object Main { import java.io.{BufferedReader, InputStream, InputStreamReader} import java.util.StringTokenizer import scala.reflect.ClassTag def main(args: Array[String]): Unit = { val out = new java.io.PrintWriter(System.out) new Main(out, new InputReader(System.in)).solve() out.flush() } private[this] val oj = System.getenv("MY_DEBUG") == null def DEBUG(f: => Unit): Unit = { if (!oj){ f } } def debug(as: Array[Boolean]): Unit = if (!oj){ debug(as.map(x => if(x) "1" else "0").mkString) } def debug(as: Array[Int]): Unit = if (!oj){ debug(as.mkString(" ")) } def debug(as: Array[Long]): Unit =if (!oj){ debug(as.mkString(" ")) } def debugDim(m: Array[Array[Int]]): Unit = if (!oj){ REP(m.length) { i => debug(m(i)) } } def debugDimFlip(m: Array[Array[Long]]): Unit = if (!oj){ REP(m(0).length) { j => REP(m.length) { i => System.err.print(m(i)(j)) System.err.print(" ") } System.err.println() } } def debug(s: => String): Unit = { if (!oj){ System.err.println(s) } } def isDebug[A](debug: => A, online: => A): A = { if (oj) online else debug } class InputReader(val stream: InputStream) { private[this] val reader = new BufferedReader(new InputStreamReader(stream), 32768) private[this] var tokenizer: StringTokenizer = _ private[this] def next(): String = { while (tokenizer == null || !tokenizer.hasMoreTokens) tokenizer = new StringTokenizer(reader.readLine) tokenizer.nextToken } def nextInt(): Int = Integer.parseInt(next()) def nextLong(): Long = java.lang.Long.parseLong(next()) def nextChar(): Char = next().charAt(0) def ni(): Int = nextInt() def nl(): Long = nextLong() def nc(): Char = nextChar() def ns(): String = next() def ns(n: Int): Array[Char] = ns().toCharArray def na(n: Int, offset: Int = 0): Array[Int] = map(n)(_ => ni() + offset) def na2(n: Int, offset: Int = 0): (Array[Int], Array[Int]) = { val A1, A2 = Array.ofDim[Int](n) REP(n) { i => A1(i) = ni() + offset A2(i) = ni() + offset } (A1, A2) } def nm(n: Int, m: Int): Array[Array[Int]] = { val A = Array.ofDim[Int](n, m) REP(n) { i => REP(m) { j => A(i)(j) = ni() } } A } def nal(n: Int): Array[Long] = map(n)(_ => nl()) def nm_c(n: Int, m: Int): Array[Array[Char]] = map(n) (_ => ns(m)) } def REP(n: Int, offset: Int = 0)(f: Int => Unit): Unit = { var i = offset val N = n + offset while(i < N) { f(i); i += 1 } } def REP_r(n: Int, offset: Int = 0)(f: Int => Unit): Unit = { var i = n - 1 + offset while(i >= offset) { f(i); i -= 1 } } def TO(from: Int, to: Int)(f: Int => Unit): Unit = { REP(to - from + 1, from)(f) } def map[@specialized A: ClassTag](n: Int, offset: Int = 0)(f: Int => A): Array[A] = { val res = Array.ofDim[A](n) REP(n)(i => res(i) = f(i + offset)) res } def sumL(as: Array[Int]): Long = { var s = 0L REP(as.length)(i => s += as(i)) s } def cumSum(as: Array[Int]): Array[Long] = { val cum = Array.ofDim[Long](as.length + 1) REP(as.length) { i => cum(i + 1) = cum(i) + as(i) } cum } } object Workspace { import Main._ import java.util.Arrays.sort import scala.collection.mutable import math.{abs, max, min} import mutable.ArrayBuffer class BIT(n: Int, zero: Int)(f: (Int, Int) => Int) { def this(n: Int) = this(n, 0)(_ + _) private val N = { val a = Integer.highestOneBit(n) if (a == n) a else a << 1 } private val bit = if (zero != 0) Array.fill[Int](N + 1)(zero) else Array.ofDim[Int](N + 1) /** * 1 index * addとindex違うよ * cumsumなんかといっしょ */ def sum(i: Int): Int = { assert(i <= n) var x = i var s: Int = zero while(x > 0) { s = f(s, bit(x)) x -= x & -x } s } /** * 0 index */ def add(i: Int, a: Int): Unit = { assert(i < n) var x = i + 1 while(x <= N) { bit(x) = f(bit(x), a) x += x & -x } } def sumAll: Int = sum(n) // A がLongとかじゃない場合はこれらを実装しないと下の奴らが使えない private def sub(a: Int, b: Int) = a - b private def lt(a: Int, b: Int) = a < b /** * [l, r) */ def query(l: Int, r: Int): Int = { assert(r > l) sub(sum(r), sum(l)) } def query(i: Int): Int = { query(i, i + 1) } def lowerBound(W: Int): Int = { var k = N var x = 0 var w = W while(k > 0) { if (x + k <= N && lt(bit(x + k), w)) { w = sub(w, bit(x + k)) x += k } k /= 2 } math.min(n, x) } } } class Main(out: java.io.PrintWriter, sc: Main.InputReader) { import sc._ import Main._ import java.util.Arrays.sort import scala.collection.mutable import math.{abs, max, min} import mutable.ArrayBuffer import Workspace._ // toIntとか+7とかするならvalにしろ final private[this] val MOD = 1000000007 def solve(): Unit = { import java.util import java.util.Comparator val N = ni() val K1, K2 = ni() - 1 val Q = ni() val (a, b) = na2(Q) val queue = new util.ArrayDeque[Int] // id val returns = new util.TreeMap[Long, ArrayBuffer[Int]] val seatNo = Array.ofDim[Int](N) // 近い順 -> 席順 val toNearlest = Array.ofDim[Int](N) // 席順 -> 近い順 val available = Array.fill[Boolean](N)(true) // 席順 val vacant = new BIT(N) // 近い順 val vacant3 = new BIT(N) // 近い順 def init() = { REP(N) { i => vacant.add(i, 1) vacant3.add(i, 1) } var lst = 0 // 0: l, 1: r var l, r = K1 var i = 1 seatNo(0) = K1 toNearlest(K1) = 0 if (K1 < K2) { lst = 0 } else { lst = 1 } while (i < N) { lst = if (lst == 0) { if (r < N - 1) 1 else 0 } else { if (l > 0) 0 else 1 } if (lst == 0) { l -= 1 seatNo(i) = l toNearlest(l) = i } else { r += 1 seatNo(i) = r toNearlest(r) = i } i += 1 } } init() debug(seatNo) debug(toNearlest) def test3(seat: Int): Boolean = { var ok = true var i = max(seat-1, 0) val to = min(seat+1, N - 1) while(i <= to) { ok &&= available(i) i += 1 } ok } def occupy(seat: Int): Unit = { available(seat) = false vacant.add(toNearlest(seat), -1) if (vacant3.query(toNearlest(seat)) == 1) { vacant3.add(toNearlest(seat), -1) } if (seat > 0 && vacant3.query(toNearlest(seat-1)) == 1) { vacant3.add(toNearlest(seat-1), -1) } if (seat < N - 1 && vacant3.query(toNearlest(seat+1)) == 1) { vacant3.add(toNearlest(seat+1), -1) } } def empty(seat: Int): Unit = { available(seat) = true vacant.add(toNearlest(seat), 1) if (test3(seat)) { vacant3.add(toNearlest(seat), 1) } if (seat > 0 && test3(seat-1)) { vacant3.add(toNearlest(seat-1), 1) } if (seat < N - 1 && test3(seat+1)) { vacant3.add(toNearlest(seat+1), 1) } } val ans = Array.ofDim[Int](Q) def processQueue(t: Long): Unit = { if (!queue.isEmpty) { var nearestSeat = vacant3.lowerBound(1) if (nearestSeat == N) { nearestSeat = vacant.lowerBound(1) } // debug(s"processQueue nearestSeat:$nearestSeat") // 座ることができた if (nearestSeat < N) { val id = queue.poll() val seat = seatNo(nearestSeat) occupy(seat) val ret = t + b(id) if (!returns.containsKey(ret)) { returns.put(ret, ArrayBuffer()) } returns.get(ret) += seat ans(id) = seat + 1 } } } def processReturn(to: Long): Unit = { while(!returns.isEmpty && returns.firstKey <= to) { val e = returns.pollFirstEntry() // debug(s"return t:${e.getKey} seats=[${e.getValue.mkString(",")}]") e.getValue.foreach(empty) // 席を空けた時間ごとにqueueを処理する processQueue(e.getKey) } } REP(Q) { i => // 帰る時間になっていたら帰る processReturn(a(i)) queue.add(i) processQueue(a(i)) } // queueの処理 processReturn(Long.MaxValue) // assert(ans.count(_ == 0) == 0) ans.foreach(out.println) } }