// Main Part 4 about finding Knight's tours
//==========================================
object M4a {
// If you need any auxiliary functions, feel free to
// implement them, but do not make any changes to the
// templates below. Also have a look whether the functions
// at the end of the file are of any help.
type Pos = (Int, Int) // a position on a chessboard
type Path = List[Pos] // a path...a list of positions
// ADD YOUR CODE BELOW
//======================
//(1)
def is_legal(dim: Int, path: Path, x: Pos) : Boolean = ???
//(2)
def legal_moves(dim: Int, path: Path, x: Pos) : List[Pos] = ???
//some testcases
//
//assert(legal_moves(8, Nil, (2,2)) ==
// List((3,4), (4,3), (4,1), (3,0), (1,0), (0,1), (0,3), (1,4)))
//assert(legal_moves(8, Nil, (7,7)) == List((6,5), (5,6)))
//assert(legal_moves(8, List((4,1), (1,0)), (2,2)) ==
// List((3,4), (4,3), (3,0), (0,1), (0,3), (1,4)))
//assert(legal_moves(8, List((6,6)), (7,7)) == List((6,5), (5,6)))
// (3)
def count_tours(dim: Int, path: Path) : Int = ???
def enum_tours(dim: Int, path: Path) : List[Path] = ???
// (4)
def first(xs: List[Pos], f: Pos => Option[Path]) : Option[Path] = ???
// testcases
//
//def foo(x: (Int, Int)) = if (x._1 > 3) Some(List(x)) else None
//
//first(List((1, 0),(2, 0),(3, 0),(4, 0)), foo) // Some(List((4,0)))
//first(List((1, 0),(2, 0),(3, 0)), foo) // None
//(5)
def first_tour(dim: Int, path: Path) : Option[Path] = ???
/* Helper functions
// for measuring time
def time_needed[T](code: => T) : T = {
val start = System.nanoTime()
val result = code
val end = System.nanoTime()
println(f"Time needed: ${(end - start) / 1.0e9}%3.3f secs.")
result
}
// can be called for example with
//
// time_needed(count_tours(dim, List((0, 0))))
//
// in order to print out the time that is needed for
// running count_tours
// for printing a board
def print_board(dim: Int, path: Path): Unit = {
println()
for (i <- 0 until dim) {
for (j <- 0 until dim) {
print(f"${path.reverse.indexOf((j, dim - i - 1))}%3.0f ")
}
println()
}
}
*/
}