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Anyone any idea why a generic method which constrains T to class would have boxing instructions in the generates MSIL code?

I was quite surprised by this since surely since T is being constrained to a reference type the generated code should not need to perform any boxing.

Here is the c# code:

protected void SetRefProperty<T>(ref T propertyBackingField, T newValue) where T : class
    bool isDifferent = false;

    // for reference types, we use a simple reference equality check to determine
    // whether the values are 'equal'.  We do not use an equality comparer as these are often
    // unreliable indicators of equality, AND because value equivalence does NOT indicate
    // that we should share a reference type since it may be a mutable.

    if (propertyBackingField != newValue)
        isDifferent = true;

Here is the generated IL:

.method family hidebysig instance void SetRefProperty<class T>(!!T& propertyBackingField, !!T newValue) cil managed
    .maxstack 2
    .locals init (
        [0] bool isDifferent,
        [1] bool CS$4$0000)
    L_0000: nop 
    L_0001: ldc.i4.0 
    L_0002: stloc.0 
    L_0003: ldarg.1 
    L_0004: ldobj !!T
    L_0009: box !!T
    L_000e: ldarg.2 
    L_000f: box !!T
    L_0014: ceq 
    L_0016: stloc.1 
    L_0017: ldloc.1 
    L_0018: brtrue.s L_001e
    L_001a: nop 
    L_001b: ldc.i4.1 
    L_001c: stloc.0 
    L_001d: nop 
    L_001e: ret 

Notice the box !!T instructions.

Anyone any idea why this is being generated?

Anyone any ideas how to avoid this?

Thanks, Phil

share|improve this question
Jon is out I guess :-) –  Peter Sep 9 '09 at 15:44
I have found your answer and it was a duplicate! Great question, by the way :) Please see stackoverflow.com/questions/646517/… –  Andrew Hare Sep 9 '09 at 16:15
The gist of the answer I have linked is that a boxing instruction on a reference type is effectively a nop. This allows the compiler to freely emit boxing instructions that can be removed by the JIT for closed constructed types that were created with a reference type as the generic type argument. In your case (since T is constrained as a reference type) neither of the two boxing instructions that were emitted would ever be run. –  Andrew Hare Sep 9 '09 at 16:19
Those will be no-ops for reference types anyway, so it's not a big deal, but I have a suspicion. Are you compiling with /optimize+? –  Pavel Minaev Sep 9 '09 at 16:19
Thanks Andrew. I did search around on generics and boxing but didn't find that question. I guess then, that the compiler doesn't bother implementing any special logic for this - since the box operation ends up doing nothing. Not sure, if this is the right way to do this, but if you want to post this as an answer, I'll mark it as accepted. Cheers! –  Phil Sep 9 '09 at 19:57

3 Answers 3

up vote 1 down vote accepted

You don't have to worry about any performance-degradations from the box instruction because if its argument is a reference type, the box instruction does nothing. Though it's still strange that the box instruction has even been created (maybe lazyiness/easier design at code generation?).

share|improve this answer

I'm not sure why any boxing is ocurring. One possible way to avoid the boxing is to not use it. Just recompile without the boxing. Ex:

.assembly recomp_srp
    .ver 1:0:0:0

.class public auto ansi FixedPBF

.method public instance void .ctor() cil managed


.method hidebysig public instance void SetRefProperty<class T>(!!T& propertyBackingField, !!T newValue) cil managed
	.maxstack 2    
		.locals init ( bool isDifferent, bool CS$4$0000)

		ldobj !!T
		brtrue.s L_0001
		L_0001: ret



...if you save to a file recomp_srp.msil you can simply recompile as such:

ildasm /dll recomp_srp.msil

And it runs OK without the boxing on my end:

        FixedPBF TestFixedPBF = new FixedPBF();

        TestFixedPBF.SetRefProperty<string>(ref TestField, "test2");

...of course, I changed it from protected to public, you would need to make the change back again and provide the rest of your implementation.

share|improve this answer

I believe this is intended by design. You're not constraining T to a specific class so it's most likely down casting it to object. Hence why you see the IL include boxing.

I would try this code with where T : ActualClass

share|improve this answer
If you do T : ActualClass, why bother with the generics? –  Robert Harvey Sep 9 '09 at 16:06
Because you can constrain T to higher levels... like iSomeInterface... –  Chris Marisic Sep 9 '09 at 18:33
Chris, if T were an object, wouldn't it have already been boxed prior to pushing on the stack? Why then would any boxing operation need to be performed on it? I would expect the == operator to check reference equality if T were an object, so this also would not require un/boxing operations. –  Phil Sep 9 '09 at 19:52

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