using System; using System.Collections; using System.Collections.Generic; using System.IO; using System.Linq; using System.Numerics; using System.Text; using static System.Console; using static System.Convert; using static System.Math; using static Extentions; class IO { int idx; string[] input = In.ReadToEnd().Split(new[] { " ", "\n", "\r" }, StringSplitOptions.RemoveEmptyEntries); T Get(Func parser) => parser(input[idx++]); public string S => Get(s => s); public char C => Get(char.Parse); public int I => Get(int.Parse); public long L => Get(long.Parse); public double F => Get(double.Parse); public decimal D => Get(decimal.Parse); public BigInteger B => Get(BigInteger.Parse); T[] Gets(int n, Func parser) => input.Skip((idx += n) - n).Take(n).Select(parser).ToArray(); public string[] Ss(int n) => Gets(n, s => s); public char[] Cs(int n) => Gets(n, char.Parse); public int[] Is(int n) => Gets(n, int.Parse); public long[] Ls(int n) => Gets(n, long.Parse); public double[] Fs(int n) => Gets(n, double.Parse); public decimal[] Ds(int n) => Gets(n, decimal.Parse); public BigInteger[] Bs(int n) => Gets(n, BigInteger.Parse); public void Write(params T[] xs) => WriteLine(string.Join(" ", xs)); public void Write(params object[] xs) => WriteLine(string.Join(" ", xs)); } #region Library class MatrixIndexer { T[][] array; int rowMaxIndex, columnMaxIndex; int rotation = 0, magnification = 1; public MatrixIndexer(T[][] array) { this.array = array; rowMaxIndex = array.Length - 1; columnMaxIndex = array.Max(x => x.Length) - 1; } public int RowLength => ((this.Rotation % 2 == 0 == !this.Transposed ? rowMaxIndex : columnMaxIndex) + 1) * this.Magnification; public int ColumnLength => ((this.Rotation % 2 == 0 == !this.Transposed ? columnMaxIndex : rowMaxIndex) + 1) * this.Magnification; public int Rotation { get { return rotation; } set { rotation = value % 4 + 4 % 4; } } public int Magnification { get { return magnification; } set { #if DEBUG if (value < 1) throw new ArgumentException(); #endif magnification = value; } } public bool Transposed { get; set; } = false; public T this[int row, int column] { get { var idx = GetIndex(row, column); return array[idx.First][idx.Second]; } set { var idx = GetIndex(row, column); array[idx.First][idx.Second] = value; } } Pair GetIndex(int row, int column) { row /= this.Magnification; column /= this.Magnification; if (this.Transposed) Swap(ref row, ref column); return new Pair { First = rotation == 0 ? row : rotation == 1 ? rowMaxIndex - column : rotation == 2 ? rowMaxIndex - row : column, Second = rotation == 0 ? column : rotation == 1 ? row : rotation == 2 ? columnMaxIndex - column : columnMaxIndex - row }; } } struct Pair { public T1 First; public T2 Second; public Pair(T1 first, T2 second) { First = first; Second = second; } } static class Extentions { public static void Swap(ref T x, ref T y) { var tmp = x; x = y; y = tmp; } } #endregion static class Program { public static void Main() { var sw = new StreamWriter(OpenStandardOutput()) { NewLine = "\n" }; #if DEBUG sw.AutoFlush = true; #else sw.AutoFlush = false; #endif SetOut(sw); Solve(new IO()); Out.Flush(); } static void Solve(IO io) { var r = io.I; var k = io.I; var h = io.I; var w = io.I; var c = new char[h][]; for (var i = 0; i < h; i++) c[i] = io.S.ToCharArray(); var mi = new MatrixIndexer(c) { Rotation = r / 90, Magnification = k, }; for (var i = 0; i < mi.RowLength; i++) { for (var j = 0; j < mi.ColumnLength; j++) Write(mi[i, j]); WriteLine(); } } }