If the underlying datasource is
Enumerable.Count() will invoke the
.Count property as an optimization, so there is no* performance penalty. If it is not, an enumeration will be forced. Consider this carefully.
var someList = new List<int>();
var count = someList.Count(); // will use .Count property
var count = someList.OrderBy(x => x).Count(); // will force enumeration
In this example, I'm just getting the count of the list in the second statement. In the third, I'm ordering the list and then getting the count. Ordering the list returns a sequence, not a list. Therefore, the
Count() method is not working on an
IList<T>, but an
IEnumerable<T>. In this case, the query must be enumerated to acquire the result and will incur whatever cost that comes along with it (in this case, the ordering).
In light of this, in your first snippet, you will enumerate your query twice. Once to get the count, once in the foreach. This will perform all the logic to group your data twice. Your second example will perform the grouping operations just once, while obviously iterating over the resulting list in the foreach, which should be less expensive than also performing the grouping operation a second time. (Whether you can measure a savings will entirely depend upon the size and/or source of the data in the original list. When in doubt, profile it.)
*There may be a small measured penalty for the layer of indirection, you'll have to profile this if you believe it is a true bottleneck. But think of the
Count() method as
if (sequence is IList<T>)
/* perform enumeration */;