Boxing/unboxing conversions are one of the most popular interview questions so I'm not going to explain them in this post(who wants to read another description anyway). Instead I will present one example, which will ensure you, that you understand "what is going on" completely. The example originates from a great book "CLR via C#" by Jeffrey Richter. If you haven't got a chance, I strongly recommend you to read it - it's a fantastic collection of many gotchas in C#/CLR.
Let's say we have following struct in our code:
public struct Point
private int _x;
private int _y;
public Point(int x, int y)
_x = x;
_y = y;
public void Change(int x, int y)
_x = x;
_y = y;
public override string ToString()
(yes, I know that mutable structs are evil - it's not the case). Let's try to play with it and display something:
static void Main(string args)
var point = new Point(1, 1);
var o = (object)point;
The question is - what do you expect a console will display?
This is what my first thought was like. This is what our intuition tells us. But hey, let's start this program:
This is something unexpected. How is it possible, that we are missing changing our point to (3, 3)?
The "problem" with this example for most people is, that they forget how unboxing is supposed to work. Casting o to Point doesn't mean, that we are changing its type. We are trying to represent a reference type stored on a managed heap as a value type, which needs to be pushed onto the local thread stack. To do that, compiler has to emit an additional variable, which will store contents of this conversion. Let's check MSIL for this operation:
IL_003a: ldloc.1 // o
IL_003b: unbox.any Program.Point
IL_0040: stloc.2 // V_2
IL_0041: ldloca.s V_2
IL_0045: call instance void Program.Point::Change(int32, int32)
As you can see, compiler emited a V_2 variable, which is supposed to store unboxing result. Then this variable is loaded onto evaluation stack and Change() method is being invoked. Because we don't have any reference to it, we actually don't see, that we are trying to change a Point, that we never expected to be created. Just to make sure, we can check emitted code for writing a result:
IL_004b: ldloc.1 // o
IL_004c: call void [mscorlib]System.Console::WriteLine(object)
If we compare it with local variables:
.locals init (
 valuetype Program.Point point,
 object o,
 valuetype Program.Point V_2
we can see, that Console.WriteLine() is being called for an o variable, thus Change() method is never called for it.
Boxing/unboxing conversion can be treacherous because of the all differences between value and reference types. Above example can be fixed if we use an interface, which declares Change() method - in such case no conversion will be needed. If you are interested in such "not-so-obvious" cases, I strongly recommend you to check ProblemBook.NET book, where you can find even more examples.