# What is "point free" style (in Functional Programming)?

A phrase that I've noticed recently is the concept of "point free" style...

Then, I discovered here they mention "Another topic that may be worth discussing is the authors' dislike of point free style."

What is "point free" style? Can someone give a concise explanation? Does it have something to do with "automatic" currying?

To get an idea of my level - I've been teaching myself Scheme, and have written a simple Scheme interpreter... I understand what "implicit" currying is, but I don't know any Haskell or ML.

Just look at the Wikipedia article to get your definition:

Tacit programming (point-free programming) is a programming paradigm in which a function definition does not include information regarding its arguments, using combinators and function composition [...] instead of variables.

Conventional (you specify the arguments explicitly):

``````sum (x:xs) = x + (sum xs)
sum [] = 0
``````

Point-free (`sum` doesn't have any explicit arguments - it's just a fold with `+` starting with 0):

`````` sum = foldr (+) 0
``````

Or even simpler: Instead of `g(x) = f(x)`, you could just write `g = f`.

So yes: It's closely related to currying (or operations like function composition).

• In what way is it related to Currying? Oct 2, 2010 at 22:50
• @kaleidic: Because without having variable names, you need to compose partially applied functions. That's what we call currying (or, more precisely, what is made possible through currying) Oct 3, 2010 at 8:42
• Don't you mean `sum (x:xs) ...` instead of `sum sum (x:xs) ...` ? Sep 15, 2011 at 4:39
• Can you explain why we need the parens, and we can't simply use `sum = foldr + 0` ? Apr 20, 2020 at 21:12
• @joelittlejohn because then it thinks it's adding `foldr` and `0`, so parentheses are necessary for infix functions in haskell
– Wezl
Mar 19, 2021 at 16:16

Point-free style means that the arguments of the function being defined are not explicitly mentioned, that the function is defined through function composition.

If you have two functions, like

``````square :: a -> a
square x = x*x

inc :: a -> a
inc x = x+1
``````

and if you want to combine these two functions to one that calculates `x*x+1`, you can define it "point-full" like this:

``````f :: a -> a
f x = inc (square x)
``````

The point-free alternative would be not to talk about the argument `x`:

``````f :: a -> a
f = inc . square
``````
• Stupidly, in Haskell, the 'point-free' way is usually the one that looks pointier (more periods). This annoyance makes an excellent mnemonic. (The book Real World Haskell comments on this.)
– Dan
Jul 8, 2010 at 20:06
• Concerning @Dan's comment, the Pointfree HaskellWiki page offers an explanation of why it is called pointfree. Nov 1, 2012 at 2:39
• @Dan: I don't think it's stupid, as the Haskell point is meant to be "that circle operator" (should look more like ° though). But confusing, it is, especially when you are new to functional programming languages; every intro book on haskell should explain point-free-style. Jan 30, 2013 at 7:58

A JavaScript sample:

``````//not pointfree cause we receive args
var initials = function(name) {
};

const compose = (...fns) => (...args) => fns.reduceRight((res, fn) => [fn.call(null, ...res)], args);
const join = m => m.join();

//pointfree
var initials = compose(join('. '), map(compose(toUpperCase, head)), split(' '));

initials("hunter stockton thompson");
// 'H. S. T'
``````

Reference

Point free style means that the code doesn't explicitly mention it's arguments, even though they exist and are being used.

This works in Haskell because of the way functions work.

For instance:

``````myTake = take
``````

returns a function that takes one argument, therefore there is no reason to explicit type the argument unless you just want too.

• Sometimes, it doesn't work in Haskell 98, as in `myShow = show`. There's more about it on the Haskell wiki Sep 15, 2011 at 4:46

The best explanation for this is in Haskell wiki (excerpt below), pointed out by Petr in a comment.

In the declaration

``````f x = x + 1
``````

we define the function f in terms of its action on an arbitrary point x. Contrast this with the points-free version:

``````f = (+ 1)
``````

where there is no mention of the value on which the function is acting.

The point is a mathematical point (`x` above), hence "points-free" notation. The link gives more detail, if you need.

I can't make the javascript sample provided Brunno work, although the code illustrate pointfree idea (i.e. no arguments) clearly. So I use ramda.js to provide another example.

Say I need to find out the longest word in a sentence, given a string `"Lorem ipsum dolor sit amet consectetur adipiscing elit"` I need output something like `{ word: 'consectetur', length: 11 }`

If I use plain JS style code I will code like this, using a map and a reduce function

``````let str = 'Lorem ipsum dolor sit amet consectetur adipiscing elit'
let strArray = str.split(' ').map((item) => ({ word: item, length: item.length }))
let longest = strArray.reduce(
(max, cur) => (cur.length > max.length ? cur : max),
strArray)
console.log(longest)
``````

With ramda I still use a map & a reduce but I will code like this

``````const R = require('ramda')
let longest = R.pipe(
R.split(' '),
R.map((item) => ({ word: item, length: item.length })),
R.reduce((max, cur) => (max.length > cur.length ? max : cur), { length: 0 })
)
let tmp = longest(str)
console.log(tmp)
``````

I will argue that the gist of my ramda code is the pipe that chains my functions together and it makes my purpose more clearly. No need to create a temporary variable `strArray` is a bonus (if I have more than 3 steps in the pipe then it will become a real bonus).

Here is one example in TypeScript without any other library:

``````interface Transaction {
amount: number;
}

class Test {
public getPositiveNumbers(transactions: Transaction[]) {
return transactions.filter(this.isPositive);

//return transactions.filter((transaction: {amount: number} => transaction.amount > 0));
}

public getBigNumbers(transactions: Transaction[]) {
// point-free
return transactions.filter(this.moreThan(10));

// not point-free
// return transactions.filter((transaction: any) => transaction.amount > 10);
}

private isPositive(transaction: Transaction) {
return transactions.amount > 0;
}

private moreThan(amount: number) {
return (transaction: Transaction) => {
return transactions.amount > amount;
}
}
}
``````

You can see point-free style is more "fluent" and easier to read.

• That's not point-free style, that's just distinction between a lambda and a named function. May 28, 2018 at 13:05
• @kralyk I think you missed the point, `this.moreThan(10)` is not a named function, it's a curried function as well as a function that'll implicitly (thus point free) take a `transaction` as its input.
– AZ.
Jun 9, 2018 at 19:16
• using a class as an example for tacit style is not the best choice, though Mar 9 at 9:44