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I have a nice, elegant (IMO) piece of code I've written that I want to port to other languages, like C++, Java, etc.

The problem I'm facing is twofold:

  • The code uses yield
  • The code is highly recursive

Getting rid of yield by hand is possible, but very tedious -- the process is very mechanical and obviously automatable.
At the same time, the state machine that the C# compiler translates this into is very ugly -- it's practically unusable for porting. (I've tried decompiling it; it's just unreadable.)

I'm wondering, do I have any other options than just spending days on this to get rid of yield by hand?
Or is there some kind of tool that can convert yield blocks to (readable) state machines, which I can then port over like normal code?

In case you're curious what I mean by "highly recursive" -- the code below is basically the structure of the code (the actual thing is only ~66 lines; it's not a terribly long function):

static IEnumerable<ReturnType> MyRecursiveYielder(args)
    if (blah1) yield return foo;
    else if (blah2)
        foreach (var foo1 in foo2.Blah())
            foreach (var item in MyRecursiveYielder(moreArgs))
                yield return item;
        var state = new State();
        foreach (var item in blah)
            foreach (var item2 in MyRecursiveYielder(otherArgs))
                foreach (var item3 in blah3)
                    foreach (var result in MyRecursiveYielder(yetMoreArgs)))
                        yield return result;
        while (condition)
            foreach (var foo in blah)
                foreach (var result in MyRecursiveYielder(argh)))
                    if (condition2)
                        foreach (var result in MyRecursiveYielder(almostThere)))
                            yield return result;
share|improve this question
Oof. Object creation mayhem. You might be better off managing your own stack here instead of going recursive. Here's an answer I posted elsewhere to show what i mean: stackoverflow.com/questions/11908570/… –  spender Oct 22 '12 at 9:25
Do you need it to run on demand or can it run in advance? The obvious solution to my mind would be to just stick these in a list every time you do a yield and then return that. Of course then its all in memory whcih looking at the number of things your are looping through might be quite big... Otherwise the big unwieldy statemachine sounds like it might be the solution. In what way is the decompiled state machine unreadable out of interest? Is it just a case of it needs cleaning up so a different decompiler might make it look nicer or is it the structure itself that is a bad thing? –  Chris Oct 22 '12 at 9:26
@Chris: It's better if I can run it on-demand, lazily -- I have no idea how big the output is (it could be anything from zero to, well, an unbounded number of items)... so I can't always just stick the results in a list (although sometimes I can). It's an option though, if all else fails. And regarding the unreadability -- it's 568 lines when I decompile it, with lots of <>g__initLocal24-like identifiers and such. And goto's, of course. The entire reason why I wrote it like this was that it was short & elegant... which is why I'm now kind of stuck... :\ –  Mehrdad Oct 22 '12 at 9:29
@spender: Haha yeah... the trouble is, turning a normal recursive function into an iterative function is not quite as bad as turning a recursive generator into an iterative state machine, though... just thinking about how I'd do it gives me a headache! (But as far as I've been able to see, I don't have a better solution...) –  Mehrdad Oct 22 '12 at 9:31
Raymond's series on C#'s iterator implementation might be of interest. And Jon's article. –  AakashM Oct 22 '12 at 9:40

2 Answers 2

What yield accomplishes is close to co-routines. You should be able to port to a language that supports those. Unfortunately, very few languages do. I believe Ada has them.

Next step is fibers. The Win32 API exposes fibers, so for C++ that could be an option. Not for Java I think.

So, short answer: investigate the availability of co-routines or fibers for your target platforms.

share|improve this answer
Not an ideal solution but sounds better than what I was going to try, thanks. +1 –  Mehrdad Oct 22 '12 at 15:34
up vote 0 down vote accepted

I think I found a solution: I can use LINQ, for the most part. That way I wouldn't need to yield anything in the first few cases, because those cases aren't stateful.

The stateful yield -- i.e. the last one -- is the problem -- but after sleeping on it, I realized that my "stateful" yield code is basically just tree search (breadth-first search, to be exact). Basically like this code.

So I could simply make my own IEnumerable<T> class which performs breadth-first search -- i.e., given a transfer function (T parenet) => (IEnumerable<T> children), it would output the children one-by-one, and keep on searching until none is left.

If that works, that would get rid of all of the yields, while keeping the code structure essentially the same -- making it a lot more readable and easier to port.

share|improve this answer
This makes little sense, Linq is far less portable than yield. Not in the least because Linq uses yield very heavily. –  Hans Passant Oct 22 '12 at 17:51
@HansPassant: That's what I thought at first too, but there are two counterpoints: (1) C++, at least, has Boost.Range and P-Stade Oven, and (2) It's a lot easier to port LINQ classes which don't exist, than it is to make sense of an iterative version of this code. Nevertheless, I haven't done this yet, and I might still run into issues I'm not foreseeing. :\ –  Mehrdad Oct 22 '12 at 18:02

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