(As a result of doing the research to answer this question, I (think I have!) determined that the answer is "no." However, I had to look in several different places to figure this out, so I think there is still value to the question. But I won't be devastated if the community votes to close.)

For example:

void f<T>(T val) where T : IComparable

void g()

Is 4 boxed? I know that explicitly casting a value type to an interface that it implements triggers boxing:

((IComparable)4).CompareTo(null); // The Int32 "4" is boxed

What I don't know is whether passing a value type as a generic parameter with an interface constraint is tantamount to performing a cast--the language "where T is an IComparable" sort of suggests casting, but simply turning T into IComparable seems like it would defeat the entire purpose of being generic!

To clarify, I would like to be sure neither of these things happens in the code above:

  1. When g calls f(4), the 4 is cast to IComparable since there is an IComparable constraint on f's parameter type.
  2. Assuming (1) does not occur, within f, val.CompareTo(null) does not cast val from Int32 to IComparable in order to call CompareTo.

But I would like to understand the general case; not just what happens with ints and IComparables.

Now, if I put the below code into LinqPad:

void Main()

void f<T>(T val) where T : IComparable

And then examine the generated IL:

IL_0001:  ldc.i4.4    
IL_0002:  box         System.Int32
IL_0007:  ldnull      
IL_0008:  callvirt    System.IComparable.CompareTo
IL_000D:  pop         
IL_000E:  ldarg.0     
IL_000F:  ldc.i4.4    
IL_0010:  call        UserQuery.f

IL_0000:  nop         
IL_0001:  ldarga.s    01 
IL_0003:  ldnull      
IL_0004:  constrained. 01 00 00 1B 
IL_000A:  callvirt    System.IComparable.CompareTo
IL_000F:  pop         
IL_0010:  ret  

It's clear that boxing occurs as expected for the explicit cast, but no boxing is obvious either in f itself* or at its call site in Main. This is good news. However, that's also just one example with one type. Is this lack of boxing something that can be assumed for all cases?

*This MSDN article discusses the constrained prefix and states that using it in conjunction with callvirt will not trigger boxing for value types as long as the called method is implemented on the type itself (as opposed to a base class). What I'm not sure of is whether the type will always still be a value type when we get here.

  • Can you clarify, do you mean "is it boxed when passing the value type to the generic method" or "is it boxed inside the generic method when calling the interface method on the value type"? – Lasse Vågsæther Karlsen Aug 26 '14 at 14:58
  • The boxing incurred by constrained does not occur outside the method, passing the value type to the method will not be boxed. However, the constrained callvirt inside the method might box the value type depending on circumstances. What exactly is your question here? – Lasse Vågsæther Karlsen Aug 26 '14 at 14:59
  • @LasseV.Karlsen: I read an essential part of the question as "If an enum is passed as an IComparable-constrained generic, will calling Compare on it cause the constrained generic to be boxed"? I would guess that in the case of the IComparable interface implemented by System.Enum the answer would be that such a call will not only involve boxing, but other horribly slow Refection-based nastiness as well, but types with "user-defined" interface implementations boxing will be avoided. – supercat Aug 26 '14 at 15:31
  • @LasseV.Karlsen Either one. I was concerned that passing (e.g.) int to a generic method f with where T : IComparable might actually cast the int to an IComparable at the call site and pass it that way. And if it didn't, I was also worried that perhaps the T would first be cast to IComparable within f in order to call CompareTo on it. My experiment showed that neither happens in the specific case I examined. – dlf Aug 26 '14 at 15:38

As you figured out already, When a struct is passed to generic method, It will not be boxed.

Runtime creates new method for every "Type Argument". When you call a generic method with a value type, you're actually calling a dedicated method created for respective value type. So there is no need of boxing.

When calling the interface method which is not directly implemented in your struct type, then boxing will happen. Spec calls this out here:

If thisType is a value type and thisType does not implement method then ptr is dereferenced, boxed, and passed as the 'this' pointer to the callvirt method instruction.

This last case can occur only when method was defined on Object, ValueType, or Enum and not overridden by thisType. In this case, the boxing causes a copy of the original object to be made. However, because none of the methods of Object, ValueType, and Enum modify the state of the object, this fact cannot be detected.

So, as long as you explicitly[1] implement interface member in your struct itself, boxing will not occur.

How, when and where are generic methods made concrete?

1.Not to be confused with Explicit interface implementation. It is to say that your interface method should be implemented in struct itself rather than its base type.

  • Why the downvote? Am I missing something? – Sriram Sakthivel Aug 26 '14 at 14:49
  • The question is not about passing the struct to the generic method, but the calling of the method on the required interface, the part using the constrained and callvirt instructions. The documentation of constrained indicates that the value type will be boxed if the type of the value type does not directly implement the method called on the interface. – Lasse Vågsæther Karlsen Aug 26 '14 at 14:50
  • @LasseV.Karlsen Still answer is same. It will not be boxed. Otherwise why do you need generics? – Sriram Sakthivel Aug 26 '14 at 14:51
  • It will not be boxed when you pass the value to the method. It might be boxed when you call the interface method, inside the method, and that's what the question is about. – Lasse Vågsæther Karlsen Aug 26 '14 at 14:52
  • Sorry, I think this question is unclear, re-reading it twice gives me the indication that you're right as well. – Lasse Vågsæther Karlsen Aug 26 '14 at 14:57

A simple enough test is to simply create a mutable struct with an interface method that mutates it. Call that interface method from a generic method, and see if the original struct was mutated.

public interface IMutable
    void Mutate();
    int Value { get; }

public struct Evil : IMutable
    public int value;

    public void Mutate()
        value = 9;

    public int Value { get { return value; } }

public static void Foo<T>(T mutable)
    where T : IMutable

static void Main(string[] args2)
    Evil evil = new Evil() { value = 2 };

Here we see 9 printed out, which means the actual variable was mutated, not a copy, so the struct wasn't boxed.

  • This is a good and (in retrospect) obvious way to test for boxing. I probably should have done something like this before diving into the IL! – dlf Aug 26 '14 at 18:27

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