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content/blog/different-views-of-fold.md
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content/blog/different-views-of-fold.md
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---
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title: "Different Views of Fold and Their Combinations"
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date: 2022-11-09T17:45:26-05:00
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draft: false
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tags: []
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math: true
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---
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Fold is a functional programming pattern that operates over some sequence with a binary operation and a starting value. There are two variants:
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FoldLeft: Performs the binary operation from the left of the sequence to the right.
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```scala
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List(1, 2, 3, 4).foldLeft(0)(_ + _)
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// ((((0 + 1) + 2) + 3) + 4)
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// 10
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```
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FoldRight: Performs the binary operation from the right of the sequence to the left.
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```scala
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List(1, 2, 3, 4).foldRight(0)(_ + _)
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// (1 + (2 + (3 + (4 + 0))))
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// 10
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```
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The two fold variants only return the same solution if the function being applied is associative. Which is the case for integer addition above.
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## Definition and the Two Views
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Definition of `foldLeft` within Scala:
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```scala
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def foldLeft[B](z: B)(op: (B, A) => B): B = this match {
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case seq: IndexedSeq[A @unchecked] => foldl(seq, 0, z, op)
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case _ =>
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var result = z
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val it = iterator
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while (it.hasNext) {
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result = op(result, it.next())
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}
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result
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}
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def foldl[B](seq: IndexedSeq[A], start: Int, z: B, op: (B, A) => B): B = {
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@tailrec def loop(at: Int, end: Int, acc: B): B =
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if (at == end) acc
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else loop(at + 1, end, op(acc, seq(at)))
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loop(start, seq.length, z)
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}
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```
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Notice that this includes both a recursive and iterative definition within one function! Since most people start off by learning loops, let's focus on the iterative implementation.
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```scala
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var result = z
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while (it.hasNext) {
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result = op(result, it.next())
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}
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```
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## Combining Folds
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When building out complex functions we may want to loop multiple times:
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- While loops next to each other ($n_1 + n_2$ complexity)
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- While loop within a while loop ($n_1 * n_2$ complexity)
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### $n_1 + n_2$ Complexity
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The following is an example of this class of algorithms.
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Given a list of words, title case each word and combine them into a single sentence.
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```scala
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val l1 = List("steve", "is", "doing", "great")
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val title = (s: String) => s.substring(0, 1).toUpperCase + s.substring(1)
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val it1 = l1.iterator
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var id1 = List.empty[String]
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while (it1.hasNext) {
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id1 = id1 :+ title(it1.next())
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}
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val it2 = id1.iterator
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var id2 = ""
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while (it2.hasNext) {
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id2 = id2 + " " + it2.next()
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}
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```
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Converting to fold solution:
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```scala
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val l1 = List("steve", "is", "doing", "great")
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val title = (s: String) => s.substring(0, 1).toUpperCase + s.substring(1)
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val id1 = List.empty[String]
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val id2 = ""
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l1.foldLeft(id1)((c, n) =>
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c :+ title(n)
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).foldLeft(id2)((c, n) =>
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c + " " + n
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)
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```
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### $n_1 * n_2$ Complexity
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An example of this class of programs is the [Cartesian product](https://en.wikipedia.org/wiki/Cartesian_product)
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$$
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(1, 2, 3) \times (4, 5,6) \rightarrow ((1,4), (1,5), (1,6), \dots, (3,4), (3,5), (3,6))
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$$
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Iterative Implementation:
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```scala
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val listInput1 = List(1,2,3)
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val listInput2 = List(4,5,6)
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var id_outer = List.empty[(Int, Int)]
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val it1 = listInput1.iterator
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while (it1.hasNext) {
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var id_inner = List.empty[(Int, Int)]
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val n1 = it1.next()
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val it2 = listInput2.iterator
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while (it2.hasNext) {
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val n2 = it2.next()
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result_inner = result_inner :+ (n1, n2)
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}
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result = result ++ result_inner
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}
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```
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Converting to fold solution:
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```scala
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val l1 = List(1,2,3)
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val l2 = List(4,5,6)
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val id_outer = List.empty[(Int, Int)]
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val id_inner = List.empty[(Int, Int)]
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l1.foldLeft(id_outer)((c1, n1) =>
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c1 ++ l2.foldLeft(id_inner)((c2, n2) =>
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c2 :+ (n1, n2)
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)
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)
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```
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