Lazy Evaluation/Deferred Execution
The "yield return" iterator blocks won't execute any of the code until you actually call for that specific result. This means they can also be chained together efficiently. Pop quiz: assuming the "ReadLines()" function is reads all the lines from a text file and is implemented using an iterator block, how many times will the following code iterate over the file?
var query = ReadLines(@"C:\MyFile.txt")
.Where(l => l.Contains("search text") )
.Select(l => int.Parse(l.SubString(5,8))
.Where(i => i > 10 );
foreach (int value in query)
sum += value;
The answer is exactly one, and that not until way down in the
Separation of Concerns
Again using the hypothetical
ReadLines() function from above, we can now easily separate the code that reads the file from the code that filters out un-needed lines from the code that actually parses the results. That first one, especially, is very re-usable.
See my answer to this question for a good example:
C# fibonacci function returning errors
Basically, I implement the fibonacci sequence using an iterator block that will never stop (at least, not before reaching MaxInt), and then use that implementation in a safe way.
This is one of those things that's much harder to explain with prose than it is to just who with a simple visual1:
If you can't see the image, it shows two versions of the same code, with background highlights for different concerns. The linq code has all of the colors nicely grouped, while the traditional imperative code has the colors intermingled. The author argues (and I concur) that this result is typical of using linq vs using imperative code... that linq does a better job organizing your code to have a better flow between sections.
1 I believe this to be the original source: https://twitter.com/mariofusco/status/571999216039542784. Also note that this code is Java, but the C# would be similar.