Submission #29467594

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Source Code Expand

// D - Prime Sum Game
// https://atcoder.jp/contests/abc239/tasks/abc239_d
// 実行制限時間: 2.0 sec
import Foundation

func main() {
    // =====================
    // actual code goes here
    // =====================
    
    
    let primes = [2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31,
              37, 41, 43, 47, 53, 59, 61, 67, 71, 73,
              79, 83, 89, 97, 101, 103, 107, 109, 113,
              127, 131, 137, 139, 149, 151, 157, 163,
              167, 173, 179, 181, 191, 193, 197, 199]
    let (a, b, c, d) = readInts().tupled()
    
    var result = true
    
    t: for takahashi in a...b {
        for prime in primes {
            let target = prime - takahashi
            if target >= c && target <= d {
                continue t
            }
        }
        result = false
    }
    
    print(result ? "Aoki" : "Takahashi")
    
    // ===============
    // actual code end
    // ===============
    
    
}

main()

func readString () -> String { readLine()! }
func readSubsequence () -> [String.SubSequence] { readString().split(separator: " ")}
func readChars () -> [Character] {readString().map({$0})}
func readStrings () -> [String] { readSubsequence().map({String($0)}) }
func readInt() -> Int { Int(readString())! }
func readInts() -> [Int] { readSubsequence().map{Int(String($0))!} } // TODO: remove the String conversion once Atcoder is updated to 5.5

func gcd(_ a: Int, _ b: Int) -> Int {
    if b == 0 { return a }
    return gcd(b, a%b)
}
func pf(_ numb: Int) -> [(prime: Int, count: Int)] {
    var n = numb, i = 2, primeList = [(Int, Int)]()
    while i * i <= numb && i <= n {
        var count = 0
        while n % i == 0 { n /= i; count += 1 }
        if count > 0 { primeList.append((i, count)) }
        i += 1
    }
    if n != 1 { primeList.append((n, 1)) }
    return primeList
}
// reference https://ioritsutsui.com/permutation-full-enumeration/
func permutation<T>(_ args: [T]) -> [[T]] {
    guard args.count > 1 else { return [args] }
    func rotate(_ arr: [T]) -> [T] { return arr.dropFirst() + [arr.first!] }
    
    var rotatedValue = args
    var result = [[T]]()
    for _ in 0..<args.count {
        let head = rotatedValue.first!
        let tails = Array(rotatedValue.dropFirst())
        for arr in permutation(tails) {
            result.append([head] + arr)
        }
        rotatedValue = rotate(rotatedValue)
    }
    return result
}
// based on: https://atcoder.jp/contests/abc235/submissions/28562251
struct Queue<T> {
    private var data = [T](), pos=0
    var isEmpty:Bool{ data.count==pos }
    var front:T?{isEmpty ? nil : data[pos]}
    mutating func push(_ t:T) { data.append(t) }
    mutating func push(_ ts:[T]) { data.append(contentsOf: ts) }
    mutating func pop()->T?{
        if isEmpty { return nil }
        pos += 1; return data[pos-1] }}

// based on: https://github.com/davecom/SwiftPriorityQueue/blob/7b4aa89d9740779f6123929c3e9e7e6b86b83671/Sources/SwiftPriorityQueue/SwiftPriorityQueue.swift
struct PriorityQueue<T> {
    var heap = [T](); let order: (T, T) -> Bool
    init(_ startingValues: ArraySlice<T> = [], order: @escaping (T, T) -> Bool) {
        self.order = order; push(startingValues) }
    init(_ startingValues: [T], order: @escaping (T, T) -> Bool) {
        self.init(startingValues[...], order: order)}
    var count: Int { heap.count }; var isEmpty: Bool { heap.isEmpty }
    private mutating func sink(_ index: Int) {
        var index = index
        while 2 * index + 1 < count {
            var j = 2 * index + 1
            if j < (count - 1) && order(heap[j+1], heap[j]) { j += 1 }
            guard order(heap[j], heap[index] ) else { break }
            heap.swapAt(j, index); index = j } }
    private mutating func swim(_ index: Int) {
        var index = index
        while index > 0 && order(heap[index], heap[(index - 1) / 2]) {
            heap.swapAt(index, (index - 1) / 2)
            index = (index - 1) / 2 } }
    mutating func push(_ element: T) { heap.append(element); swim(count - 1) }
    mutating func push(_ elements: ArraySlice<T>) { elements.forEach { push($0) } }
    mutating func push(_ elements: [T]) { push(elements[...]) }
    mutating func pop() -> T? {
        guard !isEmpty else { return nil }
        heap.swapAt(0, count - 1)
        let first = heap.removeLast()
        sink(0); return first } }
extension PriorityQueue where T: Comparable {
    init(_ startingValues: ArraySlice<T> = [], smallerFirst: Bool = true) {
        self.init(startingValues, order: smallerFirst ? {$0 < $1} : {$0 > $1}) }
    init(_ startingValues: [T], smallerFirst: Bool = true) {
        self.init(startingValues[...], smallerFirst: smallerFirst)} }
extension PriorityQueue: IteratorProtocol {
    mutating func next() -> T? { return pop() }}
extension PriorityQueue: Sequence {
    func makeIterator() -> PriorityQueue<T> { return self }}
extension PriorityQueue: Collection {
    var startIndex: Int { return heap.startIndex }
    var endIndex: Int { return heap.endIndex }
    subscript(i: Int) -> T { return heap[i] }
    func index(after i: Int) -> Int { return heap.index(after: i) }}
extension PriorityQueue: CustomStringConvertible, CustomDebugStringConvertible {
    var description: String { return heap.description }
    var debugDescription: String { return heap.debugDescription }}

// Based on: https://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=DSL_1_A&lang=jp
struct DisjointSet {
    private var rank: [Int]; private var p: [Int]
    init(_ size: Int) {
        rank = [Int](); p = [Int]()
        for x in 0..<size { p.append(x); rank.append(0) }}
    mutating func same(_ x: Int, _ y: Int) -> Bool { return findSet(x) == findSet(y) }
    mutating func unite(_ x: Int, _ y: Int) { link(x, y) }
    private mutating func findSet(_ x: Int) -> Int {
        if x != p[x] { p[x] = findSet(p[x]) }
        return p[x] }
    private mutating func link(_ x: Int, _ y: Int) {
        let a = findSet(x), b = findSet(y)
        if rank[a] > rank[b] { p[b] = a
        } else {
            p[a] = b
            if rank[a] == rank[b] { rank[b] += 1 } }}}
extension Bool {
    /// Returns String "Yes" or "No"  depending on the bool value
    var yN: String { self ? "Yes" : "No" } }

extension Array {
    func tupled() -> (Element, Element) { (self[0], self[1]) }
    func tupled() -> (Element, Element, Element) { (self[0], self[1], self[2]) }
    func tupled() -> (Element, Element, Element, Element) { (self[0], self[1],
                                                             self[2], self[3]) }
    /// Returns a new string by concatenating the elements of the sequence,
    /// adding the given separator between each element.
    ///
    /// The following example shows how an array of Ints can be joined to a
    /// single, comma-separated string:
    ///
    ///     let numbers = [1, 4, 2, 6]
    ///     let list = numbers.joinedAsString(separator: ", ")
    ///     print(list)
    ///     // Prints "1, 4, 2, 6"
    ///
    /// - Parameter separator: A string to insert between each of the elements
    ///   in this sequence. The default separator is an empty string.
    /// - Returns:  A single, concatenated string.
    func joinedAsString(separator: String = "") -> String {
        self.map {"\($0)"}.joined(separator: separator) } }

Submission Info

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