# Implement the flatMap function

Disclaimer: this is a part of a homework assignment. I want to implement the flatMap for the custom List object. I have successfully implemented map, but I have problem with flatMap. I do not know how to flatten the List of Lists that I get from map. I do not know if I really should use map at all.

``````trait List[+A] {
/** The first element */
/** The rest of the elements */
def tail: List[A]
def flatMap[B](f: A => List[B]): List[B]
def map[B](f: A => B): List[B]

// Concatenate two lists
def concat[B >: A](that: List[B]): List[B] = this match {
case Empty => that
}
}

case object Empty extends List[Nothing] {
def tail = throw new UnsupportedOperationException("Empty.tail")
def flatMap[B](f: Nothing => List[B]): List[B] = Empty
def map[B](f: Nothing => B): List[B] = Empty

override def toString = "Empty"
}

case class NonEmpty[A](head: A, tail: List[A]) extends List[A] {

def map[B](f: A => B): List[B] = {

}
def flatMap[B](f: A => List[B]): List[B] = {
val a = this.map(f)
for (x <- a; y <- x) yield y
}
}
``````
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+1 for disclaimer. SO should have a tag for that, or maybe they do. – som-snytt Dec 29 '12 at 16:30
they do have it, but it says it's being deprecated – LearnToMath Dec 29 '12 at 16:47

You have to write flatMap for a list with length n. Try to solve it supposing that you have already solved it for a list with length n-1. If you can do this, then you solved the problem, because n => n-1 => ... => 1 => 0, and for 0 you already has a solution.

This kind of thinking is suitable for your List, because it is a recursive type.

You did this already with map, do the same with flatMap. Both function is a transformation from List[A] to List[B], the only difference is the tool what they can use, map has a function that converts A to B, while flatMap has a function that converts A to List[B]

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f(head) concat tail.flatMap(f) is this correct? – LearnToMath Dec 29 '12 at 15:45
yes, that is also what I wanted to lead you to ;-) – drexin Dec 29 '12 at 16:02

as this is a homework, I don't want to give you a complete solution, just some hints.

1. You don't need `map` to implement `flatMap` (actually it is easier to do it the other way around)
2. you have everything you need (`flatMap` takes a function that returns a `List[B]` and `List` has `concat` defined)
3. implement the `flatMap` of `Empty` first ;-)
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I had accidentally not included the definition for empty list. I guess the definition for flatmap should be recursive as well. Should I be using something like match two match two cases if the function is being applied on "typeof A" or on List[A]? – LearnToMath Dec 29 '12 at 14:40
What do you mean? You get a function that takes whatever type the list contains and returns a new list of another type. Why would you need to match on something there? – drexin Dec 29 '12 at 14:49
hmm, I dunno, i thought if I called the function recursively i would somehow need to distinguish whether the object that's it's being called on is itself a list (List[B]), or simply an object of type B – LearnToMath Dec 29 '12 at 14:51
How could you call flatMap on a B? – drexin Dec 29 '12 at 15:01
thanks for the help, i didn't know who to choose as the best answer, so I chose the one with lower rep. – LearnToMath Dec 29 '12 at 16:06