Sure, you can return a lambda from another lambda:
Func<int, Func<int, int>> makeAdder = x => y => x + y;
Func<int, int> addTen = makeAdder(10);
Console.WriteLine(addTen(20)); // 30
What aspect of the syntax are you having trouble with? I am interested to know how people get this sort of thing wrong because that helps us design the language and documentation better next time.
well, but you cannot return lambda returning lambda
Sure you can.
Func<int, Func<int, int>> GetAdderMaker()
return x => y => x + y;
Here we are returning a lambda that returns a lambda. Why do you believe this is impossible?
Aha, I understand. You believe that the word "lambda" means "delegate". It does not. A lambda is a kind of expression that is convertible to a delegate.
If you want a delegate that returns a delegate then just declare that. That's perfectly legal. For example, here's a delegate called a "combinator" -- a combinator is a delegate which takes itself and returns itself:
delegate D D(D d);
That's a delegate named D which takes a D and returns a D.
You can make a lambda expression that is compatible with this delegate type. For example:
D I = x=>x;
is the Identity combinator. Or
D M = x=>x(x);
is the Mockingbird combinator in Raymond Smullyan's whimsical characterization of combinators.
As you correctly note, there's no way to make a generic Func that is this kind of combinator. I wrote an article about this fact back in 2006: