Note: This answer is old now. Iterator blocks have since been added to VB.NET
C# translates the yield keyword into a state machine at compile time. VB.NET does not have the yield keyword, but it does have its own mechanism for safely embedding state within a function that is not easily available in C#.
The C# static
keyword is normally translated to Visual Basic using the Shared
keyword, but there are two places where things get confusing. One is that a C# static class is really a Module in Visual Basic rather than a Shared class (you'd think they'd let you code it either way in Visual Basic, but noooo). The other is that VB.NET does have its own Static
keyword. However, Static
has a different meaning in VB.NET.
You use the Static
keyword in VB.NET to declare a variable inside a function, and when you do the variable retains its state across function calls. This is different than just declaring a private static class member in C#, because a static function member in VB.NET is guaranteed to also be thread-safe, in that the compiler translates it to use the Monitor class at compile time.
So why write all this here? Well, it should be possible to build a re-usable generic Iterator<T>
class (or Iterator(Of T)
in VB.NET). In this class you would implement the state machine used by C#, with Yield()
and Break()
methods that correspond to the C# keywords. Then you could use a static instance (in the VB.NET sense) in a function so that it can ultimately do pretty much the same job as C#'s yield
in about the same amount of code (discarding the class implemenation itself, since it would be infinitely re-usable).
I haven't cared enough about Yield to attempt it myself, but it should be doable. That said, it's also far from trivial, as C# team member Eric Lippert calls this "the most complicated transformation in the compiler."
I have also come to believe since I wrote the first draft of this over a year ago that it's not really possible in a meaningful way until Visual Studio 2010 comes out, as it would require sending multiple lambdas to the Iterator class and so to be really practical we need .NET 4's support for multi-line lambdas.
await
is easy enough. But implementing the other side, which sources the stream of objects, looks like a lot more work than simply saying "Yield".Where
andSelect
. Ex:Dim zsEnum As IEnumerable(Of Double) = (From p In points Where p.Y > 0 Select p.Z)
,For Each z As Double In zsEnum ...
. Because Linq creates an IEnumerable rather than a concrete list, the above doesn't consume significant extra memory. Important for huge list, in 32-bit .Net 3.5 process, to avoid fragmenting memory further.Yield value
(inside anIterator Function
declaration), which was added years after this question was asked.