--- a/progs/knight2_sol.scala Sat Mar 11 23:12:49 2023 +0000
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,88 +0,0 @@
-// Part 2 about finding a single tour for a board
-//================================================
-
-type Pos = (Int, Int) // a position on a chessboard
-type Path = List[Pos] // a path...a list of positions
-
-def print_board(dim: Int, path: Path): Unit = {
- println
- for (i <- 0 until dim) {
- for (j <- 0 until dim) {
- print(f"${path.reverse.indexOf((i, j))}%3.0f ")
- }
- println
- }
-}
-
-def add_pair(x: Pos)(y: Pos): Pos =
- (x._1 + y._1, x._2 + y._2)
-
-def is_legal(dim: Int, path: Path)(x: Pos): Boolean =
- 0 <= x._1 && 0 <= x._2 && x._1 < dim && x._2 < dim && !path.contains(x)
-
-def moves(x: Pos): List[Pos] =
- List(( 1, 2),( 2, 1),( 2, -1),( 1, -2),
- (-1, -2),(-2, -1),(-2, 1),(-1, 2)).map(add_pair(x))
-
-def legal_moves(dim: Int, path: Path, x: Pos): List[Pos] =
- moves(x).filter(is_legal(dim, path))
-
-
-def first(xs: List[Pos], f: Pos => Option[Path]): Option[Path] = xs match {
- case Nil => None
- case x::xs => {
- val result = f(x)
- if (result.isDefined) result else first(xs, f)
- }
-}
-
-first(List((1, 0),(2, 0),(3, 0),(4, 0)), (x => if (x._1 > 3) Some(List(x)) else None))
-first(List((1, 0),(2, 0),(3, 0)), (x => if (x._1 > 3) Some(List(x)) else None))
-
-
-
-def first_tour(dim: Int, path: Path): Option[Path] = {
- if (path.length == dim * dim) Some(path)
- else
- first(legal_moves(dim, path, path.head), (x: Pos) => first_tour(dim, x::path))
-}
-
-/*
-for (dim <- 1 to 8) {
- val t = first_tour(dim, List((0, 0)))
- println(s"${dim} x ${dim} " + (if (t == None) "" else { print_board(dim, t.get) ; "" }))
-}
-*/
-
-def add_pair_urban(x: Pos)(y: Pos): Pos =
- (x._1 + y._1, x._2 + y._2)
-
-def is_legal_urban(dim: Int, path: Path)(x: Pos): Boolean =
- 0 <= x._1 && 0 <= x._2 && x._1 < dim && x._2 < dim && !path.contains(x)
-
-def moves_urban(x: Pos): List[Pos] =
- List(( 1, 2),( 2, 1),( 2, -1),( 1, -2),
- (-1, -2),(-2, -1),(-2, 1),(-1, 2)).map(add_pair_urban(x))
-
-def legal_moves_urban(dim: Int, path: Path, x: Pos): List[Pos] =
- moves_urban(x).filter(is_legal_urban(dim, path))
-
-def correct_urban(dim: Int)(p: Path): Boolean = p match {
- case Nil => true
- case x::Nil => true
- case x::y::p =>
- if (legal_moves_urban(dim, p, y).contains(x)) correct_urban(dim)(y::p) else false
-}
-
-
-
-
-val ts1 = first_tour(8, List((0, 0))).get
- assert(correct_urban(8)(ts1) == true)
-
-val ts2 = first_tour(4, List((0, 0)))
-assert(ts2 == None)
-
-print_board(8, first_tour(8, List((0, 0))).get)
-
-