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As a bit of a novelty, I'm trying to see how different the IL from light weight code generated at runtime looks vs code generated by the VS compiler, as I noticed that VS code tends to run with a different performance profile for things like casts.

So I wrote the following code::

Func<object,string> vs = x=>(string)x;
Expression<Func<object,string>> exp = x=>(string)x;
var compiled = exp.Compile(); 

Unfortunately, this throws an exception as GetMethodBody is apparently an illegal operation on code generated by expression trees. How can I in a library manner (i.e. not with an external tool unless the tool has an API) look at the code generated by code using lightweight codegen?

Edit: the error occurs on line 5, compiled.Method.GetMethodBody() throws the exception.

Edit2: Does anyone know how to recover the local variables declared in the method? Or is there no way to GetVariables?

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Which line is throwing the exception? Can you comment out the first Array.ForEach and see if that works? I suspect that the first call to GetMethodBody() is failing simply because that expression has not been compiled to IL. I see no reason why the second call should fail. – cdhowie Nov 10 '10 at 16:58
Interesting question. I'm getting an InvalidOperationException("Operation in not valid due to the current state of the object") on the GetMethodBody call. I'm not sure how starting life as a CachedAnonymousDelegate vs Expression would effect your behavior as a Func. I'm going to keep working this one. – Sorax Nov 10 '10 at 17:31
The selected answer should be switched because it does not cover all cases and is unnecessarily complex. Please see this answer. – jnm2 Feb 29 at 23:05
up vote 16 down vote accepted

Yeah, doesn't work, the method is generated by Reflection.Emit. The IL is stored in the MethodBuilder's ILGenerator. You can dig it out but you have to be pretty desperate. Reflection is needed to get to the internal and private members. This worked on .NET 3.5SP1:

using System.Linq.Expressions;
using System.Reflection;
using System.Reflection.Emit;

        var mtype = compiled.Method.GetType();
        var fiOwner = mtype.GetField("m_owner", BindingFlags.Instance | BindingFlags.NonPublic);
        var dynMethod = fiOwner.GetValue(compiled.Method) as DynamicMethod;
        var ilgen = dynMethod.GetILGenerator();
        var fiBytes = ilgen.GetType().GetField("m_ILStream", BindingFlags.Instance | BindingFlags.NonPublic);
        var fiLength = ilgen.GetType().GetField("m_length", BindingFlags.Instance | BindingFlags.NonPublic);
        byte[] il = fiBytes.GetValue(ilgen) as byte[];
        int cnt = (int)fiLength.GetValue(ilgen);
        // Dump <cnt> bytes from <il>

On .NET 4.0 you'll have to use ilgen.GetType().BaseType.GetField(...) because the IL generator was changed, DynamicILGenerator, derived from ILGenerator.

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Yuck! Thanks a lot though! – Michael B Nov 10 '10 at 18:08
Oh, damn that's ugly. Good work... it's a shame the code can't be more beautiful. :( – cdhowie Nov 10 '10 at 18:12
Just tried it,This doesn't seem to work in .NET 4. it tells me that fiBytes is null :( – Michael B Nov 10 '10 at 18:33
@Michael - Yup, that's the risk of Reflection. The IL generator was changed. You'll have to use ilgen.GetType().BaseType.GetField(...) – Hans Passant Nov 10 '10 at 18:49
Watch out, this doesn't work with all DynamicMethods. See this answer for a current solution. – jnm2 Feb 29 at 23:17

The ILReader hear should work.

ILVisualizer 2010 Solution


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Based off Hans Passant's work I was able to dig a little deeper there appears to be a method that you should call, called BakeByteArray so the following works::

var dynMethod = fiOwner.GetValue(compiled.Method) as DynamicMethod;
var ilgen =dynamicMethod.GetILGenerator();
byte[] il = ilgen.GetType().GetMethod("BakeByteArray", BindingFlags.NonPublic | BindingFlags.Instance).Invoke(ilgen, null) as byte[];

This certainly helps, but I still have no way to resolve VariableInfo's just yet which is something that would help in my work.

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You are baking it twice. Not sure if it gets burned, probably not. – Hans Passant Nov 10 '10 at 18:51
I'm not sure, however this code is completely useless as I can't disassemble that which I make realistically using this approach as I can't get the metadataToken's resolved to anything useful as the module that is listed on the thing seems worthless. – Michael B Nov 10 '10 at 19:08

The current solutions here aren't addressing the current situation in .NET 4 very well. You can use either DynamicILInfo or ILGenerator to create the dynamic method, but the solutions listed here do not work with DynamicILInfo dynamic methods at all.

Whether you use the DynamicILInfo method of generating IL or the ILGenerator method, the IL bytecode ends up in DynamicMethod.m_resolver.m_code. You don't have to check both methods and it's a less complex solution.

This is the version you should be using:

public static byte[] GetILBytes(DynamicMethod dynamicMethod)
    var resolver = typeof(DynamicMethod).GetField("m_resolver", BindingFlags.Instance | BindingFlags.NonPublic).GetValue(dynamicMethod);
    if (resolver == null) throw new ArgumentException("The dynamic method's IL has not been finalized.");
    return (byte[])resolver.GetType().GetField("m_code", BindingFlags.Instance | BindingFlags.NonPublic).GetValue(resolver);

See this answer for more helper methods and a solution for the DynamicMethod token resolution issue.

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