In the framework classes of collections I have often seen IEnumerator<T>
separately implemented as an inner class and an instance of it is returned in the GetEnumerator
method.
Now suppose I'm writing my own collection classes which will have an inbuilt collection like List<T>
or T[]
act as the holder internally, say like this:
public class SpecialCollection<T> : IEnumerable<T>
{
List<T> list;
public SpecialCollection<T>()
{
}
public IEnumerator<T> GetEnumerator()
{
return list.GetEnumerator();
//or
return list.Where(x => some logic).GetEnumerator();
//or directly rely on yield keyword
yield return x; //etc
}
}
Should I be writing my own enumerator class, or is it ok to return enumerator of the List<T>
class? Is there any circumstance under which should I be writing my own enumerator class?
I have a related question as well. If it's not all that important or doesn't make much of a difference, why do every collection class in the BCL write their own IEnumerator
?
For eg, List<T>
class has something like
T[] items;
public IEnumerator<T> GetEnumerator()
{
return new List<T>.Enumerator(items);
}
// some logic
was meant that some additional logic can be added to the enumerator.class MyColl : IEnumerable<int>
. I could hold my values in an array internally, so have a fieldprivate int[] array;
. Now, when I need to implement the generic interface, I can't just sayreturn array.GetEnumerator();
(compile-time error) because of the not-quite-generic nature of arrays (hereint[]
). I could solve that byreturn array.Select(x => x).GetEnumerator();
. But that is wasteful. Instead usereturn ((IEnumerable<int>)array).GetEnumerator();
or equivalentlyreturn array.AsEnumerable().GetEnumerator();
. See what I mean?IEnumerator<T>
of the array, you wouldn't be able to detect the list changing between calls, which should trigger an exception.