using System; using System.Collections.Generic; using System.Linq; using System.Text; namespace ProgrammingContest { class Writer : IDisposable { private System.IO.TextWriter Out { get; } private StringBuilder Sb { get; } private bool IsReactive { get; } public Writer(string path) : this(new System.IO.StreamWriter(path)) { } public Writer(bool isReactive) : this(null, isReactive) { } public Writer(System.IO.TextWriter writer = null, bool isReactive = false) { this.Out = (writer ?? Console.Out); this.IsReactive = isReactive; if (!this.IsReactive) { this.Sb = new StringBuilder(); } } public void Dispose() { if (!this.IsReactive) { this.Out.Write(Sb.ToString()); } if (!this.Out.Equals(Console.Out)) { this.Out.Dispose(); } } public void Write(object val) { if (this.IsReactive) { this.Out.Write(val.ToString()); this.Out.Flush(); } else { this.Sb.Append(val.ToString()); } } public void WriteFormat(string format, params object[] vals) { if (this.IsReactive) { this.Out.Write(format, vals); this.Out.Flush(); } else { this.Sb.AppendFormat(format, vals); } } public void WriteLine(object val = null) { this.WriteFormat((val ?? string.Empty).ToString() + Environment.NewLine); } public void WriteLine(int val) { this.WriteLine(val.ToString()); } public void WriteLine(long val) { this.WriteLine(val.ToString()); } public void WriteLine(string val) { this.WriteLine((object)val); } public void WriteLine(string format, params object[] vals) { this.WriteFormat(format + Environment.NewLine, vals); } } class Scanner : IDisposable { private Queue Buffer { get; } private char[] Sep { get; } private System.IO.TextReader Reader { get; } public Scanner(string path, char[] sep = null) : this(new System.IO.StreamReader(path), sep) { } public Scanner(System.IO.TextReader reader = null, char[] sep = null) { this.Buffer = new Queue(); this.Sep = (sep ?? new char[] { ' ' }); this.Reader = (reader ?? Console.In); } private void CheckBuffer() { if (this.Buffer.Count == 0 && this.Reader.Peek() != -1) { string str = string.Empty; for (; string.IsNullOrEmpty(str) || string.IsNullOrWhiteSpace(str); str = this.Reader.ReadLine()) ; var strs = str.Split(this.Sep).Where(el => !(string.IsNullOrEmpty(el) || string.IsNullOrWhiteSpace(el))); foreach (var el in strs) { this.Buffer.Enqueue(el); } } } public void Dispose() { if (!this.Reader.Equals(Console.In)) { this.Reader.Dispose(); } } public string Next() { this.CheckBuffer(); return this.Buffer.Dequeue(); } public string[] GetStringArray(int N) { return Enumerable.Range(0, N) .Select(e => this.Next()) .ToArray(); } public int NextInt() { return int.Parse(this.Next()); } public int[] GetIntArray(int N) { return Enumerable.Range(0, N) .Select(e => this.NextInt()) .ToArray(); } public double NextDouble() { return double.Parse(this.Next()); } public double[] GetdoubleArray(int N) { return Enumerable.Range(0, N) .Select(e => this.NextDouble()) .ToArray(); } public long NextLong() { return long.Parse(this.Next()); } public long[] GetLongArray(int N) { return Enumerable.Range(0, N) .Select(e => this.NextLong()) .ToArray(); } public bool IsEnd { get { this.CheckBuffer(); return this.Buffer.Count == 0; } } } class MainClass : IDisposable { private Scanner Sc { get; } private Writer Wr { get; } static string BackPath { get; } = ".."; private char DirSep { get; } = System.IO.Path.DirectorySeparatorChar; private string InFilePath { get; } = string.Empty; private string OutFilePath { get; } = string.Empty; public MainClass() { this.InFilePath = MainClass.BackPath + this.DirSep + MainClass.BackPath + this.DirSep + "in.txt"; this.OutFilePath = MainClass.BackPath + this.DirSep + MainClass.BackPath + this.DirSep + "out.txt"; this.Wr = new Writer(this.IsReactive); //this.wr = new Writer(this.OutFilePath); #if DEBUG if (!this.IsReactive) { this.Sc = new Scanner(this.InFilePath); } else { this.Sc = new Scanner(); } #else this.Sc = new Scanner(); #endif } static void Main(string[] args) { using (var mainClass = new MainClass()) { mainClass.Solve(); } } public void Dispose() { this.Sc?.Dispose(); this.Wr?.Dispose(); #if DEBUG Console.WriteLine("press any key to continue..."); Console.ReadKey(); #endif } bool IsPrime(long v) { if (v < 2) { return false; } for (long i = 2; i * i <= v; i++) { if (v % i == 0) { return false; } } return true; } Dictionary, bool> dicPrimePoint = new Dictionary, bool>(); Dictionary dicPrime = new Dictionary(); bool Dfs(Pair p, int cnt) { if (!dicPrimePoint.ContainsKey(p)) { if (dicPrime.ContainsKey(p.First) && dicPrime[p.First]) { return false; } if (dicPrime.ContainsKey(p.Second) && dicPrime[p.Second]) { return false; } if (!dicPrime.ContainsKey(p.First)) { dicPrime.Add(p.First, IsPrime(p.First)); } if (!dicPrime.ContainsKey(p.Second)) { dicPrime.Add(p.Second, IsPrime(p.Second)); } if (dicPrime[p.First] || dicPrime[p.Second]) { dicPrimePoint.Add(p, false); } else { var p1 = p.Clone(); var p2 = p.Clone(); p1.First++; p2.Second++; bool foo = Dfs(p1, cnt + 1) && Dfs(p2, cnt + 1); dicPrimePoint.Add(p, cnt % 2 == 0 ^ foo); } } return dicPrimePoint[p]; } void Solve() { long Y = Sc.NextInt(); long X = Sc.NextInt(); Wr.WriteLine(!Dfs(new Pair(X, Y), 0) ? "First" : "Second"); } private bool IsReactive { get; } = false; // TODO: reactive check !! } internal class Pair : IComparable> { public T1 First { get; set; } public T2 Second { get; set; } public Pair() { } public Pair(T1 f, T2 s) { this.First = f; this.Second = s; } public int CompareTo(Pair other) { int ret = 0; if (First is IComparable) { ret = (First as IComparable).CompareTo(other.First); } if (ret == 0 && Second is IComparable) { ret = (Second as IComparable).CompareTo(other.Second); } return ret; } public override bool Equals(object obj) { if (obj is Pair) { var other = obj as Pair; return this.First.Equals(other.First) && this.Second.Equals(other.Second); } else { return false; } } public override int GetHashCode() { return this.First.GetHashCode() ^ this.Second.GetHashCode(); } public Pair Clone() { var p = new Pair(this.First, this.Second); return p; } } }