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I just did a little experiment to see if altering an un-boxed variable would propagate changes made to the original source and got two completely different results depending on the types that I used. I am mainly interested in figuring this out for WPF data binding applications in which I bind to objects, cast, change, and hope that the original's update their UIs.

My results were as follows.

  1. Simple types seem to lose their reference to the original source after un-boxing.
  2. Custom types seem to keep their reference.

It seems that I don't have anything to worry about in my scenario of hoping that my WPF UI updates itself after making changes to unboxed bound data contexts; however, not knowing WHY this happens only with complex objects worries me a bit. I do not want my UI to fail on rare or odd occasions I do not know about. Can anyone explain what the heck is mechanically going on back there?

class Program
    //simple types
    private static object sbox1;
    private static object sbox2;

    private static int svalue1 = 10;
    private static int svalue2 = 15;

    //custom types
    private static MyType cvalue1;
    private static MyType cvalue2;

    private static object cbox1;
    private static object cbox2;

    static void Main(string[] args)
        //Box up the values
        sbox1 = svalue1;
        sbox2 = svalue2;

        //unbox the values to local var
        var sunboxed1 = (int)sbox1;
        var sunboxed2 = (int)sbox2;

        //change the values in the new unboxed vars
        sunboxed1 = -10;
        sunboxed2 = -15;

        //check unboxed values and check original value variables
        Console.WriteLine("unboxed1 = " + sunboxed1);
        Console.WriteLine("unboxed2 = " + sunboxed2);
        Console.WriteLine("value1 = " + svalue1);
        Console.WriteLine("value2 = " + svalue2);

        //Now try hand at custom types
        cvalue1 = new MyType() { Example = "I am cvalue1's original string." };
        cvalue2 = new MyType() { Example = "I am cvalue2's original string." };

        //now box them up.
        cbox1 = cvalue1;
        cbox2 = cvalue2;

        //now unbox and change the strings
        var cunboxed1 = cbox1 as MyType;
        var cunboxed2 = cbox2 as MyType;

        //change the original strings to see if they propogate to original objects
        cunboxed1.Example = "I am cunboxed1's altered string.";
        cunboxed2.Example = "I am cunboxed2's altered string.";

        //print unboxed and originals values to compare
        Console.WriteLine("cunboxed1.Example = " + cunboxed1.Example);
        Console.WriteLine("cunboxed2.Example = " + cunboxed2.Example);
        Console.WriteLine("cvalue1.Example = " + cvalue1.Example);
        Console.WriteLine("cvalue2.Example = " + cvalue2.Example);


class MyType
    public string Example { get; set; }

Results from the tester app:

unboxed1 = -10  
unboxed2 = -15  
value1 = 10  
value2 = 15  
cunboxed1.Example = I am cunboxed1's altered string.  
cunboxed2.Example = I am cunboxed2's altered string.  
cvalue1.Example = I am cunboxed1's altered string.  
cvalue2.Example = I am cunboxed2's altered string.  
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Can you also include in your question the output of your program ? –  quantdev Jun 7 at 14:13
This is the question not about boxing / unboxing as you call it, but rather about value and reference types. –  dotnetom Jun 7 at 14:14
search in google: "value types vs reference types" and you will find your answer –  Selman22 Jun 7 at 14:14
Ahhh okay.. numeric = value. –  Adrian Jun 7 at 14:21
What's weird is how value types inside classes suddenly seem to work like reference types. –  Adrian Jun 7 at 14:24
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2 Answers 2

up vote 0 down vote accepted

What you're seeing is caused by the different handling of value and reference types. In the first example, you are boxing an int. This is wrapped in Int32, a value type, and assigned to your object variable. In your unboxing step, the original Int32 object is copied, because it is a value type, and its value is assigned to your int variable sunboxed1. sbox1 and sunboxed1 hold different values and exist at different memory locations, so no change made to one will affect the other.

In your second example, you are assigning a class to an object variable. This isn't boxing it; you're simply upcasting a reference to your object. When you subsequently downcast it back to MyType with the as keyword, you get a reference to the original object. So, cvalue1 and cunboxed1 hold a reference to the same object.

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As dotnetom stated this is more about value vs reference types.

According to MSDN http://msdn.microsoft.com/en-us/library/t63sy5hs.aspx
A data type is a value type if it holds the data within its own memory allocation. Value types include the following: All numeric data types....

However, for classes:
A reference type contains a pointer to another memory location that holds the data. Reference types include the following: Class types, such as Form.....

With the last line being the most interesting.
A class is a reference type. For this reason, reference types such as Object and String are supported by .NET Framework classes. Note that every array is a reference type, even if its members are value types.

This is why the custom types above changed the original values above after un-boxing. strings themselves are reference types so it it might seem that the reason changes were propogated was due to me using a string as an example and not a numeric type; however, changing the Example property to an int will still change the original source as well and yield the same results.

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