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1) Do these generate the same byte code?

2) If not, is there any gain in using one over the other in certain circumstances?

// LINQ select statement
return from item in collection
    select item.Property;

// foreach in an iterator block
foreach (item in collection)
    yield return item.Property;
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hint: use IL Disassembler to see byte code yourself. –  jadook Mar 16 '11 at 8:36
hint 2: run the code and time it to test the performance. –  markmnl Mar 24 '11 at 5:48

2 Answers 2

up vote 5 down vote accepted
  1. They don't generate the same code but boil down to the same thing, you get an object implementing IEnumerable<typeof(Property)>. The difference is that linq provides iterator from its library (in this case most likely by using WhereSelectArrayIterator or WhereSelectListIterator) whereas in the second example you yourself generate an iterator block that dissects a collection. An iterator block method is always, by ways of compiler magic, compiled as a separate class implementing IEnumerable<typeof(yield)> which you don't see but instantiate implicitly when you call iterator block method.

  2. Performance wise, #1 should be slightly (but just slightly) faster for indexable collections because when you loop through the resulting IEnumerable you go directly from your foreach into collection retrieval in an optimized linq iterator. In example #2 you go from foreach into your iterator block's foreach and from there into collection retrieval and your performance depends mostly on how smart the compiler is at optimizing yield logic. In any case I would imagine that for any complex collection mechanism the cost of retrieval marginalizes this difference.

IMHO, I would always go with #1, if nothing else it saves me from having to write a separate method just for iterating.

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Good point about performance being slightly faster for the framework iterators. But I checked them out and WhereSelectListIterator has the same implementation as WhereSelectEnumerableIterator so I'd say they're the same speed. WhereSelectArrayIterator uses the index properly. –  Cameron MacFarland Mar 16 '11 at 18:44
Well, I stated its faster for indexed sources. But yeah, I saw the WhereSelectListIterator issue too, which is kind of weird if you ask me. List<T> is specifically geared towards O(1) indexed retrieval, same as Arrays. Makes absolutely no sense to walk the List<T> through IEnumerator<T>. –  mmix Mar 17 '11 at 11:04
  1. No they don't generate the same byte code. The first one returns a pre-existing class in the framework. The second one returns a compiler generated state machine that returns the items from the collection. That state machine is very similar to the class that exists in the framework already.

  2. I doubt there's much performance difference between the two. Both are doing very similar things in the end.

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I agree with Cameron. The first statement does a yield return as well, but the difference is that the C# compiler team wrote that yield return in the Enumerable.Select extension method. In fact, the select will be faster, because you reuse existing code which makes your assembly smaller and less code will consume less memory which will cause less cache misses, thus equals better performance (but this is very hard to test using a test setup). –  Steven Mar 16 '11 at 9:00
@Steven I'd be very surprised if the amount of extra memory consumed by the extra code would cause any measurable difference in performance. –  Cameron MacFarland Mar 16 '11 at 9:08
@Cameron: C# generates an extra class when you write a yield. It's not much, but do this a thousand times and the difference can become measurable. –  Steven Mar 16 '11 at 10:06
@Cameron: Every time you write a method with a yield return the C# compiler generates a new class. This generated class ends up as IL. During runtime this IL gets JITted. JITted code takes up memory. –  Steven Mar 16 '11 at 18:47
@Cameron: True, but that's not the point. Code takes up memory and this can impact performance. Because of this Microsoft decided to change the JIT of .NET 3.5 SP1 to do less inlining of methods than before. They found out that, while inlining locally improves performance, it generates more code and their benchmarks signaled less overall performance. See here for more information about this: blogs.msdn.com/b/vancem/archive/2008/08/19/…. –  Steven Mar 17 '11 at 7:15

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