# Tagged Questions

A combinator is a higher-order function that uses only function application and earlier defined combinators to define a result from its arguments.

64k views

### What is a y-combinator?

A y-combinator is a comp-sci concept from the "functional" side of things. Most programmers don't know much at all about them, if they've even heard about them. What is a y-combinator? How do they ...
11k views

### Explanation of combinators for the working man

What is a combinator?? Is it "a function or definition with no free variables" (as defined on SO)? Or how about this: according to John Hughes in his well-known paper on Arrows, "a combinator is ...
9k views

### foldl versus foldr behavior with infinite lists

The code for the myAny function in this question uses foldr. It stops processing an infinite list when the predicate is satisfied. I rewrote it using foldl: myAny :: (a -> Bool) -> [a] -> Bool ...
7k views

### Good explanation of “Combinators” (For non mathematicians)

Anyone got a good explanation of "combinators" (Y-combinators etc. and NOT the company) I'm looking for one for the practical programmer who understands recursion and higher-order functions, but ...
22k views

### How foldr works

Can anybody explain how foldr works? Take these examples: Prelude> foldr (-) 54 [10,11] 53 Prelude> foldr (\x y -> (x+y)/2) 54 [12,4,10,6] 12.0 I am confused about these executions, any ...
9k views

### foldl is tail recursive, so how come foldr runs faster than foldl?

I wanted to test foldl vs foldr. From what I've seen you should use foldl over foldr when ever you can due to tail reccursion optimization. This makes sense. However, after running this test I am ...
3k views

### How does Data.MemoCombinators work?

I've been looking at the source for Data.MemoCombinators but I can't really see where the heart of it is. Please explain to me what the logic is behind all of these combinators and the mechanics of ...
21k views

### In Haskell performing `and` and `or` for boolean functions

I just wrote the following two functions: fand :: (a -> Bool) -> (a -> Bool) -> a -> Bool fand f1 f2 x = (f1 x) && (f2 x) f_or :: (a -> Bool) -> (a -> Bool) -> a -&...
5k views

### What are some interesting uses of higher-order functions?

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 ...
1k views

### What are zygo/meta/histo/para/futu/dyna/whatever-morphisms?

Is there a list of them with examples accessible to a person without extensive category theory knowledge?
3k views

### Y combinator discussion in “The Little Schemer”

So I've spent a lot of time reading and re-reading the ending of chapter 9 in The Little Schemer, where the applicative Y combinator is developed for the "length" function. I think my confusion boils ...
7k views

Is there some substitute of map which evaluates the list in parallel? I don't need it to be lazy. Something like: pmap :: (a -> b) -> [a] -> [b] letting me pmap expensive_function big_list ...
1k views

### Combinatory method like tap, but able to return a different value?

I'm going through a phase of trying to avoid temporary variables and over-use of conditional where I can use a more fluid style of coding. I've taken a great liking to using #tap in places where I ...
884 views

### What are super combinators and constant applicative forms?

I'm struggling with what Super Combinators are: A supercombinator is either a constant, or a combinator which contains only supercombinators as subexpressions. And also with what Constant ...
4k views

### Haskell map/zip Vs. list comprehension

Which of the following are you most likely to write? r = zip xs \$ map sqrt xs or r = [(x, sqrt x) | x <- xs] Sample code on the Internet seems to indicate that the former is more abundant and ...
881 views

### Shorter way to write this code

The following pattern appears very frequently in Haskell code. Is there a shorter way to write it? if pred x then Just x else Nothing
2k views

### Implement zip using foldr

I'm currently on chapter 4 of Real World Haskell, and I'm trying to wrap my head around implementing foldl in terms of foldr. (Here's their code:) myFoldl :: (a -> b -> a) -> a -> [b] -&...
494 views

### Since “fold” isn't powerful enough to write a tree pretty-printer with indentation, what high-order combinator is?

Given, for example, the following tree data type: data Tree a = Node [Tree a] | Leaf a deriving Show type Sexp = Tree String How do I express a "pretty" function using an high-order combinator, ...
497 views

### Are there “type-level combinators”? Will they exist in some future?

Much of what makes haskell really nice to use in my opinion are combinators such as (.), flip, \$ <*> and etc. It feels almost like I can create new syntax when I need to. Some time ago I was ...
5k views

### What is the difference between liftM and mapM in Haskell

What is the difference between the functions liftM and mapM?
5k views

### Haskell: surprising behavior of “groupBy”

I'm trying to figure out the behavior of the library function groupBy (from Data.List), which purports to group elements of a list by an "equality test" function passed in as the first argument. The ...
2k views

### Short circuiting (&&) in Haskell

A quick question that has been bugging me lately. Does Haskell perform all the equivalence test in a function that returns a booleanm, even if one returns a false value? eg: f a b = ((a+b) == 2) &...
1k views

### How to create a lazy-seq generating, anonymous recursive function in Clojure?

Edit: I discovered a partial answer to my own question in the process of writing this, but I think it can easily be improved upon so I will post it anyway. Maybe there's a better solution out there? ...
957 views

Can an analog of the S combinator be expressed in Haskell using only standard functions (without defining it by equation) and without using lambda (anonymous function)? I expect it to by of type (a -&...
1k views

### Folding flatMap/bind over a list of functions (a.k.a. Name That Combinator!)

In the process of writing a simple RPN calculator, I have the following type aliases: type Stack = List[Double] type Operation = Stack => Option[Stack] ... and I have written a curious-looking ...
3k views

### Fixed point combinator in Haskell

The fixed point combinator doesn't always produce the right answer given the definition: fix f = f (fix f) The following code does not terminate: fix (\x->x*x) 0 Of course, fix can't always ...
1k views

### Scala: Flatten the parseresult (~) from combinators parser into List?

I wrote some parser from combinatory library. I want a generic function that transform any size of nest ~ into a list. How to do this ? Here is my example of parser I use (my real parser has a very ...
143 views

### Useful instantiations of “fix” on non-function types?

Every time I’ve used fix :: (a -> a) -> a, it’s been at the type ((a -> b) -> a -> b) -> a -> b for some a and b. Is there actually some application of fix where its type ...
4k views

### Python implementation of Parsec?

I recently wrote a parser in Python using Ply (it's a python reimplementation of yacc). When I was almost done with the parser I discovered that the grammar I need to parse requires me to do some ...
1k views

What are some and many in Control.Applicative.Alternative good for? If I write something like some \$ Just 42, it seems to cause infinite recursion, which seems not very useful...
2k views

### Role of combinators in concatenative/tacit programming languages

What exact role do higher-order combinators (or function producers) hold in concatenative and tacit programming? Is there another way to implement a concatenative programming language rather than ...
246 views

### In Clojure, is there a function like Haskell's on?

In Haskell, we have Data.Function.on: on :: (b -> b -> c) -> (a -> b) -> a -> a -> c (.*.) `on` f = \x y -> f x .*. f y In Clojure, I want to be able to define, for example, ...
437 views

### (Kestrel) K-combinator: why is it useful?

I have been taking up F# recently (my background is C#) and am reading the site http://fsharpforfunandprofit.com, which I am finding very helpful. I've got to http://fsharpforfunandprofit.com/posts/...
437 views

### Haskell: Why is ((.).(.)) f g equal to f . g x?

Could you please explain the meaning of the expression ((.).(.))? As far as I know (.) has the type (b -> c) -> (a -> b) -> a -> c.
541 views

### What is a general scheme for writing a function in pointfree style?

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 ...
436 views

I need binary combinators of the type (a -> Bool) -> (a -> Bool) -> a -> Bool or maybe [a -> Bool] -> a -> Bool (though this would just be the foldr1 of the first, and I ...
275 views

### Unsure of how to design a useful library using combinators

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 ...
11k views

### Haskell - Foldr and Foldl further explanation and example

I've looked at different folds and folding in general as well as a few others and they explain it fairly well. I'm still having trouble on how a lambda would work in this case. foldr (\y ys -> ...
3k views

### How would you (re)implement iterate in Haskell?

iterate :: (a -> a) -> a -> [a] (As you probably know) iterate is a function that takes a function and starting value. Then it applies the function to the starting value, then it applies ...
1k views

### Defining a stack data structure and its main operations in lambda calculus

I'm trying to define a stack data structure in lambda calculus, using fixed point combinators. I am trying to define two operations, insertion and removal of elements, so, push and pop, but the only ...
701 views

### Scala: Can I nudge a combinator parser to be locally greedy?

Suppose I have an ambiguous language expressed in combinator parser. Is there a way to make certain expressions locally greedy? Here's an example of what I mean. import scala.util.parsing.combinator....
1k views

### Fixed point combinator for mutually recursive functions?

Is there a fixed point combinator for creating tuples of mutually recursive functions? I.e. I'm looking for something like the Y-Combinator but which takes multiple "recursive"* functions, and will ...
168 views

### How can fixed-point combinators make recursive constructs terminate?

Fixed-point combinators provide a way for anonymous functions to refer to themselves or to build mutually recursive structures. Although useful in lambda-calculus, they are essentially superfluous in ...
1k views

### What is Combinators in Haskell

In Real World Haskell, they describe combinators like this: In Haskell, we refer to functions that take other functions as arguments and return new functions as combinators. And then later they ...
1k views

### Impementation of the Ruby <=> Combinator

Not infrequently, one wants to implement the <=> (comparison, or "spaceship") operator on a product data type, i.e., a class with multiple fields (all of which (we hope!) already have <=> ...
114 views

### Pointfree version doesn't compile, but the pointful one does?

I want to write a Haskell function that returns a list appended to itself count times (like lst * count in Python). My first attempt is: self_append_n :: Int -> [a] -> [a] self_append_n = ...
150 views

### Is it possible for the presented case to be optimized into one loop?

Suppose I have two functions f :: [a] -> b and g :: [a] -> c. I have the following two questions: If I perform (f &&& g) xs where xs :: [a], and if both f and g involve loops, is ...
633 views

### Lambda calculus expression implementing function application

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 ...