結果
問題 | No.245 貫け! |
ユーザー | ともき |
提出日時 | 2015-07-18 12:46:37 |
言語 | Scala(Beta) (3.4.0) |
結果 |
CE
(最新)
AC
(最初)
|
実行時間 | - |
コード長 | 6,865 bytes |
コンパイル時間 | 8,455 ms |
コンパイル使用メモリ | 246,664 KB |
最終ジャッジ日時 | 2024-11-14 19:06:35 |
合計ジャッジ時間 | 9,091 ms |
ジャッジサーバーID (参考情報) |
judge1 / judge2 |
(要ログイン)
コンパイルエラー時のメッセージ・ソースコードは、提出者また管理者しか表示できないようにしております。(リジャッジ後のコンパイルエラーは公開されます)
ただし、clay言語の場合は開発者のデバッグのため、公開されます。
ただし、clay言語の場合は開発者のデバッグのため、公開されます。
コンパイルメッセージ
[31m[31m-- [E100] Syntax Error: Main.scala:26:34 ---------------------------------------[0m[0m [31m26 |[0m [33mdef[0m [36mabs[0m() = Math.sqrt([33mthis[0m.norm) [31m[31m |[0m ^^^^^^^^^[0m [31m |[0m [33mmethod[0m [35mnorm[0m in [33mclass[0m [35mPoint[0m must be called with () argument [31m |[0m [31m |[0m longer explanation available when compiling with `-explain` [31m[31m-- [E100] Syntax Error: Main.scala:28:29 ---------------------------------------[0m[0m [31m28 |[0m [33mdef[0m [36mlengthAsVector[0m() = abs [31m[31m |[0m ^^^[0m [31m |[0m [33mmethod[0m [35mabs[0m in [33mclass[0m [35mPoint[0m must be called with () argument [31m |[0m [31m |[0m longer explanation available when compiling with `-explain` [31m[31m-- [E100] Syntax Error: Main.scala:27:48 ---------------------------------------[0m[0m [31m27 |[0m [33mdef[0m [36mdistanceTo[0m([36mthat[0m: [35mPoint[0m) = (that-[33mthis[0m).lengthAsVector [31m[31m |[0m ^^^^^^^^^^^^^^^^^^^^^^^^^^[0m [31m |[0m [33mmethod[0m [35mlengthAsVector[0m in [33mclass[0m [35mPoint[0m must be called with () argument [31m |[0m [31m |[0m longer explanation available when compiling with `-explain` [31m[31m-- [E100] Syntax Error: Main.scala:117:83 --------------------------------------[0m[0m [31m117 |[0m [33mdef[0m [36mdistanceTo[0m([36mthat[0m: [35mPoint[0m) = Math.abs(((a-that) cross (b-that)) / (a-b).abs) [31m[31m |[0m ^^^^^^^^^[0m [31m |[0m [33mmethod[0m [35mabs[0m in [33mclass[0m [35mPoint[0m must be called with () argument [31m |[0m [31m |[0m longer explanation available when compiling with `-explain` [33m[33m-- Warning: Main.scala:112:55 ---------
ソースコード
import scala.io.StdIn.readLine import scala.collection.mutable.PriorityQueue import scala.annotation.tailrec // PriorityQueue[Long]()(scala.math.Ordering.Long.reverse) package net.pushl { package number { // Prime (Prime.scala) // Number (Number.scala) } package string { // RollingHash (RollingHash.scala) } object EnRich { implicit class AString(val self: String) extends AnyVal { def splitToIntArray = self.split(" ").map(_.toInt) } } package geometry { // can be used as vector from zero point class Point(val y: Double, val x: Double) extends Ordered[Point] { // normally, Euclidean norm is abs, but it has high cost. val EPS = 1e-7 // TODO: make it private final def norm() = x*x + y*y def abs() = Math.sqrt(this.norm) def distanceTo(that: Point) = (that-this).lengthAsVector def lengthAsVector() = abs // rotate by theta (-pi,+pi) // TODO: validate rotate def rotate(theta: Double) = { val cos_theta = Math.cos(theta) val sin_theta = Math.sin(theta) Point(x*cos_theta-y*sin_theta, x*sin_theta+y*cos_theta) } // TODO: validate these. // 内積: a・b = |a||b| cosθ // = ax*bx + ay*by def dot(that: Point) = this.x*that.x + this.y+that.y // 外積(の大きさ) |a x b| = |a||b|sinθ // 外積はa から bへの右ねじの進む向きへのベクトル(三次元) def cross(that: Point) = this.x*that.y - this.y*that.x // FIXME: it is square area. def compare(that: Point) : Int = { val xdiff = Math.abs(this.x-that.x) val ydiff = Math.abs(this.y-that.y) if(xdiff <= EPS && ydiff <= EPS) 0 else if(xdiff <= EPS && this.y < that.y) -1 else if(xdiff <= EPS && this.y > that.y) +1 else if(this.x < that.x) -1 else +1 } def +(that: Point) = Point(this.y+that.y,this.x+that.x) def -(that: Point) = this + (-that) def unary_+ = this def unary_- = Point(-this.y,-this.x) def /(that: Double)= this*(1/that) def *(that: Double)= Point(this.y*that,this.x*that) def canEqual(that: Any) = that.isInstanceOf[Point] override def equals(that: Any) = that match { case that: Point => that.canEqual(this) && (this.compare(that) == 0) case _ => false } override def toString() = s"($y, $x)" // TODO: validate hashcode. override def hashCode() = { val prime = 41 val ax = Math.round(x+EPS) min Math.round(x-EPS) val ay = Math.round(y+EPS) min Math.round(y-EPS) prime * ax.hashCode + ay.hashCode } } object Point { def zero() = this(0,0) def apply(y: Double, x: Double) = new Point(y, x) } class Segment(val a: Point, val b: Point) { val EPS = 1e-7 // TODO: make it private final // TODO: test this // def isIntersected(that: Segment) = { // val this_a_x = a.x // val this_b_x = b.x // val this_upper_y = (a.y) max (b.y) // val this_lower_y = (a.y) min (b.y) // val that_a_x = that.a.x // val that_b_x = that.b.x // val that_upper_y = (that.a.y) max (that.b.y) // val that_lower_y = (that.a.y) min (that.b.y) // val no_chance = (this_b_x + EPS < that_a_x) || // (that_b_x + EPS < this_a_x) || // (that_upper_y + EPS < this_lower_y) || // (this_upper_y + EPS < that_lower_y) // !no_chance && // (((b-a) cross (that.a-a)) * // ((b-a) cross (that.b-a)) < EPS) && // (((that.b-that.a) cross (a -that.a)) * // ((that.b-that.a) cross (b-that.a)) < EPS) // } override def toString() = s"S: $a -- $b" } object Segment { def apply(p1: Point, p2: Point) = new Segment(p1,p2) } class Line(val a: Point, val b: Point) { val EPS = 1e-7 def isParallelTo(that: Line) = Math.abs((a-b) cross (that.a - that.b)) < EPS def isIntersectedTo(that: Line) = !isParallelTo(that) def isIntersectedTo(that: Segment) = onThisLine(that.a) || onThisLine(that.b) || (toClockWise(that.a) != toClockWise(that.b)) def distanceTo(that: Point) = Math.abs(((a-that) cross (b-that)) / (a-b).abs) def onThisLine(that : Point) = distanceTo(that) < EPS def toClockWise(that : Point) = if(onThisLine(that)) sys.error("Before clockwise, check on this line") else ((b-that) cross (a-that)) > 0 override def toString() = s"L:-- $a -- $b --" } object Line { def apply(p1: Point, p2: Point) = if(p1 == p2) sys.error("Start and end of Line should be different") else new Line(p1,p2) } } } import net.pushl.EnRich._ import net.pushl.geometry._ object Main { def solve(segments: Vector[Segment]) : Int = { // segments.flatMap((s1) => // segments.flatMap((s2) => { // val cand = List(s1.a,s1.b,s2.a,s2.b) // cand.flatMap((c1) => // cand.map((c2) => // if(c1 == c2) 0 // else segments.count(Line(c1,c2).isIntersectedTo(_)))) // })).max if(segments.length == 1) 1 else segments.combinations(2). map((ss) => { val s1 = ss(0) val s2 = ss(1) val cand = List(s1.a,s1.b,s2.a,s2.b) cand.combinations(2).map((cc) => { val c1 = cc(0) val c2 = cc(1) if(c1 == c2) 0 else segments.count(Line(c1,c2).isIntersectedTo(_)) }).max}).max } def main(args : Array[String]) : Unit = { val n = readLine.toInt val segments = (1 to n).map(_ => { val (a,b,c,d) = { val abcd = readLine.splitToIntArray (abcd(0),abcd(1),abcd(2),abcd(3)) } Segment(Point(a,b),Point(c,d)) }).toVector println(solve(segments)) } }