I have a C# class which needs to process a sequence of items (
IEnumerable<T>) across a bunch of methods, so I cannot simply
foreach inside a method. I call
.GetEnumerator() and pass this
IEnumerator<T> around and it works great giving me the flexibility I need while looping through a single sequence.
Now I want to allow others to add logic into this process. The most natural way to do this is give them an interface with a method that accepts the
IEnumerator<T>. Easy, done, and it works.
But I'm concerned that this is an anti-pattern. They have to know that the
IEnumerator<T> has already had
.MoveNext() called, so they can simply access
.Current. Plus I don't see any precedent for using
IEnumerator<T> in interfaces to be implemented.
- What pitfalls am I not considering?
- Is there another pattern which will allow me this same efficient mechanism (i.e. I don't want multiple copies being created/destroyed) without exposing the
Update: As I mentioned in a comment below: What I want is some sort of generic
Stream<T>. I need to be able to effectively see the next item (
.Peek()) and consume it (
IEnumerator<T> because it fit the bill interface wise. I prefer to use common BCL types when they fit, but it seemed like I was abusing this one.
So question 3) Is there a class which fits this need? Or should I just create my own Stream which lazily executes the
IEnumerator<T> internally? Then it would be entirely encapsulated. I'd like to not use many of the existing collections as they have internal storage, whereas I'd like the storage to be the
OK it sounds like the consensus is that do to
IEnumerator<T> often being a
ValueType as well as not knowing a priori the state of the
IEnumerator<T>, that it is generally a bad idea to pass it around.
The best suggestion I've heard is to create my own class which gets passed around. Any other suggestions?