# Scala Currying and function literals

I was reading the-neophytes-guide-to-scala-part-10 where I came across following code.

``````type EmailFilter = Email => Boolean

val minimumSize: Int => EmailFilter = n => email => email.text.size >= n
``````

I understood the first line where type alias EmailFilter is created for a function which takes email return boolean. But I don't understand the second line where we take email and number as input and returns boolean by checking size. Please decode the second line and explain me this syntactic sugar code for the function.

There is no syntactic sugar whatsoever, just raw lambda expressions. If you plug in the `type EmailFilter` definition into the type in the second line, you obtain

``````Int => (Email => Boolean)
``````

which is the same (because of right-associativity of `=>`) as

``````Int => Email => Boolean
``````

and this corresponds perfectly with

``````n   => email => (email.text.size >= n)
``````

which essentially just says: given a number `n`, create an email filter that, given an `email` returns `true` if and only if the length of the email is at least `n`, so that, for example

``````minimumSize(100)
``````

returns a closure that behaves just like

``````email => email.text.size >= 100
``````

i.e. it filters all emails with length greater than or equal 100. Thus, with suitably defined example mails `shortMail` and `longMail`, you would obtain:

``````minimumSize(100)(shortMail) // false
minimumSize(100)(longMail) // true
``````

The `minimumSize` function is a curried function.

Currying is a way to split a function call into multiple and sequential subfunction calls.

There are some many good advantages to curry function, one is that it allows your function to be more composable, by deferring the real data source.

Let's depict the usage of:

``````n => email => email.text.size >= n
``````

We can first call this function by passing a parameter for `n` only:

``````minimumSize(2) // partially applies the minimumSize function with 2 as n
``````

You will get at this time:

``````val nextFunction = email => email.text.size >= 2
``````

Next you call `nextFunction` with an email:

``````nextFunction(Email("anemail@domain.com"))
``````

You will get at this time a boolean:

``````val bool = Email("anemail@domain.com").text.size >= 2
``````

So if we sum up:

We started with an `Int`, then an `Email`, then a `Boolean`:

``````Int => Email => Boolean
``````

And by looking at this signature more carefully, you will recognize the `EmailFilter` signature.
Let's substitute:

``````Int => EmailFilter
``````

The idea is to make the `EmailFilter` acts as a template, that you can parameterize with some higher functions.
Here we parameterized the email text size comparison so that we can keep the `EmailFilter` generic.

Keep in mind that functional programming is all about composing functions.

• What is `'anemail@domain.com'`? A Python string literal? Also, `String`s don't have member `.text`. – Andrey Tyukin May 17 '18 at 14:21
• But `String` still has no member `.text`, and type `Email` is not the same as type `String` for all meaningful definitions of the type `Email`. Couldn't you introduce a `case class Email(text: String)` to make the whole example compilable? – Andrey Tyukin May 17 '18 at 14:23
• Ok, then maybe, for the sake of conceptual simplicity, one could simply delete the `.text` from `email.text.size`, and typedef `type Email = String`. – Andrey Tyukin May 17 '18 at 14:25
• haha was just about replacing `String` with `Email` wording (I forgot one occurrence), but you were faster :) – Mik378 May 17 '18 at 14:31
• Mik378 Yeah, thanks, clearer now. If I really wanted to nitpick, I'd say that "anemail@domain.com" looks more like an address rather than text, but ok, it's obviously extendable to compilable code now, (+1) ;) – Andrey Tyukin May 17 '18 at 14:33