I have always thought the definition of both of these were functions that take other functions as arguments. I understand the domain of each is different, but what are their defining characteristics?
I am new to the world of fixed-point combinators and I guess they are used to recurse on anonymous lambdas, but I haven't really got to use them, or even been able to wrap my head around them ...
I just found the following lambda calculus expression: (((λ f . (λ x . (f x))) (λ a . a)) (λ b . b)) So that is a function that takes an argument f and returns another function that takes an ...
I am working through the 20 Intermediate Haskell Exercises at the moment, which is quite a fun exercise. It involves implementing various instances of the typeclasses Functor and Monad (and functions ...
I've been reading about combinators and seen how useful they are (for example, in Haskell's Parsec). My problem is that I'm not quite sure how to use them practically. Here's an outline of the ...
I'm currently doing a Functional Programming course and I'm quite amused by the concept of higher-order functions and functions as first class citizens. However, I can't yet think of many practically ...