# efficiency with functional programming

Given an array of integers and value I was trying to find out how much nearer is the value from either of the ends if it is present in the array. And thereby create a map. I tried solving it using immutable data maps and in a functional way but it is very inefficient from computation perspective compared to what it would be if I write in imperative way(java way). I believe that it is due to my incomplete understanding of functional style of coding rather than inherent difference between the styles.

``````val typeSum = 8
val data = List(2,3,4,5,2,3)
val dogTimes:scala.collection.mutable.Map[Int,Int] = scala.collection.mutable.Map() withDefaultValue(-1);
for ( x <- 1 to (data.length)/2 ){
if (dogTimes(data(x-1)) > x || dogTimes(data(x-1)) < 0) dogTimes(data(x-1)) = x;
}
for( x <- (data.length/2 + 1) to data.length ){
if (dogTimes(data(x-1)) > (data.length - x)|| dogTimes(data(x-1)) < 0)
dogTimes(data(x-1)) = data.length - x+1;
}
if (typeSum%2 ==0) dogTimes(typeSum/2) = -1
``````

This is the code I could wrote in functional style and is slower than the above code. How do I improve the following code to increase the efficiency?

``````val tempDogTimes = data.zipWithIndex groupBy(_._1) mapValues(w =>
val dogTimes = collection.mutable.Map[Int,Double]() ++= tempDogTimes
if (typeSum%2 ==0) dogTimes(typeSum/2) = -1
``````

Note: This is part of a problem I submitted for a contest and imperative code got accepted while the next one gave time exceeded error.

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Why are you creating a map twice in the functional version? I mean, you have a map in `tempDogTimes`, and then you create another map in `dogTimes` from the first one. Why? – Daniel C. Sobral Feb 21 '14 at 5:32
@DanielC.Sobral I need to remove typeSum/2 key from the map which is not possible in immutable map. – user2012953 Feb 21 '14 at 5:57
Actually, you could create a new immutable map with the value overridden -- that uses structural sharing, which is the whole point of persistent immutable data structures. – Daniel C. Sobral Feb 21 '14 at 16:13
You are mistaken about not being able to remove keys. See here for example. – Daniel C. Sobral Feb 22 '14 at 1:05

Let me rub the sleep from my eyes. You want to walk the list from either end, recording the first time you see each element, right?

``````scala> val data = List(2,3,4,5,2,3)
data: List[Int] = List(2, 3, 4, 5, 2, 3)

scala> val is = ((data take (data.size / 2)), (data drop (data.size / 2)).reverse).zipped
is: scala.runtime.Tuple2Zipped[Int,List[Int],Int,List[Int]] = scala.runtime.Tuple2Zipped@72cf531c

scala> .toList
res0: List[(Int, Int)] = List((2,3), (3,2), (4,5))

scala> ((Map.empty[Int,Int], data.to[Set], 0) /: is) { case ((m, n, i), (x, y)) =>
| if (n.isEmpty) (m, n, i+1)
| else (
| m ++ List(if (m contains x) None else Some(x -> i), if (m contains y) None else Some(y -> i)).flatten,
| n -- Set(x,y),
| i + 1
| )}
res1: (scala.collection.immutable.Map[Int,Int], Set[Int], Int) = (Map(2 -> 0, 3 -> 0, 4 -> 2, 5 -> 2),Set(),3)

scala> ._1
res2: scala.collection.immutable.Map[Int,Int] = Map(2 -> 0, 3 -> 0, 4 -> 2, 5 -> 2)
``````

Using a `Vector` and a view to index the two halves would be better. And constructing the set of elements is extraneous, but it would be handy if you already knew the domain.

Another swing:

``````scala> val data = List(2,3,4,5,2,3).to[Seq]
data: Seq[Int] = Vector(2, 3, 4, 5, 2, 3)

scala> val half = data.size / 2
half: Int = 3

scala> val vs = (data.view take half, (data.view drop half).reverse).zipped
vs: scala.runtime.Tuple2Zipped[Int,scala.collection.SeqView[Int,Seq[Int]],Int,scala.collection.SeqView[Int,Seq[Int]]] = scala.runtime.Tuple2Zipped@72cf531c

scala> import collection.mutable
import collection.mutable

scala> val x = 4 // some key to exclude
x: Int = 4

scala> ((mutable.Map.empty[Int,Int].withDefaultValue(Int.MaxValue), 0) /: vs) {
| case ((m, i), (x, y)) => m(x) = m(x) min i; m(y) = m(y) min i; (m, i+1) }
res4: (scala.collection.mutable.Map[Int,Int], Int) = (Map(2 -> 0, 5 -> 2, 4 -> 2, 3 -> 0),3)

scala> ._1.filter { case (k, v) => k != x }.toMap
res5: scala.collection.immutable.Map[Int,Int] = Map(2 -> 0, 5 -> 2, 3 -> 0)
``````

I'm not sure yet whether the views are forced by the fold, so a loop with indexing might be better. And didn't SO used to scroll long lines horizontally instead of wrapping? The code is unreadable this way.

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How do I can also remove the key typeSum before creating the immutable map? – user2012953 Feb 21 '14 at 15:17
@user1699696 I was too lazy to use a mutable.Map. Not sure the use case, but alternatively, don't add that key in the first place. – som-snytt Feb 21 '14 at 16:44

First off, let me say that the way you are using `List` -- in the mutable version -- is terrible. `List` has lousy performance for indexed access, which you use a lot. For indexed access, use a `Vector` instead. Or an `Array`, since it's mutable anyway.

On the immutable version, you also use `length`, which is O(n) for `List`, on every iteration. Simply calling `length` once outside the loop and saving that would help increase performance. You also do this:

``````List(w.head._2+1,data.length - w.last._2).min
``````

which is kind of slow compared to simply

``````(w.head._2+1) min (data.length - w.last._2)
``````

And, of course, you should either change the data structure to a `Vector` or replace `data.length` with something assigned only once.

Now, I can see two ways of going about it. One is to walk the map two ways and get the minimum, as you did, and the other is to walk it only once like som snytt did. For the first, you really need to change the type to a `Vector`. The second will work fine with a `List`.

Let's start with the first one, which is closer to what you did. I'm striving for no mutability at all here, just as an exercise. In practice, I'd probably use a `var` of immutable `Map` instead of recursion.

``````def dogTimes(data: IndexedSeq[Int], typeSum: Int): Map[Int, Int] = {
import scala.annotation.tailrec

val unwantedKey = typeSum / 2
val end = data.length
val halfway = end / 2

@tailrec
def forward(result: Map[Int, Int], i: Int): Map[Int, Int] = {
if (i > halfway) result
else if (data(i) == unwantedKey) forward(result, i + 1)
else if (result contains data(i)) forward(result, i + 1)
else forward(result updated (data(i), i + 1), i + 1)
}

@tailrec
def backward(result: Map[Int, Int], i: Int): Map[Int, Int] = {
println(s"\$i \${data(i)} \$result")
if (i < halfway) result
else if (data(i) == unwantedKey) backward(result, i - 1)
else if (result contains data(i)) backward(result updated (data(i), result(data(i)) min (end - i)), i - 1)
else backward(result updated (data(i), end - i), i - 1)
}

// forward has to be computed first
val fwd = forward(Map.empty[Int, Int], 0)
val bwd = backward(fwd, end - 1)

bwd
}
``````

This is pretty much a functional version of your mutable code -- it's verbose and doesn't really use any of the collection methods to help the work. It could also be simplified a bit -- for example, the `data.length % 2` is unnecessary, since the code inside it will always work, whether `data.length` is even or odd. And the `contains` tests could also be removed by using `getOrElse` on the updates.

It also returns a standard map, not one with a default. You can add the default afterwards.

The other way would be more or less som snytt's solution, but I'd rather make it a bit simpler, due to the fact that `min` is not necessary in that solution. Here, I accept `Seq` which will work for `List`.

``````def dogTimes(data: Seq[Int], typeSum: Int): Map[Int, Int] = {
import scala.annotation.tailrec

val unwantedKey = typeSum / 2
val half = data.length / 2 + 1
val vs = (data.view take half zip data.view.reverse).zipWithIndex

val result = vs.foldLeft(Map.empty[Int, Int]) {
case (map, ((x, y), i)) =>
val m1 = if (map.contains(x) || x == unwantedKey) map else map.updated(x, i + 1)
if (m1.contains(y) || y == unwantedKey) m1 else m1.updated(y, i + 1)
}

result
}
``````

I kept som snytt's `view`, but I suspect its performance on reverse is going to be pretty bad for `List`. It should be ok for `Vector`, but I think removing the second `view` call ought to make this faster for `List`.

Note that I do not use `min` in this code, and the reason is simple: since I'm travelling from lowest index to highest index for forward and backward at the same time, whenever a key is in the map, I know it has to have an index lower than or equal to the present one.

Also note that I'm picking `half + 1` -- that ensures I'll treat the middle element in odd-sized lists. I'm not dropping elements before reversing them because zip always pick the smallest size.

If we decide to require indexed seqs, the following is probably faster:

``````def dogTimes(data: IndexedSeq[Int], typeSum: Int): Map[Int, Int] = {
import scala.annotation.tailrec

val unwantedKey = typeSum / 2
val end = data.length
val halfway = end / 2

val result = (0 to halfway).foldLeft(Map.empty[Int, Int]) {
case (map, i) =>
val x = data(i)
val y = data(end - i - 1)
val m1 = if (map.contains(x) || x == unwantedKey) map else map.updated(x, i + 1)
if (m1.contains(y) || y == unwantedKey) m1 else m1.updated(y, i + 1)
}

result
}
``````

Note also that I prefer in both examples to prevent the unwanted key from getting in the map instead of removing it afterwards. This might be a bad decision, but it's trivial to change the code to remove it at the end, so I decided to present you with the alternative.

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Scala has an elegant way to pair list items with their indexes: `zipWithIndex`. As you split up the list in two halves, you can make two match cases, with a condition on the first:

``````val typeSum = 8
val data = List(2, 3, 4, 5, 2, 3)
val dogTimes: scala.collection.mutable.Map[Int, Int] = scala.collection.mutable.Map() withDefaultValue (-1)
data.zipWithIndex foreach {
case (value, index) if (index < data.length / 2) => {
if (dogTimes(value) > index + 1 || dogTimes(value) < 0) {
dogTimes(value) = index + 1
}
}
case (value, index) => {
if (dogTimes(value) > (data.length - index) || dogTimes(value) < 0) {
dogTimes(value) = data.length - index
}
}
}
if (typeSum % 2 == 0) dogTimes(typeSum / 2) = -1
``````
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