getter. – mkus Dec 20 '11 at 19:13

UPDATE: This question was the topic of my blog in January 2012. Thanks for the great question!

I assume that by "breaking change" you mean "when I recompile code that depended on this assembly, does code that used to compile still compile?"

By that definition, strictly speaking, yes, making a property setter public that used to be private is a breaking change. Suppose you have this code:

// Assembly Alpha
public class Charlie
    public int P { get; private set; }
public class Delta
    public int P { get; set; }

And then in another assembly that references Alpha:

// Assembly Echo
class Foxtrot
    static void M(Action<Charlie> f) {}
    static void M(Action<Delta> f) {}
    static void Golf()
        M(y=>{y.P = 123;});

You compile assembly Echo. Class Foxtrot has a method Golf which does overload resolution on M. M has two overloads; one that takes a action on Charlie and one that takes an action on Delta. If lambda parameter y is of type Charlie then the lambda body produces an accessibility error, and therefore that overload of M is not an applicable candidate. Overload resolution chooses the second overload and compilation succeeds.

Now you change assembly Alpha so that Charlie.P's setter is public. You recompile Echo. Now you get an overload resolution error because both overloads of M are equally valid and neither is better than the other. Compilation of Echo fails due to the change in Alpha. Your change to Alpha was a breaking change.

The question is not "is this a breaking change?" It clearly is; almost every change is some kind of breaking change. The question should be whether the breaking change will actually in practice break anyone, and if so, what is the cost of fixing the break compared to the benefit of the new feature?

  • 2
    What happened to Bravo? – kvb Dec 20 '11 at 20:00
  • 22
    @kvb: I once had to phone an airline to change a booking and the helpful lady on the phone said "and here is your confirmation number if there's a problem: 153ADN6, that's 1-5-3-Alpha-Dog-November-6", and I said "Thanks, but isn't Delta the international radio code word for D?" and she said "We do not say that word at this airline!" I tell you, getting a person on the phone at an airline is hard enough; getting a smart and funny one who knows the international radio alphabet to boot is a rarity indeed. – Eric Lippert Dec 20 '11 at 22:14
  • 2
    Would be funnier still if it was actually Delta you were calling. – Jon Hanna Dec 21 '11 at 0:00
  • @EricLippert thanks for your detailed explanation. – mkus Dec 21 '11 at 15:20
  • @EricLippert I am very appreciated for your new blog post. Thank you Eric. – mkus Jan 12 '12 at 8:49

It is a breaking change, in that it may cause existing code to no longer compile.

Some languages do not allow you to override a property without overriding all visible accessors. VB is such a language.

Say you have the following C# class:

namespace TestLibrary
    public class A {
        public virtual int X { 
            get { return 0; } 
            private set { Console.WriteLine("A.set_X called."); } 

In a VB project that references your library, you have a class definition:

Class B : Inherits TestLibrary.A
    Public Overrides ReadOnly Property X As Integer
            Return MyBase.X
        End Get
    End Property
End Class

Notice the ReadOnly modifier on the property. This is required in VB, because you are only defining the getter. If you leave it out, you get a compile-time error:

Property without a 'ReadOnly' or 'WriteOnly' specifier must provide both a 'Get' and a 'Set'.

Now, remove the private modifier from the setter in your C# class:

namespace TestLibrary
    public class A {
        public virtual int X { 
            get { return 0; } 
            set { Console.WriteLine("A.set_X called."); } 

You will now get a compile-time error in your VB code:

'Public Overrides ReadOnly Property X As Integer' cannot override 'Public Overridable Property X As Integer' because they differ by 'ReadOnly' or 'WriteOnly'.

The same code that references your library does not compile after you make the change, so it is a breaking change.

  • 5
    Good one! Inter-language breaks are some of the trickiest. – Eric Lippert Dec 21 '11 at 16:00
  • I really hate the way properties are implemented in .net; I what real advantage there is to having three types of properties, one of which includes two methods, rather than simply having property getters and setters be methods with some attribute that indicates that, for purposes of syntax, debugging display, serialization, etc. they should be regarded as properties? If it were possible for a routine to accept a parameter of type Property<int>, I could see some real benefit to having the getter and setter bound together as a single entity, but it isn't. So what's the benefit? – supercat Jan 10 '12 at 23:28
  • @supercat That's exactly how properties work in .NET: IL never calls properties, only methods. Properties exist in metatada only. The fact that the getter and setter methods aren't easily accessible is a matter of language design: they are public methods but hidden by most languages because they have a SpecialName attribute. Why C# explicitly prevents you from calling these methods, I don't know. – Jeffrey Sax Jan 11 '12 at 2:15
  • @JeffreySax: One cannot just mark two independent methods and have languages regard them as a property getter and setter. There must also be a defined "Property" which links the named property with the getter and setter method; a similar concept exists (equally uselessly, IMHO) for events. – supercat Jan 11 '12 at 15:39

This depends on how strict you want to be about "breaking change".

One definition is: does it break the build or execution of the referring code.

Another is, can the other code determine that you made the change.

By the first definition, this is not a breaking change. By the second definition, it is a breaking change.


It might be, if those other assemblies use reflection to test for the presence of the setter.

But early-bound code will not break.

Another thing to consider is whether this is a change in semantics. If the property was formerly set only during construction, and now can be modified at any time, that definitely could break consumers who cached the value, used it as a Dictionary key, etc.


Since the visibility of the property is increased now there should not be any problems with statically linked assemblies and static references -- those assemblies just treated your property as read-only until now and they continue doing so.

The only problem that might potentially arise here is if some assemblies use reflection to get information about your properties and perform some actions.

For example, if this is a property of a business object and you use data binding to show your data in some control, like GridView or ListView (independent from the actual framework), it might be that this property will be recognized as "updateable" now and the user might change some values you (and some other assemblies) considered immutable so far.

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