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since this

public int MyInt{ get; set;}

is equivalent to

private int _myInt;
public int MyInt{ get{return _myInt;} set{_myInt = value;} }

when you make the automatic property virtual

public virtual int MyInt{ get; set;}

and then override this property in a child class

public override int MyInt{ get{return someVar;} set{someVar = value;} }

does this child class now have an unwelcomed and hidden allocation of _myInt?

share|improve this question
Interesting question, and I don't know the answer, but isn't it possible to get the answer via reflection or a disassembler? – PVitt Aug 12 '13 at 8:13
@GrantThomas The backing field still needs to exist in base class, because you can access it this way: ((Base)childInstance).MyInt – MarcinJuraszek Aug 12 '13 at 8:25
@MarcinJuraszek If it's virtual/overriden, ((Base)childInstance).MyInt will still resolve to Child.MyInt – SWeko Aug 12 '13 at 8:38
@SWeko True. But Marcin is right the field still has to exist, and it can be accessed non-virtually with base.MyInt from inside the derived class, like Adam said. – Jeppe Stig Nielsen Aug 12 '13 at 9:16
@JeppeStigNielsen Yes, the overriden property can be accessed from within the overriden class, but not from outside code. As the field is private, it can only be accessed indirectly, via the property (excluding reflection, of course). – SWeko Aug 12 '13 at 9:25
up vote 51 down vote accepted

Short Answer: Yes, the Child allocates all Base class fields, so it still has the backing field allocated. However, you can't access it any other way than through Base.MyInt property.

Long Answer:

Quick disassembly results.

Base and Child classes implementation:

public class Base
    public virtual int MyInt { get; set; }

public class Child : Base
    private int anotherInt;

    public override int MyInt
        get { return anotherInt; }
        set { anotherInt = value; }

enter image description here

As you can see, the backing field exists within Base class. However, it is private, so you can't access it from Child class:

.field private int32 '<MyInt>k__BackingField'

And your Child.MyInt property does not use that field. The property IL is:

.method public hidebysig specialname virtual 
    instance int32 get_MyInt () cil managed 
    // Method begins at RVA 0x2109
    // Code size 7 (0x7)
    .maxstack 8

    IL_0000: ldarg.0
    IL_0001: ldfld int32 ConsoleApplication2.Child::anotherInt
    IL_0006: ret
} // end of method Child::get_MyInt

.method public hidebysig specialname virtual 
    instance void set_MyInt (
        int32 'value'
    ) cil managed 
    // Method begins at RVA 0x2111
    // Code size 8 (0x8)
    .maxstack 8

    IL_0000: ldarg.0
    IL_0001: ldarg.1
    IL_0002: stfld int32 ConsoleApplication2.Child::anotherInt
    IL_0007: ret
} // end of method Child::set_MyInt

Is uses anotherInt field, as you could expect.

The only ways to access the '<MyInt>k__BackingField' (indirectly, through Base.MyInt property) are:

  • base.MyInt from within Child class
share|improve this answer
Is there a difference between Debug and Release builds? – Simon Whitehead Aug 12 '13 at 8:26
@SimonWhitehead That's from Release. I don't think Debug differs here. – MarcinJuraszek Aug 12 '13 at 8:27
@SimonWhitehead Are you implying that release mode could have optimised this away? I wouldn't have thought so as there are plenty of other angles that the backing field would still need to be used on. – Adam Houldsworth Aug 12 '13 at 9:06
@AdamHouldsworth I was just interested if - in this trivial example - there was a difference. – Simon Whitehead Aug 12 '13 at 9:07
@HaseebAsif Interesting question. First of all, I don't think I know the framework really good :) But the main way to know it better is just use it, and be curious about it: ask questions and try to answer them by yourself. – MarcinJuraszek Aug 16 '13 at 6:35

It's not just equivalent its pretty much the actual implementation. The compiler rewrites your automatic properties in its precompile stage. Albeit the field name will be named something else.

As a result the behaviour will be identical to you creating the property manually.

Yes the hidden field will exist, however it will not be assigned to because your override doesn't call the base implementation.

if you changed the override to

public override int MyInt
  get { return someVar; }
  set { 
    someVar = value;
    base.MyInt = value

Then the allocation would occur

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Yes, just as if it was not defined as an automatic property.

The allocation is needed in the base class, because it still needs to exist and be useful. The base class has no knowledge of the existence of the derived class, and the derived class can use the backing field in its definition

If you have a base and derived class defined like:

public class Base
  public virtual string Name {get; set;}

public class Derived : Base
  private string _name;

  public override string Name 
    get { 
      return _name; 
      //access the base property we are overriding
      base.Name = value + " from derived";
      _name = value;

You can use reflection to see that the backing field of the base class does indeed exist, and behaves as expected:

Type tbase = typeof(Base);
FieldInfo fi = tbase.GetField("<Name>k__BackingField", BindingFlags.NonPublic | BindingFlags.Instance);

Base b = new Base {Name = "Test"};

string baseValue = fi.GetValue(b).ToString();
Console.WriteLine(baseValue); //gives "Test";

Derived d = new Derived {Name = "Test" };

string derivedValue = fi.GetValue(d).ToString();
Console.WriteLine(derivedValue); //gives "Test from derived";

The name of the actual backing field is an undocumented implementation detail, so I wouldn't use it in any production code. (I got it by using LINQPad's IL View)

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You mentioned above that the backing filed cannot be access via ((Base)childInstance).MyInt. Can you check/proof that via reflection, too, as far as most others state that this is possible. – PVitt Aug 12 '13 at 8:50
@PVitt That's by definition of polymorphism. If I have an List<Animal> and I invoke a Speak method on all of them, the dog should bark, the cat should meow etc, without regard that they are referenced via a base class reference. Casting a child instance as base just changes the type of reference, it does nothing to the real type of the object. – SWeko Aug 12 '13 at 9:07
Well, that's the theory. But as far as most others state that in practice the field CAN be accessed, I wanted to know what is true. I don't have a disassembler at hand, so I cannot check myself. – PVitt Aug 12 '13 at 9:12
@PVitt - That's the practice too. The field is private, so excluding reflection, in cannot be directly accessed outside the class. The overriden property, on the other hand, cannot be accessed outside the overriding class, and within the overriding class can be accessed with the base.PropertyName syntax (which can in turn, indirectly access the private field). – SWeko Aug 12 '13 at 9:23
Thanks. So the baseclass field can be accessed from the derived class using base.PropertyName. That's what I wasn't sure about. – PVitt Aug 12 '13 at 9:53

The MyInt field will be there and it needs to! The compiler cannot make optimization based on subclass information. Consider for example that the derived class may not may not be present in the packaged running program

updated as I had misread part of the question. Thanks @PVitt for pointing out.

share|improve this answer
The field should not be used by other methods on the base class as it's name is not defined. So your second reason is no reason at all. – PVitt Aug 12 '13 at 8:54

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