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Possible Duplicate:
Compile-time and runtime casting c#

As I understand it, the following code will always compile, and will additionally always fail at run-time by throwing an InvalidCastException.


public class Post { }
public class Question : Post { }
public class Answer : Post 
    public void Fail()
        Post p = new Post();
        Question q = (Question)p; // This will throw an InvalidCastException

My questions are...

  1. If my assumptions are off, then can someone provide an example demonstrating how they're off?
  2. If my assumptions are correct, then why doesn't the compiler warn against this error?
share|improve this question

marked as duplicate by Baz1nga, Conrad Frix, rick schott, Enigma State, Toon Krijthe Nov 17 '11 at 21:18

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Why do you expect the compiler to follow all possible code paths to determine that p has not been changed before the cast? – John Saunders Nov 17 '11 at 15:22
And event if it has not changed, Post can implement an implicit operator to cast itself to Question or vice versa. – PVitt Nov 17 '11 at 15:24
casts are for cowboys, get on the bull and ride baby – kenny Nov 17 '11 at 15:25
As others have pointed out, the static analysis to determine that this will fail is non-trivial. Some of the newer static analysis tools will find things like this, but it's complex enough that it doesn't fall out naturally as a failure during compilation. – Dan Bryant Nov 17 '11 at 15:33
up vote 14 down vote accepted

There are a couple of reasons why this conversion is allowed.

First, as people have said in other answers, the cast operator means "I know more than you do; I guarantee you that this conversion will succeed and if I am wrong, throw an exception and crash the process". If you are lying to the compiler, bad things are going to happen; you in fact are not making that guarantee, and the program is crashing as a result.

Now, if the compiler can tell that you are lying to it, then it can catch you in the lie. The compiler is not required to be arbitrarily clever in catching you in your lies to it! The flow analysis needed to determine that an expression of type Base is never going to be of type Derived is complex; considerably more complex than the logic we already implement to catch things like unassigned local variables. We have better ways to spend our time and effort than in improving the compiler's ability to catch you out in obvious lies.

The compiler therefore typically reasons only about types of expressions, not about possible values. Solely from the type analysis it is impossible to know whether or not the conversion will succeed. It might succeed, and so it is allowed. The only casts that are disallowed are the ones that the compiler knows will always fail from the type analysis.

Second, it is possible to say (Derived)(new Base()) where Derived is a type that implements type Base and have it not fail at runtime. It is also possible for (Base)(new Base()) to fail with an invalid cast exception at runtime! True facts! These are extraordinarily rare situations but they are possible.

For more details, see my articles on the subject:

share|improve this answer

A Post could, under some cases, be cast to a Question. By performing the cast, you're telling the compiler, "This will work, I promise. If it doesn't you're allowed to throw an invalid cast exception."

For example, this code would work fine:

    Post p = new Question();
    Question q = (Question)p;

A cast is expressly stating that you know better than the compiler what this actually is. You may want to do something like the as or is keywords?

share|improve this answer
Adding bananas to my answer made me lose precious moments, and you have been faster. +1 from me. – Paolo Tedesco Nov 17 '11 at 15:26
@PaoloTedesco I like your banana example though. – McKay Nov 17 '11 at 15:28

The point is that p could be a Question, as question inherits from Post.
Consider the following:

public class Post { }
public class Question : Post { }
public class Banana { }

static class Program {
    public static void Main(params string[] args) {
        Post p = new Question();
        Question q = (Question)p; // p IS a Question in this case
        Banana b = (Banana)p; // this does not compile
share|improve this answer

When you do an explicit cast, you are telling the compiler "I know something you don't".

You are in essence overriding the normal logic of the compiler - p might be a Question (so, the compiler will compile), you are telling the compiler that you know it is (even though it isn't, hence runtime exception).

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1) Your assumption is off. Somebody could always implement an explicit conversion operator for Question to convert from Post:

public class Question`
    // some class implementation

    public static explicit operator Question(Post p)
        return new Question { Text = p.PostText };

2) An Explicit cast is your way of telling the compiler that you know better than it does. If you want something to use when you're not sure if a cast will succeed or not and don't want a runtime exception, use the is and as operators.

share|improve this answer
Would you not get "user-defined conversions to or from a base class are not allowed" ? – Black Light Nov 17 '11 at 15:36
The writer of the question has already stated the contents of classes (empty), so, this answer is invalid. He didn't even show them partial or anything, so, "strictly" speaking, this one doesn't apply. – Meligy Nov 17 '11 at 15:43
@MohamedMeligy - The OP may have shown his implementations...but the compiler doesn't care. There's still the possibility that an explicit conversion operation does exist and the compiler isn't going to check. – Justin Niessner Nov 17 '11 at 15:48

The compiler treats p as a variable, so, it doesn't try to track it's value. If it did, it'd take so long for analyzing the entire application. Some static analysis tools do like FxCop.

The Compiler sees a Post, but it didn't track the assignment, and it knows that maybe:

Post p = new Question();

So, it passes it normally.

You know you cannot do:

Question q = p;

The difference is in this one you are trying to tell the compiler to use what it knows to validate this, and it knows the Post is not necessarily a Question.

In the original version you are telling the compiler "I know it is, and I will set this explicitly, get off my way and I'll take the exception if what I know is wrong", so, it listens to you and gets off your way!

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You assumptions are correct: It will compile and it will fail at runtime.

In your small example it is obvious that the cast will fail, but the compiler have no way of knowing this. Since Post is a supertype of Question you could assign a Question to p, and since you make the cast you do declare a willingness take some responsibility from the compiler. Had you been trying to assign a string or something else not part of the same inheritance branch the compiler should warn you. Conversely you can always try to cast object to any type.

But having the compiler complaining about your specific example would mean that no casts would be allowed.

share|improve this answer

Wow Jeremy, I ran into this exact problem recently! So I made this handy extension method that maps two models that share a few identical properties. The intention was to use it when class A inherits from class B to map class B to class A. Hope you find it helpful!

public static class ObjectHelper
    public static T Cast<T>(this Object source)
        var destination = (T)Activator.CreateInstance(typeof(T));

        var sourcetype = source.GetType();
        var destinationtype = destination.GetType();

        var sourceProperties = sourcetype.GetProperties();
        var destionationProperties = destinationtype.GetProperties();

        var commonproperties = from sp in sourceProperties
                               join dp in destionationProperties on new { sp.Name, sp.PropertyType } equals
                                   new { dp.Name, dp.PropertyType }
                               select new { sp, dp };

        foreach (var match in commonproperties)
            match.dp.SetValue(destination, match.sp.GetValue(source, null), null);

        return destination;

FYI, it will probably only work if the two objects exists in the same assembly.

share|improve this answer
i ganked most of the code from here:… – bygrace Nov 17 '11 at 16:08

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