import Foundation public struct Deque { private var array: [T?] private var head: Int private var capacity: Int private let originalCapacity: Int public init(_ capacity: Int = 10) { self.capacity = max(capacity, 1) originalCapacity = self.capacity array = [T?](repeating: nil, count: capacity) head = capacity } public var isEmpty: Bool { return count == 0 } public var count: Int { return array.count - head } public mutating func enqueue(_ element: T) { array.append(element) } public mutating func enqueueFront(_ element: T) { if head == 0 { capacity *= 2 let emptySpace = [T?](repeating: nil, count: capacity) array.insert(contentsOf: emptySpace, at: 0) head = capacity } head -= 1 array[head] = element } public mutating func dequeue() -> T? { guard head < array.count, let element = array[head] else { return nil } array[head] = nil head += 1 if capacity >= originalCapacity && head >= capacity*2 { let amountToRemove = capacity + capacity/2 array.removeFirst(amountToRemove) head -= amountToRemove capacity /= 2 } return element } public mutating func dequeueBack() -> T? { if isEmpty { return nil } else { return array.removeLast() } } public func peekFront() -> T? { if isEmpty { return nil } else { return array[head] } } public func peekBack() -> T? { if isEmpty { return nil } else { return array.last! } } } func readInt() -> [Int] { return readLine()!.split(separator: " ").map { c in Int(c)! } } func main() { let line = readInt() let N = line[0] let M = line[1] let students = readInt() var deque = Deque(N) for s in students { deque.enqueue(s) } let S = readLine()! for s in S { if s == "L" { let a = deque.dequeue()! let b = deque.dequeue()! deque.enqueueFront(a+b) deque.enqueue(0) } else { let a = deque.dequeueBack()! let b = deque.dequeueBack()! deque.enqueue(a+b) deque.enqueueFront(0) } } for _ in 1...N { print(deque.dequeue()!, terminator: " ") } print() } main()