Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

What determines the order of classes within an Assembly?

And.. is there a way to change it?


Additional info: you can check the ordering either through reflection yourself, or you can use a tool like ILDASM, disable the alphabetical sorting, and then you will also get the order.

Order seems to be in a strange way determined by the compiler.

I already tried some things.. like renaming the classes (order stays the same), also editing the .csproj file to change the order of the .cs files.

My main focus is VS2008, C#, .net 3.5.


Update: I do have a scenario where the order matters (external program going through my assembly through reflection) - and I need special order there. Apart from this - you are totally right - order really should not matter.

share|improve this question
    
Is there something you're trying to solve or work around or is this just for curiosity's sake. i.e. what does it matter? –  Mahmoud Al-Qudsi Jun 26 '12 at 18:31
4  
Coincidentally, I believe @EricLippert just wrote a blog post that's related to this. –  Dan J Jun 26 '12 at 18:31
    
Why would you want to do that? –  VVS Jun 26 '12 at 18:31
    
The order should not matter at all, as the order is not guaranteed. If the order matters, then your third-party code is broken. –  John Saunders Jun 26 '12 at 18:43

3 Answers 3

up vote 3 down vote accepted

I'm going to stick my neck out here and say this is an implementation detail and may well be decided by any particular compiler.

Since this is an implementation detail you shouldn't or needn't be concerned. Of course if this really is important (can't see why) you can always write your own IL.

I leave you with the following quote from Eric's blog:

Is compiling the same C# program twice guaranteed to produce the same binary output?

No.

share|improve this answer
    
Thx, Eric's blog entry is pretty interesting. It does not explain much, though. Also, if you look at the comment, I would say about a quarter have had the same problem at least once. :) Some actually had to go to specific compilers/languages for that requirement (no, not me!). Oh, and.. I really don't see the point of a compile being nondeterministic. I mean.. there might be optimization algorithms involved with a random part, but.. hmm.. I would rather doubt that this is the case. He also only argues that ouput is different mainly because of generated GUIDs and the like. –  Andreas Reiff Jun 26 '12 at 18:52
    
Compilers can be non-deterministic. For e.g. a compiler can use multiple threads to compile types (or classes) in an assembly after a cycle of type dependency resolving logic. As and when a thread completes compiling a type, the compiler can add an entry for that type in the metadata. Since thread scheduling is non-deterministic, order of metadata entries and hence order of classes in an assembly become non-deterministic. I am not saying this is how things actually work but it is easy to see that compiler can quite easily be non-deterministic. –  Amit Mittal Jun 27 '12 at 9:39

What determines the order of classes within an Assembly?

The compiler.

And.. is there a way to change it?

Write your own IL directly.


That being said, the order of the types within the assembly really doesn't matter. You can use the types with no regard to their order.

share|improve this answer

Since I haven't work with this in years I am trying to recall this as best I can, however most of this is what I recall from reading "Expert .NET 2.0 Il Assembler" by Serge Lindin and writing my own disassemblers. So FWIW:

Before the world of managed code, i.e. Java or .NET, the layout of the code and data was more exacting because of the use of loaders that layered the code and data as raw bytes from storage right into memory. With the advent of managed environments, came an added layer that could read storage and then view it not as data to be mapped to memory by as a graph of data with Meta data. As such the Meta data could be used to layout the code and data into memory. Doing a quick scan for an answer in the book the only point of note I could find was under "Order of Manifest Declarations in ILAsm" pg. 112. "The general rule in ILAsm (and not only in ILAsm) is "declare, then reference."" So some of the Meta data has rules about ordering, but since the Meta data holds references to the actual code and data in storage, only the meta data has a specific order and the code and data we are used to having a specific order can now be unordered. Again FWIW. If you had asked me several years ago I probably could have written a whole paper for you.

share|improve this answer
    
Shame I am too late. :) Thanks anyway for the insight! –  Andreas Reiff Jun 27 '12 at 9:17

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.