namespace AtCoder; #nullable enable using System.Numerics; readonly struct Matrix : IAdditionOperators, IMultiplyOperators { long[,] V { get; init; } public long this[int i, int j] { get => V[i, j]; set { V[i, j] = Mod(value); } } public int X => V.GetLength(0); public int Y => V.GetLength(1); const int p = 998244353; static long Mod(long v) { var res = v % p; if (res < 0) res += p; return res; } public Matrix(int[,] matrix) { var (x, y) = (matrix.GetLength(0), matrix.GetLength(1)); var v = new long[x, y]; for (var i = 0; i < x; i++) for (var j = 0; j < y; j++) v[i, j] = Mod(matrix[i, j]); V = v; } public static implicit operator Matrix(int[,] matrix) => new(matrix); static Matrix With(long[,] matrix) => new(){ V = matrix }; public static Matrix IdentityMatrix(int size) { var v = new long[size, size]; for (var i = 0; i < size; i++) v[i, i] = 1; return With(v); } public static Matrix operator +(Matrix a, Matrix b) { var (v, va, vb, x, y) = (new long[a.X, a.Y], a.V, b.V, a.X, a.Y); for (var i = 0; i < x; i++) for (var j = 0; j < y; j++) { var sum = va[i, j] + vb[i, j]; if (sum > p) sum -= p; v[i, j] = sum; } return With(v); } public static Matrix operator *(Matrix a, Matrix b) { var (v, va, vb, x, y, z) = (new long[a.X, b.Y], a.V, b.V, a.X, b.Y, a.Y); for (var i = 0; i < x; i++) for (var k = 0; k < z; k++) { var c = va[i, k]; if (c != 0) for (var j = 0; j < y; j++) v[i, j] += vb[k, j] * c % p; } for (var i = 0; i < x; i++) for (var j = 0; j < y; j++) v[i, j] = Mod(v[i, j]); return With(v); } public static Matrix operator *(Matrix a, long k) { var (v, va, x, y) = (new long[a.X, a.Y], a.V, a.X, a.Y); for (var i = 0; i < x; i++) for (var j = 0; j < y; j++) v[i, j] = va[i, j] * k % p; return With(v); } public Matrix Power(long k) { var c = IdentityMatrix(X); var c2 = this; while (k > 0) { if ((k & 1) > 0) c *= c2; c2 *= c2; k >>= 1; } return c; } } static class Extensions { public static T[] Repeat(this int time, Func F) => Enumerable.Range(0, time).Select(_ => F()).ToArray(); } class AtCoder { const int Mod = 998244353; object? Solve() { var n = Int(); var m = Int(); var k = Int(); var cz = k.Repeat(Int); var vl = new int[6, 1]; vl[0, 0] = 1; var ma = new int[6, 6]; for (var i = 0; i < 6; i++) { ma[i, 0] = 1; if (i + 1 < 6) ma[i, i + 1] = 1; } var matrix = new Matrix(ma); var vr = new int[6, 1]; for (var i = 0; i < 6; i++) vr[i, 0] = 6 - i; var ans = new List(); var e = n * m - 1; var mv = (matrix.Power(n) * vl)[0, 0]; foreach (var c in cz) { var ll = (matrix.Power(c) * vl)[0, 0]; var lr = (matrix.Power(e - c) * vr)[0, 0]; var rl = (matrix.Power(c + n) * vl)[0, 0]; var rr = (matrix.Power(e - (c + n)) * vr)[0, 0]; var kns = (ll * lr + rl * rr) % Mod; kns = (kns + Mod - ll * rr % Mod * mv % Mod) % Mod; ans.Add(kns); } Out(ans); return null; } public static void Main() => new AtCoder().Run(); public void Run() { var res = Solve(); if (res != null) { if (res is bool yes) res = yes ? "Yes" : "No"; sw.WriteLine(res); } sw.Flush(); } string[] input = Array.Empty(); int iter = 0; readonly StreamWriter sw = new(Console.OpenStandardOutput()) { AutoFlush = false }; string String() { while (iter >= input.Length) (input, iter) = (Console.ReadLine()!.Split(' '), 0); return input[iter++]; } T Input() where T : IParsable => T.Parse(String(), null); int Int() => Input(); void Out(object? x, string? separator = null) { separator ??= Environment.NewLine; if (x is System.Collections.IEnumerable obj and not string) { var firstLine = true; foreach (var item in obj) { if (!firstLine) sw.Write(separator); firstLine = false; sw.Write(item); } } else sw.Write(x); sw.WriteLine(); } }