Please read to the end before deciding of voting as duplicate...

I have a type that implements an implicit cast operator to another type:

class A
    private B b;
    public static implicit operator B(A a) { return a.b; }
class B

Now, implicit and explicit casting work just fine:

B b = a;
B b2 = (B)a;

...so how come Linq's .Cast<> doesn't?

A[] aa = new A[]{...};
var bb = aa.Cast<B>();  //throws InvalidCastException

Looking at the source code for .Cast<>, there's not much magic going on: a few special cases if the parameter really is a IEnumerable<B>, and then:

foreach (object obj in source) 
    yield return (T)obj; 
    //            ^^ this looks quite similar to the above B b2 = (B)a;

So why does my explicit cast work, but not the one inside .Cast<>?

Does the compiler sugar-up my explicit cast ?

PS. I saw this question but I don't think its answers really explain what's going on.

  • Even if "its answers wouldn't really explain what's going on" you should not ask duplicate questions ;) Jan 25, 2013 at 14:21
  • 2
    @Tim and how would you suggest I improve the answers of a topic (that I don't know the answer to) except for asking a better question? Jan 25, 2013 at 14:25
  • @TimSchmelter, if this question gets better answers, maybe the other one should be closed as a dup of this? Jan 25, 2013 at 15:09
  • I don't know what's the correct way to handle this. I often see questions getting closed where the answers are better than in the proposed duplicate. Jan 25, 2013 at 15:16
  • @tim Apparently the consensus on meta is to merge the questions: meta.stackexchange.com/q/1375/136203 - I've flagged this question, let's see what happens :) Jan 25, 2013 at 17:24

3 Answers 3


So why my explicit cast work, and the one inside .Cast<> doesn't?

Your explicit cast knows at compile time what the source and destination types are. The compiler can spot the explicit conversion, and emit code to invoke it.

That isn't the case with generic types. Note that this isn't specific to Cast or LINQ in general - you'd see the same thing if you tried a simple Convert method:

public static TTarget Convert<TSource, TTarget>(TSource value)
    return (TTarget) value;

That will not invoke any user-defined conversions - or even conversions from (say) int to long. It will only perform reference conversions and boxing/unboxing conversions. It's just part of how generics work.

  • So should an explicit operator always be defined to complement an implicit operator? Is there a reason that implicit operators don't "implicitly" include explicit conversion? Jan 25, 2013 at 14:17
  • Is there a way to make it work? It would be pretty useful in certain scenarios - like when working with Oracles stupid types that don't even implement IConvertible... Jan 25, 2013 at 14:17
  • @DanielHilgarth: The closest you could come would be to use dynamic, I suspect.
    – Jon Skeet
    Jan 25, 2013 at 14:18
  • @WillVousden: implicit operators can be called explicitly. Adding an explicit operator to the sample code above wouldn't change the observed behavior. Jan 25, 2013 at 14:18
  • 1
    @WillVousden: It has nothing to do with whether the conversion is explicit or implicit - it's only because your conversion is a user-defined one. That simply won't be used by a generic cast operation.
    – Jon Skeet
    Jan 25, 2013 at 14:18

The short answer would be simply: the Cast<T> method doesn't support custom conversion operators.

In the first example:

B b = a;
B b2 = (B)a;

the compiler can see this B(A a) operator during static analysis; the compiler interprets this as a static call to your custom operator method. In the second example:

foreach (object obj in source) 
    yield return (T)obj; 

that has no knowledge of the operator; this is implemented via unbox.any (which is the same as castclass if T is a ref-type).

There is also a third option: if you went via dynamic, the runtime implementation tries to mimic compiler rules, so this will find the operator ... but not as part of the C#-to-IL compile step:

dynamic b = a; // note that `dynamic` here is *almost* the same as `object`
B b2 = b;
  • You're right. I tried this, and it throws: B b = (B)(object)a; I assume it's because I'm hiding a's real type in the static context... Jan 25, 2013 at 14:22
  • @CristiDiaconescu yes; by going via object, it becomes a simple castclass, and castclass does not support custom operators. Jan 25, 2013 at 14:23
  • BTW. I think in your last example you meant B b2 = (B) b ; Jan 25, 2013 at 14:23
  • Adding to this, you can cast through the inheritance tree, so ultimately everything can be casted to object. Thus (new DerivedType[] { ... }).Cast<ParentType>() always works, and (new ParentType[] { new DerivedType(...), ... })).Cast<DerivedType>() works when all the elements are the derived type. Dec 18, 2021 at 2:24

Enumerable.Cast<T> is a .Net framework method and has a behavior that makes sense in all of the .Net languages that call it.

See also, Ander Hejlsberg's reply on this discussion.

Does the compiler sugar-up my explicit cast ?

What you call an "implicit cast operator" is actually an "implicit conversion operator". It's a common mistake.

C# allows you to specify conversions using the casting syntax. When this happens, you are using a different instance (converting), not changing the reference to the same instance (casting).

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