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1 import CW9a._ |
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2 |
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3 //type Pos = (Int, Int) // a position on a chessboard |
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4 //type Path = List[Pos] // a path...a list of positions |
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5 |
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6 def add_pair_urban(x: Pos)(y: Pos): Pos = |
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7 (x._1 + y._1, x._2 + y._2) |
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8 |
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9 def is_legal_urban(dim: Int, path: Path)(x: Pos): Boolean = |
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10 0 <= x._1 && 0 <= x._2 && x._1 < dim && x._2 < dim && !path.contains(x) |
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11 |
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12 def moves_urban(x: Pos): List[Pos] = |
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13 List(( 1, 2),( 2, 1),( 2, -1),( 1, -2), |
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14 (-1, -2),(-2, -1),(-2, 1),(-1, 2)).map(add_pair_urban(x)) |
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15 |
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16 def legal_moves_urban(dim: Int, path: Path, x: Pos): List[Pos] = |
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17 moves_urban(x).filter(is_legal_urban(dim, path)) |
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18 |
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19 def correct_urban(dim: Int)(p: Path): Boolean = p match { |
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20 case Nil => true |
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21 case x::Nil => true |
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22 case x::y::p => if (legal_moves_urban(dim, p, y).contains(x)) correct_urban(dim)(y::p) else false |
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23 } |
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24 |
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25 |
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26 val ts00_urban = enum_tours(5, List((0, 0))) |
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27 assert(ts00_urban.map(correct_urban(5)).forall(_ == true) == true) |
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28 assert(ts00_urban.length == 304) |
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29 |
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30 |
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31 val ts_urban = enum_tours(5, List((0, 2))) |
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32 assert(ts_urban.map(correct_urban(5)).forall(_ == true) == true) |
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33 assert(ts_urban.length == 56) |