List<T>'s GetEnumerator method actually is quite efficient.
When you loop through the elements of a
List<T>, it calls GetEnumerator. This, in turn, generates an internal
struct which holds a reference to the original list, an index, and a version ID to track for changes in the list.
However, since a struct is being used, it's really not creating "garbage" that the GC will ever deal with.
As for "create a new enumerator for each derived class" - .NET generics works differently than C++ templates. In .NET, the
List<T> class (and it's internal
Enumerator<T> struct) is defined one time, and usable for any T. When used, a generic type for that specific type of T is required, but this is only the type information for that newly created type, and quite small in general. This differs from C++ templates, for example, where each type used is created at compile time, and "built in" to the executable.
In .NET, the executable specifies the definition for