In regards to performance...
- Converting from List to T involves copying all the data from the original list to a newly allocated array.
- Converting from T to List also involves copying all the data from the original list to a newly allocated List.
- Converting from either List or T to IEnumerable involves casting, which is a few CPU cycles.
- Converting from IEnumerable to List involves upcasting, which is also a few CPU cycles.
- Converting from IEnumerable to T also involves upcasting.
- You can't cast an IEnumerable to T or List unless it was a T or List respectively to begin with. You can use the ToArray or ToList functions, but those will also result in a copy being made.
- Accessing all the values in order from start to end in a T will, in a straightforward loop, be optimized to use straightforward pointer arithmetic -- which makes it the fastest of them all.
- Accessing all the values in order from start to end in a List involves a check on each iteration to make sure that you aren't accessing a value outside the array's bounds, and then the actual accessing of the array value.
- Accessing all the values in an IEnumerable involves creating an enumerator object, calling the Next() function which increases the index pointer, and then calling the Current property which gives you the actual value and sticks it in the variable that you specified in your foreach statement. Generally, this isn't as bad as it sounds.
- Accessing an arbitrary value in an IEnumerable involves starting at the beginning and calling Next() as many times as you need to get to that value. Generally, this is as bad as it sounds.
In regards to idioms...
In general, IEnumerable is useful for public properties, function parameters, and often for return values -- and only if you know that you're going to be using the values sequentially.
For instance, if you had a function PrintValues, if it was written as PrintValues(List<T> values), it would only be able to deal with List values, so the user would first have to convert, if for instance they were using a T. Likewise with if the function was PrintValues(T values). But if it was PrintValues(IEnumerable<T> values), it would be able to deal with Lists, Ts, stacks, hashtables, dictionaries, strings, sets, etc -- any collection that implements IEnumerable, which is practically every collection.
In regards to internal use...
- Use a List only if you're not sure how many items will need to be in it.
- Use a T if you know how many items will need to be in it, but need to access the values in an arbitrary order.
- Stick with the IEnumerable if that's what you've been given and you just need to use it sequentially. Many functions will return IEnumerables. If you do need to access values from an IEnumerable in an arbitrary order, use ToArray().
Also, note that casting is different from using ToArray() or ToList() -- the latter involves copying the values, which is indeed a performance and memory hit if you have a lot of elements. The former simply is to say that "A dog is an animal, so like any animal, it can eat" (downcast) or "This animal happens to be a dog, so it can bark" (upcast). Likewise, All Lists and Ts are IEnumerables, but only some IEnumerables are Lists or Ts.