Performance between Iterating through IEnumerable<T> and List<T>
Enumerating an IEnumerable<T> is 2 to 3 times slower than enumerating the same List<T> directly. This is due to a subtlety on how C# selects its enumerator for a given type.
List<T> exposes 3 enumerators:
List<T>.Enumerator List<T>.GetEnumerator()IEnumerator<T> IEnumerable<T>.GetEnumerator()IEnumerator IEnumerable.GetEnumerator()
When C# compiles a foreach loop, it will select the enumerator in the above order. Note that a type doesn't need to implement IEnumerable or IEnumerable<T> to be enumerable, it just needs a method named GetEnumerator() that returns an enumerator.
Now, List<T>.GetEnumerator() has the advantage of being statically typed which makes all calls to List<T>.Enumerator.get_Current and List<T>.Enumerator.MoveNext() static-bound instead of virtual.
10M iterations (coreclr):
for(int i ...) 73 ms
foreach(... List<T>) 215 ms
foreach(... IEnumerable<T>) 698 ms
foreach(... IEnumerable) 1028 ms
for(int *p ...) 50 ms
10M iterations (Framework):
for(int i ...) 210 ms
foreach(... List<T>) 252 ms
foreach(... IEnumerable<T>) 537 ms
foreach(... IEnumerable) 844 ms
for(int *p ...) 202 ms
Disclaimer
I should point out the actual iteration in a list is rarely the bottleneck. Keep in mind those are hundreds of milliseconds over millions of iterations. Any work in the loop more complicated than a few arithmetic operations will be overwhelmingly costlier than the iteration itself.
List<T> is an IEnumerable<T>. When you are iterating through your List<T>, you are performing the same sequence of operations as you are for any other IEnumerable<T>:
- Get an
IEnumerator<T>. - Invoke
IEnumerator<T>.MoveNext()on your enumerator. - Take the
IEnumerator<T>.Currentelement from the IEnumerator interface whileMoveNext()returnstrue. - Dispose of the
IEnumerator<T>.
What we know about List<T> is that it is an in-memory collection, so the MoveNext() function on its enumerator is going to be very cheap. It looks like your collection gives an enumerator whose MoveNext() method is more expensive, perhaps because it is interacting with some external resource such as a database connection.
When you call ToList() on your IEnumerable<T>, you are running a full iteration of your collection and loading all of the elements into memory with that iteration. This is worth doing if you expect to be iterating through the same collection multiple times. If you expect to iterate through the collection only once, then ToList() is a false economy: all it does is to create an in-memory collection that will later have to be garbage collected.
List<T> is an implementation of IEnumerable<T> interface. To use the foreach syntax, you don't need a List<T> type or a IEnumerable<T> type, but you are required to use a type with a GetEnumerator() method. Quote from Microsoft docs:
The
foreachstatement isn't limited to those types. You can use it with an >instance of any type that satisfies the following conditions:
- A type has the public parameterless GetEnumerator method whose return type is either class, struct, or interface type. Beginning with C# 9.0, the GetEnumerator method can be a type's extension method.
- The return type of the GetEnumerator method has the public Current property and the public parameterless MoveNext method whose return type is Boolean.
Considering for example a LINQ context, performing a query, using an IEnumerable structure you have the advantange of a deferred execution of the query (the query will be executed only when needed), but, using the ToList() method, you're requesting that the query must be executed (or evaluated) immediately and you want your results in memory, saving them in a list, to perform later some operations on them, like changing some values.
About the performance, it depends on what you're trying to do. We don't know which operations you're performing (like fetching data from a database), which collection types you're using and so on.
UPDATE
The reason why you have a different timing between the IEnumerable collection iteration and the List collection iteration, is, like I said, that you have a deferred execution of the query when you're invoking:
IEnumerable<SimpleEntity> entities = from entity in Session.Query<SimpleEntity>
select entity;
That means the query is executed only when you're iterating over the IEnumerable collection. This doesn't happen when you're calling the ToList() method in entities.ToList(); for the reasons I described above.