using System; using System.IO; using System.Linq; using System.Text; using System.Text.RegularExpressions; using System.Collections.Generic; using System.Diagnostics; using System.Numerics; using Enu = System.Linq.Enumerable; public class Program { public void Solve() { var c = Init(Reader.Int()); var set = c.Run(); int ans = set.Count() + 1; if (ans > c.N) Console.WriteLine(-1); else Console.WriteLine(ans + "\n" + string.Join(" ", Enu.Range(1, c.N).Where(i => set.Get(i - 1)))); } public class MaxClique { public readonly int N; public BitSet[] E; public BitSet Ans; public int AnsCount; public MaxClique(int n) { N = n; E = new BitSet[N]; } public void AddEdge(int a, int b) { E[a].Set(b); E[b].Set(a); } public BitSet Run() { Ans = new BitSet(); AnsCount = 0; BitSet rem = new BitSet(); for (int i = 0; i < N; i++) rem.Set(i); SearchClique(new BitSet(), rem); return Ans; } void SearchClique(BitSet selected, BitSet rem, int depth = 0) { int count = selected.Count(); if (count + rem.Count() <= AnsCount) return; if (count > AnsCount) { AnsCount = count; Ans = selected; } int[] cand, deg; SortCand(rem, out cand, out deg); if (!Coloring(AnsCount - selected.Count() + 1, rem, cand, deg)) return; foreach (int a in cand) { rem.Reset(a); selected.Set(a); SearchClique(selected, rem.And(E[a]), depth + 1); selected.Reset(a); } } void SortCand(BitSet rem, out int[] cand, out int[] deg) { int ni = 0, a; int count = rem.Count(); cand = new int[count]; deg = new int[count]; for (var set = rem; set.Any(); set.Reset(a)) { a = set.Rightmost(); cand[ni] = a; deg[ni] = E[a].And(rem).Count(); ni++; } Array.Sort(deg, cand); } bool Coloring(int atleast, BitSet rem, int[] cand, int[] deg) { int maxColor = 0; var colors = new BitSet[rem.Count()]; for (int i = cand.Length - 1; i >= 0; i--) { if (maxColor + i + 1 < atleast) return false; int a = cand[i]; var e = E[a]; for (int c = 0; ; c++) if (!e.And(colors[c]).Any()) { if (c + 1 >= atleast) return true; maxColor = Math.Max(maxColor, c + 1); colors[c].Set(a); break; } } return false; } } public struct BitSet : IEquatable { public long M1, M2; public BitSet(long m1, long m2) { M1 = m1; M2 = m2; } public void Set(int i) { if (i < 64) M1 |= 1L << i; else M2 |= 1L << i; } public void Reset(int i) { if (i < 64) M1 &= ~(1L << i); else M2 &= ~(1L << i); } public bool Get(int i) { if (i < 64) return (M1 >> i & 1) == 1; else return (M2 >> i & 1) == 1; } public int Rightmost() { Debug.Assert(M1 != 0 || M2 != 0); if (M1 != 0) return BitCount64((M1 & -M1) - 1); else return 64 + BitCount64((M2 & -M2) - 1); } public BitSet And(BitSet B) { return new BitSet(M1 & B.M1, M2 & B.M2); } public bool Any() { return M1 != 0 || M2 != 0; } public int Count() { return BitCount64(M1) + BitCount64(M2); } public bool Equals(BitSet B) { return M1 == B.M1 && M2 == B.M2; } public override string ToString() { var list = new List(); for (int i = 0; i < 128; i++) if (Get(i)) list.Add(i); return string.Join(" ", list); } } public static int BitCount64(long x) { x -= x >> 1 & 0x5555555555555555; x = (x & 0x3333333333333333) + (x >> 2 & 0x3333333333333333); return (int)((x + (x >> 4) & 0x0f0f0f0f0f0f0f0f) * 0x0101010101010101 >> 56); } MaxClique Init(int S, int minN = 2, int maxN = 121) { Func Next = () => S = (int)(S * 12345L % 1000003); Next(); int N = minN + S % (maxN - minN + 1); var clique = new MaxClique(N); int P = Next(); for (int a = 0; a < N; a++) for (int b = a + 1; b < N; b++) if (Next() < P) clique.AddEdge(a, b); return clique; } } class Entry { static void Main() { new Program().Solve(); } } class Reader { static TextReader reader = Console.In; static readonly char[] separator = { ' ' }; static readonly StringSplitOptions op = StringSplitOptions.RemoveEmptyEntries; static string[] A = new string[0]; static int i; static void Init() { A = new string[0]; } public static void Set(TextReader r) { reader = r; Init(); } public static void Set(string file) { reader = new StreamReader(file); Init(); } public static bool HasNext() { return CheckNext(); } public static string String() { return Next(); } public static int Int() { return int.Parse(Next()); } public static long Long() { return long.Parse(Next()); } public static double Double() { return double.Parse(Next()); } public static int[] IntLine() { return Array.ConvertAll(Split(Line()), int.Parse); } public static int[] IntArray(int N) { return Range(N, Int); } public static int[][] IntTable(int H) { return Range(H, IntLine); } public static string[] StringArray(int N) { return Range(N, Next); } public static string[][] StringTable(int N) { return Range(N, () => Split(Line())); } public static string Line() { return reader.ReadLine().Trim(); } static string[] Split(string s) { return s.Split(separator, op); } static T[] Range(int N, Func f) { var r = new T[N]; for (int i = 0; i < N; r[i++] = f()) ; return r; } static string Next() { CheckNext(); return A[i++]; } static bool CheckNext() { if (i < A.Length) return true; string line = reader.ReadLine(); if (line == null) return false; if (line == "") return CheckNext(); A = Split(line); i = 0; return true; } }