What are some pros/cons for using the Reflection.Emit library versus CodeDOM for dynamically generating code at runtime?

I am trying to generate some (relatively complicated) dynamic classes in a system based on metadata available at runtime in XML form. I will be generating classes that extend existing classes in the application assembly, implementing additional interfaces, adding methods, and overriding virtual and abstract members.

I want to make sure I select the appropriate technique before I get too deep into the implementation. Any information about how these different code-generation techniques differ would be helpful. Also, any information on open-source libraries that simplify or streamline working wither either API would be useful as well.

  • 1
    In reading this, NHibernate was the first thing to pop into my head. Would it be worth looking at how they do this?
    – quip
    Mar 2, 2010 at 21:32
  • 2
    I am in fact looking at that. They use Reflection.Emit, but it's unclear why they chose that vs CodeDOM.
    – LBushkin
    Mar 2, 2010 at 22:02
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    A big difference today is that CSharpCodeProvider APIs are only available in .NET Core 3.0 onwards. They are not even part of .NET Standard (as opposed to Reflection.Emit)
    – nawfal
    Apr 12, 2020 at 22:24

3 Answers 3


I think the key points about CodeDOM and Reflection.Emit are following:

  • CodeDom generates C# source code and is usually used when generating code to be included as part of a solution and compiled in the IDE (for example, LINQ to SQL classes, WSDL, XSD all work this way). In this scenario you can also use partial classes to customize the generated code. It is less efficient, because it generates C# source and then runs the compiler to parse it (again!) and compile it. You can generate code using relatively high-level constructs (similar to C# expressions & statements) such as loops.

  • Reflection.Emit generates an IL so it directly produces an assembly that can be also stored only in memory. As a result is a lot more efficient.You have to generate low-level IL code (values are stored on stack; looping has to be implemented using jumps), so generating any more complicated logic is a bit difficult.

In general, I think that Reflection.Emit is usually considered as the preferred way to generate code at runtime, while CodeDOM is preferred when generating code before compile-time. In your scenario, both of them would probably work fine (though CodeDOM may need higher-privileges, because it actually needs to invoke C# compiler, which is a part of any .NET installation).

Another option would be to use the Expression class. In .NET 4.0 it allows you to generate code equivalent to C# expressions and statements. However, it doesn't allow you to generate a classes. So, you may be able to combine this with Reflection.Emit (to generate classes that delegate implementation to code generated using Expression). For some scenarios you also may not really need a full class hierarchy - often a dictionary of dynamically generated delegates such as Dictionary<string, Action> could be good enough (but of course, it depends on your exact scenario).

  • It is my understanding that CodeDOM can also generate code in memory? Sep 26, 2011 at 12:38
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    Could you elaborate on how you can use partial classes with CodeDom? If my research indicates anything, it is that you can't use partial at all: it's not even an option in the TypeAttributes enum. Apr 6, 2014 at 20:31

Code that targets CodeDom tends to be easier to maintain, since you're generating C# code and not IL (more people can read C# than IL). Futhermore, if you get your CodeDom code wrong, you get a compiler error; if you generate invalid IL, you get a fatal exception or a crash.

However, because CodeDom invokes the csc.exe compiler, it's a little slower to get the code ready for use. With Reflection.Emit, you can generate code directly into memory.

CodeDom is probably fine for most things; the XmlSerializer and the WinForms designer use it.

  • What does the XmlSerializer use CodeDOM for? Sorry, I could look it up in Reflector but I am being lazy as my attention is divided among many other issues and since you answered about it, I assume you already invested time so you could simply type the answer without spending too much time on it either. Dec 2, 2013 at 7:19
  • @WaterCoolerv2 If I had to guess, they build an assembly to read/write the target types. I was once brought into a project with a monstrous, reflection-based data access layer. It was dog slow, so the users hated it, but nobody knew how to fix it. I made it practically instantaneous with a combination of caching and Emit. In addition to cutting slow Reflection out of the picture, you can also eliminate overhead by inspecting the types first and emitting appropriate opcodes directly into a method, instead of branching or calling specialized delegates during the serialization process.
    – Daniel
    Jan 8, 2018 at 14:12

You might want to look at ExpandoObject. However it's .NET 4.0 only.

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