What exactly is happening behind the scenes in a LINQ query against an object collection? Is it just syntactical sugar or is there something else happening making it more of an efficient query?
Do you mean in terms of a query expression, or what the query does behind the scenes?
Query expressions are expanded into "normal" C# first. For example:
is translated to:
The exact meaning of this depends on the type of
Now, suppose we are using LINQ to Objects... after extension method expansion, the above code becomes:
Next the implementations of
Next there's the expansion of iterator blocks into state machines, which I won't go into here but which I have an article about.
Finally, there's the conversion of lambda expressions into extra methods + appropriate delegate instance creation (or expression trees, depending on the signatures of the methods called).
So basically LINQ uses a lot of clever features of C#:
However, the individual operations are quite simple - they don't perform indexing etc. Joins and groupings are done using hash tables, but straightforward queries like "where" are just linear. Don't forget that LINQ to Objects usually just treats the data as a forward-only readable sequence - it can't do things like a binary search.
Normally I'd expect hand-written queries to be marginally faster than LINQ to Objects as there are fewer layers of abstraction, but they'll be less readable and the performance difference usually won't be significant.
As ever for performance questions: when in doubt, measure!
If you need better performance, consider trying i4o - Index for Objects. It build in-memory objects for large collections (think 100,000+ rows), which LINQ then uses to speed up queries. You need a lot of data to make this work, but the improvements are impressive.
It's just syntactic sugar - there's no magic involved.
You could write out the equivalent code in "longhand", in C# or whatever, and it would perform the same.
(The compiler will do a good job of producing efficient code, of course, so the code it produces might be a fraction more efficient than the code you would write yourself, simply because you might not know the most performant way to write that code.)