All code written in .NET languages compiles to MSIL, but are there specific tasks / operations that you can do only using MSIL directly?

Let us also have things done easier in MSIL than C#, VB.NET, F#, j# or any other .NET language.

So far we have this:

  1. Tail recursion
  2. Generic Co/Contravariance
  3. Overloads which differ only in return types
  4. Override access modifiers
  5. Have a class which cannot inherit from System.Object
  6. Filtered exceptions (can be done in vb.net)
  7. Calling a virtual method of the current static class type.
  8. Get a handle on the boxed version of a value type.
  9. Do a try/fault.
  10. Usage of forbidden names.
  11. Define your own parameterless constructors for value types.
  12. Define events with a raise element.
  13. Some conversions allowed by the CLR but not by C#.
  14. Make a non main() method as the .entrypoint.
  15. work with the native int and native unsigned int types directly.
  16. Play with transient pointers
  17. emitbyte directive in MethodBodyItem
  18. Throw and catch non System.Exception types
  19. Inherit Enums (Unverified)
  20. You can treat an array of bytes as a (4x smaller) array of ints.
  21. You can have a field/method/property/event all have the same name(Unverified).
  22. You can branch back into a try block from its own catch block.
  23. You have access to the famandassem access specifier (protected internal is famorassem)
  24. Direct access to the <Module> class for defining global functions, or a module initializer.

20 Answers 20


MSIL allows for overloads which differ only in return types because of

call void [mscorlib]System.Console::Write(string)


callvirt int32 ...
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Most .Net languages including C# and VB do not use the tail recursion feature of MSIL code.

Tail recursion is an optimization that is common in functional languages. It occurs when a method A ends by returning the value of method B such that method A's stack can be deallocated once the call to method B is made.

MSIL code supports tail recursion explicitly, and for some algorithms this could be a important optimization to make. But since C# and VB do not generate the instructions to do this, it must be done manually (or using F# or some other language).

Here is an example of how tail-recursion may be implemented manually in C#:

private static int RecursiveMethod(int myParameter)
    // Body of recursive method
    if (BaseCase(details))
        return result;
    // ...

    return RecursiveMethod(modifiedParameter);

// Is transformed into:

private static int RecursiveMethod(int myParameter)
    while (true)
        // Body of recursive method
        if (BaseCase(details))
            return result;
        // ...

        myParameter = modifiedParameter;

It is common practice to remove recursion by moving the local data from the hardware stack onto a heap-allocated stack data structure. In the tail-call recursion elimination as shown above, the stack is eliminated completely, which is a pretty good optimization. Also, the return value does not have to walk up a long call-chain, but it is returned directly.

But, anyway, the CIL provides this feature as part of the language, but with C# or VB it has to be implemented manually. (The jitter is also free to make this optimization on its own, but that is a whole other issue.)

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  • 1
    F# does not use MSIL's tail recursion, because it only works in fully trusted (CAS) cases because of the way it does not leave a stack to check for permission assrtions (etc.). – Richard Feb 22 '09 at 21:54
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    Richard, I'm not sure what you mean. F# certainly does emit the tail. call prefix, pretty much all over the place. Examine the IL for this: "let print x = print_any x". – MichaelGG Feb 24 '09 at 23:22
  • 1
    I believe that the JIT will use tail recursion anyway in some cases - and in some cases will ignore the explicit request for it. It depends on the processor architecture, IIRC. – Jon Skeet Feb 26 '09 at 16:20
  • 3
    @Abel: While processor architecture is irrelevant in theory, it's not irrelevant in practice as the different JITs for different architectures have different rules for tail recursion in .NET. In other words, you could very easily have a program which blew up on x86 but not on x64. Just because tail recursion can be implemented in both cases doesn't mean it is. Note that this question is about .NET specifically. – Jon Skeet Jul 31 '10 at 22:33
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    C# actually does tail calls under x64 in specific cases: community.bartdesmet.net/blogs/bart/archive/2010/07/07/…. – Pieter van Ginkel Nov 1 '10 at 20:11

In MSIL, you can have a class which cannot inherit from System.Object.

Sample code: compile it with ilasm.exe UPDATE: You must use "/NOAUTOINHERIT" to prevent assembler from auto inheriting.

// Metadata version: v2.0.50215
.assembly extern mscorlib
  .publickeytoken = (B7 7A 5C 56 19 34 E0 89 )                         // .z\V.4..
  .ver 2:0:0:0
.assembly sample
  .custom instance void [mscorlib]System.Runtime.CompilerServices.CompilationRelaxationsAttribute::.ctor(int32) = ( 01 00 08 00 00 00 00 00 ) 
  .hash algorithm 0x00008004
  .ver 0:0:0:0
.module sample.exe
// MVID: {A224F460-A049-4A03-9E71-80A36DBBBCD3}
.imagebase 0x00400000
.file alignment 0x00000200
.stackreserve 0x00100000
.subsystem 0x0003       // WINDOWS_CUI
.corflags 0x00000001    //  ILONLY
// Image base: 0x02F20000

// =============== CLASS MEMBERS DECLARATION ===================

.class public auto ansi beforefieldinit Hello
  .method public hidebysig static void  Main(string[] args) cil managed
    // Code size       13 (0xd)
    .maxstack  8
    IL_0000:  nop
    IL_0001:  ldstr      "Hello World!"
    IL_0006:  call       void [mscorlib]System.Console::WriteLine(string)
    IL_000b:  nop
    IL_000c:  ret
  } // end of method Hello::Main
} // end of class Hello
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    @Jon Skeet - With all due respect, Could you please help me understand what NOAUTOINHERIT mean. MSDN specifies "Disables default inheritance from Object when no base class is specified.New in the .NET Framework version 2.0." – Ramesh Feb 26 '09 at 20:48
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    @Michael - The question is regarding MSIL and not Common Intermediate Language. I agree this may not be possible in CIL but, it still works with MSIL – Ramesh Feb 26 '09 at 20:52
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    @Ramesh: Oops, you're absolutely right. I'd say at that point it breaks the standard spec, and shouldn't be used. Reflector doesn't even load the assmebly. However, it can be done with ilasm. I wonder why on earth it's there. – Jon Skeet Feb 26 '09 at 21:04
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    (Ah, I see the /noautoinherit bit was added after my comment. At least I feel somewhat better about not realising it before...) – Jon Skeet Feb 26 '09 at 21:06
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    I'll add that at least on .NET 4.5.2 on Windows it compile but doesn't execute (TypeLoadException). PEVerify returns: [MD]: Error: TypeDef that is not an Interface and not the Object class extends Nil token. – xanatos Apr 2 '15 at 8:52

It's possible to combine the protected and internal access modifiers. In C#, if you write protected internal a member is accessible from the assembly and from derived classes. Via MSIL you can get a member which is accessible from derived classes within the assembly only. (I think that could be pretty useful!)

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Ooh, I didn't spot this at the time. (If you add the jon-skeet tag it's more likely, but I don't check it that often.)

It looks like you've got pretty good answers already. In addition:

  • You can't get a handle on the boxed version of a value type in C#. You can in C++/CLI
  • You can't do a try/fault in C# ("fault" is a like a "catch everything and rethrow at the end of the block" or "finally but only on failure")
  • There are lots of names which are forbidden by C# but legal IL
  • IL allows you to define your own parameterless constructors for value types.
  • You can't define events with a "raise" element in C#. (In VB you have to for custom events, but "default" events don't include one.)
  • Some conversions are allowed by the CLR but not by C#. If you go via object in C#, these will sometimes work. See a uint[]/int[] SO question for an example.

I'll add to this if I think of anything else...

  • 3
    Ah the jon-skeet tag, I knew I was missing something! – Binoj Antony Feb 26 '09 at 16:09
  • To use illegal identifier name you can prefix it with @ in C# – George Polevoy Aug 3 '10 at 16:28
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    @George: That works for keywords, but not all valid IL names. Try specifying <>a as a name in C#... – Jon Skeet Aug 3 '10 at 16:43

The CLR supports generic co/contravariance already, but C# is not getting this feature until 4.0

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  • Can you provide a link with more info on this? – Binoj Antony Feb 12 '09 at 16:25

In IL you can throw and catch any type at all, not just types derived from System.Exception.

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    You can do that in C# too, with try/catch without parentheses in the catch-statement you will catch non-Exception-like exceptions too. Throwing, however, is indeed only possible when you inherit from Exception. – Abel Jul 31 '10 at 22:40
  • @Abel You can hardly say that you're catching something if you can't refer to it. – Jim Balter Jan 2 '17 at 6:18
  • 2
    @JimBalter if you don't catch it, the application crashes. If you catch it, the application doesn't crash. So referring to the exception object is distinct from catching it. – Daniel Earwicker Jan 2 '17 at 8:51
  • Lol! A distinction between app terminating or continuing is pedantry? Now I think I may have heard everything. – Daniel Earwicker Jan 2 '17 at 18:47
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    Interestingly enough, the CLR no longer lets you do this. By default it will wrap non-exception objects in RuntimeWrappedException. – Jwosty Aug 3 '18 at 16:41

IL has the distinction between call and callvirt for virtual method calls. By using the former you can force calling a virtual method of the current static class type instead of the virtual function in the dynamic class type.

C# has no way of doing this:

abstract class Foo {
    public void F() {
        Console.WriteLine(ToString()); // Always a virtual call!

    public override string ToString() { System.Diagnostics.Debug.Assert(false); }

sealed class Bar : Foo {
    public override string ToString() { return "I'm called!"; }

VB, like IL, can issue nonvirtual calls by using the MyClass.Method() syntax. In the above, this would be MyClass.ToString().

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In a try/catch, you can re-enter the try block from its own catch block. So, you can do this:

.try {
    // ...

    // ...

    leave.s RestOfMethod
catch [mscorlib]System.Exception {
    leave.s MidTry  // branching back into try block!

    // ...

AFAIK you can't do this in C# or VB

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With IL and VB.NET you can add filters when catching exceptions, but C# v3 does not support this feature.

This VB.NET example is taken from http://blogs.msdn.com/clrteam/archive/2009/02/05/catch-rethrow-and-filters-why-you-should-care.aspx (note the When ShouldCatch(ex) = True in the Catch clause):

Catch ex As CustomBaseException When ShouldCatch(ex)
   Console.WriteLine("Caught exception!")
End Try
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  • 17
    Please rRemove the = True, it's making my eyes bleed! – Konrad Rudolph Feb 23 '09 at 16:16
  • Why? This is VB and not C#, so no =/== problems exist. ;-) – peSHIr Feb 27 '09 at 9:43
  • Well c# can do "throw;", so the same result can be achieved. – Frank Schwieterman Mar 13 '09 at 16:58
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    paSHIr, I believe he was talking about the redudancy of it – LegendLength May 6 '09 at 12:36
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    @Frank Schwieterman: There is a difference between catching and rethrowing an exception, versus holding off on catching it. Filters run before any nested "finally" statements, so the circumstances which caused the exception will still exist when the filter is run. If one is expecting to a significant number of SocketException to be thrown that one will want to catch relatively silently, but a few of them will signal trouble, being able to examine the state when a problematic one is thrown can be very useful. – supercat Jul 1 '11 at 17:57

As far as I know, there's no way to make module initializers (static constructors for an entire module) directly in C#:


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Native types
You can work with the native int and native unsigned int types directly (in c# you can only work on an IntPtr which is not the same.

Transient Pointers
You can play with transient pointers, which are pointers to managed types but guaranteed not to move in memory since they are not in the managed heap. Not entirely sure how you could usefully use this without messing with unmanaged code but it's not exposed to the other languages directly only through things like stackalloc.

you can mess about with the class if you so desire (you can do this by reflection without needing IL)

.emitbyte The .emitbyte directive MethodBodyItem ::= … | .emitbyte Int32 This directive causes an unsigned 8-bit value to be emitted directly into the CIL stream of the method, at the point at which the directive appears. [Note: The .emitbyte directive is used for generating tests. It is not required in generating regular programs. end note]

You have a bit more flexibility on this, you can apply it to methods not called Main for example.

have a read of the spec I'm sure you'll find a few more.

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  • +1, some hidden gems here. Note that <Module> is meant as special class for languages that accept global methods (like VB does), but indeed, C# cannot access it directly. – Abel Jul 31 '10 at 23:01
  • Transient pointers seem like they'd be a very useful type; many of the objections to mutable structures stem from their omission. For example, "DictOfPoints(key).X = 5;" would be workable if DictOfPoints(key) returned a transient pointer to a struct, rather than copying the struct by value. – supercat Jun 29 '11 at 13:23
  • @supercat that wouldn't work with a transient pointer, the data in question could be on the heap. what you want is the ref returns the Eric talks about here: blogs.msdn.com/b/ericlippert/archive/2011/06/23/… – ShuggyCoUk Jun 30 '11 at 8:18
  • @ShuggyCoUk: Interesting. I really hope Eric can be persuaded to provide a means by which "DictOfPoints(key).X = 5;" could be made to work. Right now if one wants to hard-code DictOfPoints to work exclusively with type Point (or some other particular type), one can almost make that work, but it's a pain. BTW, one thing that I'd like to see would be a means by which one could write an open-ended generic function e.g. DoStuff<...>(someParams, ActionByRef<moreParams,...>, ...) which could expand as needed. I'd guess there'd be some way to do that in MSIL; with some compiler help... – supercat Jul 1 '11 at 0:44
  • @ShuggyCoUk: ...it would provide another way of having by-reference properties, with the added bonus that some property could run after everything that outsiders will do to the reference has been done. – supercat Jul 1 '11 at 0:45

You can hack method override co/contra-variance, which C# doesn't allow (this is NOT the same as generic variance!). I've got more information on implementing this here, and parts 1 and 2


I think the one I kept wishing for (with entirely the wrong reasons) was inheritance in Enums. It doesn't seem like a hard thing to do in SMIL (since Enums are just classes) but it's not something the C# syntax wants you to do.

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Here's some more:

  1. You can have extra instance methods in delegates.
  2. Delegates can implement interfaces.
  3. You can have static members in delegates and interfaces.
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20) You can treat an array of bytes as a (4x smaller) array of ints.

I used this recently to do a fast XOR implementation, since the CLR xor function operates on ints and I needed to do XOR on a byte stream.

The resulting code measured to be ~10x faster than the equivalent done in C# (doing XOR on each byte).


I don't have enough stackoverflow street credz to edit the question and add this to the list as #20, if someone else could that would be swell ;-)

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    Rather than dip into IL, you could have accomplished this with unsafe pointers. I'd imagine it would have been just as fast, and perhaps faster, since it would do no bounds checking. – P Daddy Oct 17 '09 at 0:25

Something obfuscators use - you can have a field/method/property/event all have the same name.

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  • 1
    I put a sample out on my site: jasonhaley.com/files/NameTestA.zip In that zip there is the IL and an exe that contains a class with the following all the same 'A': -class name is A -Event named A -Method named A -Property named A -2 Fields named A I can't find a good reference to point you at, though I probably read it in either the ecma 335 spec or Serge Lidin's book. – Jason Haley Oct 22 '09 at 13:28

Enum inheritance is not really possible:

You can inherit from an Enum class. But the result doesn't behave like an Enum in particular. It behaves not even like a value type, but like an ordinary class. The srange thing is: IsEnum:True, IsValueType:True, IsClass:False

But thats not particulary useful (unless you want to confuse a person or the runtime itself.)

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You can also derive a class from System.Multicast delegate in IL, but you can't do this in C#:

// The following class definition is illegal:

public class YourCustomDelegate : MulticastDelegate { }


You can also define module-level (aka global) methods in IL, and C#, in contrast, only allows you to define methods as long as they are attached to at least one type.

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