using System; using System.Collections; using System.Collections.Generic; //using System.Collections.Immutable; using System.Diagnostics; using System.IO; using System.Linq; using System.Numerics; using System.Runtime.InteropServices; using System.Text; using System.Text.RegularExpressions; using System.Threading.Tasks; using static System.Math; using static Math2; using static Output; using static Utils; public class CP { Scan sc; public void Solve() { sc = new Scan(); bool multicases = false; var t = multicases ? sc.Int : 1; // var sw = new Stopwatch(); // sw.Start(); while (t-- > 0) { c1(); } // sw.Stop(); //Put(sw.ElapsedMilliseconds + "ms"); } public void c1() { var t = sc.Int; var b = sc.Int; for (int i = 0; i < t; ++i) { Put(ConvertBase(sc.Chararr, 10, b)); } } } public class PriorityQueue { List _item; public int Count { get { return _item.Count; } } bool _isascend { get; set; } public T Peek { get { return _item[0]; } } Comparison Comp; public PriorityQueue(bool IsAscend = true, IEnumerable list = null) : this(Comparer.Default.Compare, IsAscend, list) { } public PriorityQueue(Comparison cmp, bool IsAscend = true, IEnumerable list = null) { _item = new List(); _isascend = IsAscend; this.Comp = cmp; if (list != null) { _item.AddRange(list); Build(); } } private int Compare(int i, int j) => (_isascend ? -1 : 1) * Comp(_item[i], _item[j]); private void Swap(int i, int j) { var t = _item[i]; _item[i] = _item[j]; _item[j] = t; } private int Parent(int i) => (i - 1) >> 1; private int Left(int i) => (i << 1) + 1; public T Enqueue(T val) { int i = _item.Count; _item.Add(val); while (i > 0) { int p = Parent(i); if (Compare(i, p) > 0) Swap(i, p); i = p; } return val; } private void Heapify(int index) { for (int i = index, j; (j = Left(i)) < _item.Count; i = j) { if (j != _item.Count - 1 && Compare(j, j + 1) < 0) j++; if (Compare(i, j) < 0) Swap(i, j); } } public T Dequeue() { T val = _item[0]; _item[0] = _item[_item.Count - 1]; _item.RemoveAt(_item.Count - 1); Heapify(0); return val; } private void Build() { for (var i = (_item.Count >> 1) - 1; i >= 0; i--) Heapify(i); } public bool Any() => Count > 0; } public class BinarySearch { public static int Lower_Bound(IList Array, T Target) { return Lower_Bound(Array, Target, Comparer.Default.Compare); } public static int Lower_Bound(IList Array, T Target, Comparison Comp) { var cmp = Comparer.Create(Comp); var l = -1; //always ng var r = Array.Count(); //always ok while (r - l > 1) { var mid = l + (r - l) / 2; var res = cmp.Compare(Array[mid], Target); if (res >= 0) r = mid; else l = mid; } return r; } public static int Upper_Bound(IList Array, T Target) { return Upper_Bound(Array, Target, Comparer.Default.Compare); } public static int Upper_Bound(IList Array, T Target, Comparison Comp) { var cmp = Comparer.Create(Comp); var l = -1; var r = Array.Count; while (r - l > 1) { var mid = l + (r - l) / 2; var res = cmp.Compare(Array[mid], Target); if (res > 0) r = mid; else l = mid; } return r; } public static bool Contains(IList Arr, T Target) { return Contains(Arr, Target, Comparer.Default.Compare); } public static bool Contains(IList Arr, T Target, Comparison Comp) { return (Upper_Bound(Arr, Target, Comp) - Lower_Bound(Arr, Target, Comp) > 0); } } public static class Math2 { public const int INF = 1 << 29; public const long INFL = 1L << 62; public const long MOD = 1000000007; public const long MOD2 = 998244353; public static long Power(long a, long b, long MOD = 1000000007) //i^N { long res = 1; while (b > 0) { if ((b & 1) != 0) res = res * a % MOD; a = a * a % MOD; b >>= 1; } return (res + 2 * MOD) % MOD; } public static long Power2(long a, long b) //i^N { long res = 1; while (b > 0) { if ((b & 1) != 0) res = res * a; a = a * a; b >>= 1; } return res; } public static BigInteger Power2BI(BigInteger a, BigInteger b) //i^N { BigInteger res = 1; while (b > 0) { if ((b & 1) != 0) res = res * a; a = a * a; b >>= 1; } return res; } public static long GCD(long a, long b) { if (a == 0) return b; while (b > 0) { var r = a % b; a = b; b = r; } return a; } public static long LCM(long a, long b) => (b / GCD(a, b)) * a; public static long Comb(long n, long r, int MOD = 1000000007) { if (r > n - r) r = n - r; long Nume = 1; long Deno = 1; if (r > n - r) r = n - r; for (long i = 1; i <= r; ++i) { Deno = (Deno * i) % MOD; Nume = Nume * (n - i + 1) % MOD; } return (Nume * inv(Deno)) % MOD; } public static long Comb2(long n, long r) { long Nume = 1; long Deno = 1; if (r > n - r) r = n - r; for (long i = 1; i <= r; ++i) { Deno *= i; Nume *= n - i + 1; } return Nume / Deno; } public static long inv(long x, int MOD = 1000000007) { return Power(x, MOD - 2, MOD); } } public static class Utils { public static T[] sort(this T[] a) { Array.Sort(a); return a; } public static long popcnt(long n) { n = (n & 0x55555555) + (n >> 1 & 0x55555555); n = (n & 0x33333333) + (n >> 2 & 0x33333333); n = (n & 0x0f0f0f0f) + (n >> 4 & 0x0f0f0f0f); n = (n & 0x00ff00ff) + (n >> 8 & 0x00ff00ff); n = (n & 0x0000ffff) + (n >> 16 & 0x0000ffff); return n; } public static int popcnt(BigInteger a) { int cnt = 0; while (a > 0) { if ((a & 1) == 1) ++cnt; a >>= 1; } return cnt; } public static void Swap(ref T A, ref T B) { T x = A; A = B; B = x; } public static int DigitSum(string N) { int ret = 0; for (int i = 0; i < N.Length; ++i) ret += N[i] - '0'; return ret; } public static string ConvertBase(char[] Num, int from, int to) { if (new string(Num) == "0") return "0"; char[] sample = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ".ToCharArray(); BigInteger ten = 0; int power = 0; for (int i = Num.Length - 1; i >= 0; --i) { ten += (BigInteger)(Array.IndexOf(sample, Num[i])) * Power2BI(from, power); ++power; } if (to == 10) { return ten.ToString(); } var ret = new List(); if (to > 0) { while (ten > 0) { int r = (int)(ten % (to)); ret.Add(sample[r]); ten /= to; } } else { while (ten != 0) { var r = (int)(ten % -to); if (r < 0) r -= to; ret.Add(sample[r]); ten -= r; ten /= -to; ten *= -1; } } ret.Reverse(); return new string(ret.ToArray()); } public static bool NextPermutation(IList lis, Comparison cmp) { int n = lis.Count; int i = n - 1; while (i - 1 >= 0) { if (cmp(lis[i - 1], lis[i]) < 0) break; --i; } if (i == 0) return false; int j = i; while (j + 1 < n) { if (cmp(lis[i - 1], lis[j + 1]) > 0) break; ++j; } var _q = lis[j]; lis[j] = lis[i - 1]; lis[i - 1] = _q; int k = i; int l = n - 1; while (k < l) { var _p = lis[k]; lis[k] = lis[l]; lis[l] = _p; ++k; --l; } return true; } public static bool NextPermutation(IList lis) => NextPermutation(lis, Comparer.Default.Compare); } class Program { static void Main(string[] args) { var CP = new CP(); CP.Solve(); } } public static class Output { public static void Put(string a) => Console.WriteLine(a); public static void Put(params object[] i) => Put(string.Join(" ", i)); public static void Put(IEnumerable a) => Put(string.Join(" ", a)); public static void PutV(IEnumerable a) { foreach (var z in a) Put(z); } public static void YN(bool i) { if (i) Put("Yes"); else Put("No"); } } public class Scan { public static string Str => Console.ReadLine(); public static bool IsTypeEqual() => typeof(T).Equals(typeof(U)); public static T ConvertType(U a) => (T)Convert.ChangeType(a, typeof(T)); public static T Cast(string s) { if (IsTypeEqual()) return ConvertType(int.Parse(s)); else if (IsTypeEqual()) return ConvertType(long.Parse(s)); else if (IsTypeEqual()) return ConvertType(double.Parse(s)); else if (IsTypeEqual()) return ConvertType(char.Parse(s)); else if (IsTypeEqual()) return ConvertType(BigInteger.Parse(s)); else if (IsTypeEqual()) return ConvertType(decimal.Parse(s)); else return ConvertType(s); } public static T[] Castarr(string[] s) { var ret = new T[s.Length]; int i = 0; if (IsTypeEqual()) { var list = new List(); foreach (var t in s) { foreach (var u in t) { list.Add(ConvertType(char.Parse(u.ToString()))); } } return list.ToArray(); } foreach (var t in s) { if (IsTypeEqual()) ret[i++] = ConvertType(int.Parse(t)); else if (IsTypeEqual()) ret[i++] = ConvertType(long.Parse(t)); else if (IsTypeEqual()) ret[i++] = ConvertType(double.Parse(t)); else if (IsTypeEqual()) ret[i++] = ConvertType(BigInteger.Parse(t)); else ret[i++] = ConvertType(t); } return ret; } Queue q = new Queue(); void next() { var ss = Str.Split(' '); foreach (var item in ss) q.Enqueue(item); } public T cin() { if (!q.Any()) next(); return Cast(q.Dequeue()); } public T[] cinarr() { return Castarr(Str.Split(' ')); } public T[] cinarr(int n) { var ret = new T[n]; for (int i = 0; i < n; ++i) ret[i] = cin(); return ret; } public int Int => cin(); public long Long => cin(); public double Double => cin(); public char Char => cin(); public string String => cin(); public BigInteger BI => cin(); public int[] Intarr => cinarr(); public long[] Longarr => cinarr(); public double[] Doublearr => cinarr(); public char[] Chararr => cinarr(); public string[] Stringarr => cinarr(); public BigInteger[] BIarr => cinarr(); public void cin(out T t) { t = cin(); } public void mul(out T t, out U u) { t = cin(); u = cin(); } public void mul(out T t, out U u, out V v) { t = cin(); u = cin(); v = cin(); } public void mul(out T t, out U u, out V v, out W w) { t = cin(); u = cin(); v = cin(); w = cin(); } public void mul(out T t, out U u, out V v, out W w, out X x) { t = cin(); u = cin(); v = cin(); w = cin(); x = cin(); } public void mul(out T t, out U u, out V v, out W w, out X x, out Y y) { t = cin(); u = cin(); v = cin(); w = cin(); x = cin(); y = cin(); } public void mul(out T t, out U u, out V v, out W w, out X x, out Y y, out Z z) { t = cin(); u = cin(); v = cin(); w = cin(); x = cin(); y = cin(); z = cin(); } }