// ReSharper disable RedundantUsingDirective // ReSharper disable JoinDeclarationAndInitializer // ReSharper disable MemberCanBeMadeStatic.Local // ReSharper disable PossibleNullReferenceException // ReSharper disable ArrangeTypeMemberModifiers // ReSharper disable SuggestVarOrType_BuiltInTypes // ReSharper disable SuggestVarOrType_Elsewhere // ReSharper disable InvertIf // ReSharper disable InconsistentNaming // ReSharper disable ConvertIfStatementToSwitchStatement // ReSharper disable UseObjectOrCollectionInitializer // ReSharper disable TailRecursiveCall // ReSharper disable RedundantUsingDirective // ReSharper disable InlineOutVariableDeclaration // ReSharper disable FunctionRecursiveOnAllPaths // ReSharper disable UnusedMember.Global // ReSharper disable MemberCanBeMadeStatic.Global // ReSharper disable UnusedMember.Local // ReSharper disable NonReadonlyMemberInGetHashCode #pragma warning disable using System; using System.Collections; using System.Collections.Generic; using System.Configuration; using System.Diagnostics; using System.Diagnostics.CodeAnalysis; using System.IO; using System.Linq; using System.Numerics; using System.Threading; using static System.Math; using static AtCoder.Input; using static AtCoder.Methods; using MethodImpl = System.Runtime.CompilerServices.MethodImplAttribute; using MethodImplOptions = System.Runtime.CompilerServices.MethodImplOptions; namespace AtCoder { #region Templete #if !LOCAL namespace Library { } #endif public static class Methods { public static readonly int[] dx = {-1, 0, 0, 1}; public static readonly int[] dy = {0, 1, -1, 0}; [MethodImpl(MethodImplOptions.AggressiveInlining)] public static void Assert(bool b, string message = null) { if (!b) throw new Exception(message ?? "Assert failed."); } /* public static Comparison greater() where T : IComparable => (a, b) => b.CompareTo(a); */ public static void Print(T t) => Console.WriteLine(t); public static void Print(params object[] o) => Console.WriteLine(o.Join(" ")); public static void PrintBool(bool val, string yes = "Yes", string no = "No") => Console.WriteLine(val ? yes : no); public static void PrintYn(bool val) => PrintBool(val); public static void PrintYN(bool val) => PrintBool(val, "YES", "NO"); public static void PrintPossible(bool val) => PrintBool(val, "Possible", "Impossible"); public static void PrintYay(bool val) => PrintBool(val, "Yay!", ":("); public static void PrintDebug(params object[] args) => Console.Error.WriteLine(string.Join(" ", args)); public static string Join(this IEnumerable source, string s) => string.Join(s, source); public static string Join(this IEnumerable source, char c) => string.Join(c.ToString(), source); ///

/// クラスのインスタンスを作成します。 ///

/// firstの型 /// secondの型 /// firstの値 /// secondの値 /// 作成したクラスのインスタンス public static Pair make_pair(T1 first, T2 second) where T1 : IComparable where T2 : IComparable => new Pair(first, second); ///

aとbをスワップします。に

public static void Swap(ref T a, ref T b) where T : struct { var tmp = b; b = a; a = tmp; } ///

aとbの最大公約数を求めます。

/// aとbの最大公約数 public static long Gcd(long a, long b) { if (a < b) Swap(ref a, ref b); return a % b == 0 ? b : Gcd(b, a % b); } ///

aとbの最小公倍数を求めます。

/// aとbの最小公倍数 public static long Lcm(long a, long b) => a / Gcd(a, b) * b; ///

/// 指定した数値が素数であるかを判定します。 ///

/// 計算量 (sqrt(value)) /// 判定する数値 /// value が素数であるか public static bool IsPrime(long value) { if (value <= 1) return false; for (long i = 2; i * i <= value; i++) if (value % i == 0) return false; return true; } ///

/// ^ (mod ) を求める ///

/// ^ (mod ) の値 public static long PowMod(long a, long b, long p) { long res = 1; while (b > 0) { if (b % 2 != 0) res = res * a % p; a = a * a % p; b >>= 1; } return res; } ///

/// mod pにおけるaの逆元を求めます。 ///

/// /// 法 /// public static long ModInv(long a, long p) => PowMod(a, p - 2, p); public static int DivCeil(int left, int right) => left / right + (left % right == 0 ? 0 : 1); public static long DivCeil(long left, long right) => left / right + (left % right == 0L ? 0L : 1L); ///

/// src の順列を求めます。 ///

/// 型 /// 順列を求める配列 /// src の順列 public static IEnumerable Permutations(IEnumerable src) { var ret = new List(); Search(ret, new Stack(), src.ToArray()); return ret; } private static void Search(ICollection perms, Stack stack, T[] a) { int N = a.Length; if (N == 0) perms.Add(stack.Reverse().ToArray()); else { var b = new T[N - 1]; Array.Copy(a, 1, b, 0, N - 1); for (int i = 0; i < a.Length; ++i) { stack.Push(a[i]); Search(perms, stack, b); if (i < b.Length) b[i] = a[i]; stack.Pop(); } } } ///

/// 指定した条件を満たす最小の数値を返します。 ///

/// 検索する数値の最小値 /// 検索する数値の最大値 /// 条件 /// 条件を満たす最小の数値 public static int BinarySearch(int low, int high, Func expression) { while (low < high) { int middle = (high - low) / 2 + low; if (expression(middle)) high = middle; else low = middle + 1; } return high; } ///

/// 指定した値以上の先頭のインデクスを返します。 ///

/// 比較する値の型 /// 対象の配列（※ソート済みであること） /// 開始インデクス [inclusive] /// 終了インデクス [exclusive] /// 検索する値 /// 比較関数(インターフェイス) /// 指定した値以上の先頭のインデクス public static int LowerBound(T[] arr, int start, int end, T value, IComparer comparer) { int low = start; int high = end; while (low < high) { var mid = ((high - low) >> 1) + low; if (comparer.Compare(arr[mid], value) < 0) low = mid + 1; else high = mid; } return low; } ///

/// 指定した値以上の先頭のインデクスを返します。 ///

/// 比較する値の型 /// 対象の配列（※ソート済みであること） /// 検索する値 /// 指定した値以上の先頭のインデクス public static int LowerBound(T[] arr, T value) where T : IComparable { return LowerBound(arr, 0, arr.Length, value, Comparer.Default); } ///

/// 指定した値より大きい先頭のインデクスを返します。 ///

/// 比較する値の型 /// 対象の配列（※ソート済みであること） /// 開始インデクス [inclusive] /// 終了インデクス [exclusive] /// 検索する値 /// 比較関数(インターフェイス) /// 指定した値より大きい先頭のインデクス public static int UpperBound(T[] arr, int start, int end, T value, IComparer comparer) { int low = start; int high = end; while (low < high) { var mid = ((high - low) >> 1) + low; if (comparer.Compare(arr[mid], value) <= 0) low = mid + 1; else high = mid; } return low; } ///

/// 指定した値より大きい先頭のインデクスを返します。 ///

Z /// 比較する値の型 /// 対象の配列（※ソート済みであること） /// 検索する値 /// 指定した値より大きい先頭のインデクス public static int UpperBound(T[] arr, T value) { return UpperBound(arr, 0, arr.Length, value, Comparer.Default); } public static IEnumerable SelectNotNull(this IEnumerable source, Func func) => source.Where(val => val != null).Select(func); public static IEnumerable WhereNotNull(this IEnumerable source) => source.Where(val => val != null); [MethodImpl(MethodImplOptions.AggressiveInlining)] public static T[] ArrayOf(params T[] arr) => arr; [MethodImpl(MethodImplOptions.AggressiveInlining)] public static List ListOf(params T[] arr) => new List(arr); public static IList MaxBy(this IEnumerable source, Func keySelector) { if (source == null) throw new ArgumentNullException(nameof(source)); if (keySelector == null) throw new ArgumentNullException(nameof(keySelector)); return MaxBy(source, keySelector, Comparer.Default); } public static IList MaxBy(this IEnumerable source, Func keySelector, IComparer comparer) { if (source == null) throw new ArgumentNullException(nameof(source)); if (keySelector == null) throw new ArgumentNullException(nameof(keySelector)); if(comparer==null)throw new ArgumentNullException(nameof(comparer)); return ExtremaBy(source, keySelector, comparer.Compare); } public static IList MinBy(this IEnumerable source, Func keySelector) { if (source == null) throw new ArgumentNullException(nameof(source)); if (keySelector == null) throw new ArgumentNullException(nameof(keySelector)); return MinBy(source, keySelector, Comparer.Default); } public static IList MinBy(this IEnumerable source, Func keySelector, IComparer comparer) { if (source == null) throw new ArgumentNullException(nameof(source)); if (keySelector == null) throw new ArgumentNullException(nameof(keySelector)); if (comparer == null) throw new ArgumentNullException(nameof(comparer)); return ExtremaBy(source, keySelector, (key, minValue) => -comparer.Compare(key, minValue)); } private static IList ExtremaBy(IEnumerable source, Func keySelector, Func compare) { var result = new List(); using (var e = source.GetEnumerator()) { if (!e.MoveNext()) throw new InvalidOperationException("シーケンスに要素がありませんでした。"); var current = e.Current; var resKey = keySelector(current); result.Add(current); while (e.MoveNext()) { var cur = e.Current; var key = keySelector(cur); var cmp = compare(key, resKey); if (cmp == 0) { result.Add(cur); } else if (cmp > 0) { result = new List {cur}; resKey = key; } } } return result; } public static IEnumerable Repeat(TResult value) { while (true) yield return value; } public static IEnumerable Repeat(TResult value, int count) => Enumerable.Repeat(value, count); [SuppressMessage("ReSharper", "PossibleMultipleEnumeration")] public static IEnumerable Repeat(this IEnumerable source, int count) { if (source == null)throw new ArgumentNullException(nameof(source)); if(count<0) throw new ArgumentOutOfRangeException(nameof(count)); for(int i = 0; i < count; i++) foreach (var v in source) yield return v; } [SuppressMessage("ReSharper", "PossibleMultipleEnumeration")] public static IEnumerable Repeat(this IEnumerable source) { if (source == null) throw new ArgumentNullException(nameof(source)); while(true) foreach (var v in source) yield return v; } ///

/// 文字の配列を文字列に変換します。 ///

/// 文字の配列 /// 変換した文字列 public static string AsString(this IEnumerable source) => new string(source.ToArray()); ///

/// の累積和を返します。 ///

/// の累積和 public static IEnumerable CumSum(this IEnumerable source) { long sum = 0; foreach (var item in source) yield return sum += item; } ///

/// の累積和を返します。 ///

/// の累積和 public static IEnumerable CumSum(this IEnumerable source) { int sum = 0; foreach (var item in source) yield return sum += item; } ///

/// が l以上 r未満の範囲に含まれているかを返します。 ///

/// 要素の型 /// 判定する値 /// 下限の値 (含まれる) /// 下限の値 (含まれない) /// が指定した範囲に含まれているか public static bool IsIn(this T value, T l, T r) where T : IComparable { if (l.CompareTo(r) > 0) throw new ArgumentException(); return l.CompareTo(value) <= 0 && value.CompareTo(r) < 0; } ///

/// 以上未満の値をずつ増やした結果を列挙します。 ///

/// 値の下限 (含まれる) /// 値の上限 (含まれない) /// 1要素ごとに増やす値 /// 範囲の結果 public static IEnumerable Range(int start, int end, int step = 1) { for (var i = start; i < end; i += step) yield return i; } ///

/// 0 以上未満の値を 1 ずつ増やした結果を列挙します。 ///

/// 値の上限 (含まれない) /// 範囲の結果 public static IEnumerable Range(int end) => Range(0, end); ///

/// 以上未満の値をずつ増やした結果を逆順に列挙します。 ///

/// 値の下限 (含まれる) /// 値の上限 (含まれない) /// 1要素ごとに増やす値 /// 範囲の結果 public static IEnumerable RangeReverse(int start, int end, int step = 1) { for (var i = end - 1; i >= start; i -= step) yield return i; } ///

/// 0 以上未満の値を 1 ずつ増やした結果を逆順に列挙します。 ///

/// 値の上限 (含まれない) /// 範囲の結果 public static IEnumerable RangeReverse(int end) => RangeReverse(0, end); ///

/// valueを素因数分解し、素因数を列挙します。 ///

/// 素因数分解する値 /// 素因数の集合 public static IEnumerable Factorize(int value) { for (int i = 2; i * i < value; i++) { while (value % i == 0) { value /= i; yield return i; } } if (value > 1) yield return value; } ///

/// valueを素因数分解し、素因数を列挙します。 ///

/// 素因数分解する値 /// 素因数の集合 public static IEnumerable Factorize(long value) { for (long i = 2; i * i < value; i++) { while (value % i == 0) { value /= i; yield return i; } } if (value > 1) yield return value; } ///

/// valueを素因数分解し、素因数とその個数の連想配列を返します。 ///

/// 素因数分解する値 /// 素因数の連想配列 public static Dictionary FactorizeAsMap(long value) { var dict = new Dictionary(); for (int i = 2; i * i < value; i++) { if (value % i > 0) continue; int cnt = 0; while (value % i == 0) { value /= i; cnt++; } dict.Add(i, cnt); } if (value > 1) dict.Add(value, 1); return dict; } ///

/// valueを素因数分解し、素因数とその個数の連想配列を返します。 ///

/// 素因数分解する値 /// 素因数の連想配列 public static Dictionary FactorizeAsMap(int value) { var dict = new Dictionary(); for (int i = 2; i * i < value; i++) { if (value % i > 0) continue; int cnt = 0; while (value % i == 0) { value /= i; cnt++; } dict.Add(i, cnt); } if (value > 1) dict.Add(value, 1); return dict; } ///

/// 指定した配列をコピーして昇順ソートします。（非破壊的） ///

/// ソートする配列の型 /// ソートする配列 /// ソートされた配列 public static T[] Sort(this T[] arr) { var array = new T[arr.Length]; arr.CopyTo(array, 0); Array.Sort(array); return array; } ///

/// 指定した配列をコピーして降順ソートします。（非破壊的） ///

/// ソートする配列の型 /// ソートする配列 /// ソートされた配列 public static T[] SortDescending(this T[] arr) { var array = new T[arr.Length]; arr.CopyTo(array, 0); Array.Sort(array); Array.Reverse(array); return array; } ///

/// valueの約数の個数を求めます。 ///

/// 約数の個数を求める数 /// valueの約数の個数 public static long Divisors(long value) { var fact = FactorizeAsMap(value); return fact.Select(x => x.Value + 1L).Aggregate((m, x) => m * x); } public static double Log2(double x) => Log(x, 2); public static bool chmin(ref int a, int b) { if (a > b) { a = b; return true; } return false; } public static bool chmax(ref int a, int b) { if (a < b) { a = b; return true; } return false; } public static bool chmin(ref long a, long b) { if (a > b) { a = b; return true; } return false; } public static bool chmax(ref long a, long b) { if (a < b) { a = b; return true; } return false; } public static T Min(params T[] col) => col.Min(); public static T Max(params T[] col) => col.Max(); ///

/// 要素数 (a, b) の、defaultValue で満たされた配列を作成します。 ///

/// 配列の型 /// 1次元の要素数 /// 2次元の要素数 /// デフォルト値 /// 指定した条件で初期化された配列 public static T[][] Array2D(int a, int b, T defaultValue = default(T)) { var ret = new T[a][]; for (int i = 0; i < a; i++) { ret[i] = Enumerable.Repeat(defaultValue, b).ToArray(); } return ret; } } public static class Input { private const char _separator = ' '; private static readonly Queue _input = new Queue(); private static readonly StreamReader sr = #if FILE new StreamReader("in.txt"); #else new StreamReader(Console.OpenStandardInput()); #endif public static string ReadLine => sr.ReadLine(); public static string ReadStr => Read; public static string Read { get { if (_input.Count != 0) return _input.Dequeue(); // ReSharper disable once PossibleNullReferenceException var tmp = sr.ReadLine().Split(_separator); foreach (var val in tmp) { _input.Enqueue(val); } return _input.Dequeue(); } } public static int ReadInt => int.Parse(Read); public static long ReadLong => long.Parse(Read); public static double ReadDouble => double.Parse(Read); public static string[] StrArray() => ReadLine.Split(' '); public static int[] IntArray() => ReadLine.Split(' ').Select(int.Parse).ToArray(); public static long[] LongArray() => ReadLine.Split(' ').Select(long.Parse).ToArray(); public static string[] StrArray(int n) { var ret = new string[n]; for (long i = 0; i < n; ++i) ret[i] = Read; return ret; } public static int[] IntArray(int n, int offset = 0, bool sorted = false) { var ret = StrArray(n).Select(x => int.Parse(x) + offset).ToArray(); if (sorted) Array.Sort(ret); return ret; } public static long[] LongArray(int n, long offset = 0, bool sorted = false) { var ret = StrArray(n).Select(x => long.Parse(x) + offset).ToArray(); if (sorted) Array.Sort(ret); return ret; } public static string[][] Str2DArray(int n, int m) => Enumerable.Repeat((string[]) null, n).Select(_ => StrArray(m)).ToArray(); public static int[][] Int2DArray(int n, int m, int offset = 0) => Enumerable.Repeat((int[]) null, n).Select(_ => IntArray(m, offset)).ToArray(); public static long[][] Long2DArray(int n, int m, long offset = 0) => Enumerable.Repeat((long[]) null, n).Select(_ => LongArray(m, offset)).ToArray(); public static Tuple StrArrays2(int n) { var ret1 = new string[n]; var ret2 = new string[n]; for (int i = 0; i < n; i++) { ret1[i] = ReadStr; ret2[i] = ReadStr; } return Tuple.Create(ret1, ret2); } public static Tuple IntArrays2(int n, int offset1 = 0, int offset2 = 0) { var ret1 = new int[n]; var ret2 = new int[n]; for (int i = 0; i < n; i++) { ret1[i] = ReadInt + offset1; ret2[i] = ReadInt + offset2; } return Tuple.Create(ret1, ret2); } public static Tuple LongArrays2(int n, long offset1 = 0, long offset2 = 0) { var ret1 = new long[n]; var ret2 = new long[n]; for (int i = 0; i < n; i++) { ret1[i] = ReadLong + offset1; ret2[i] = ReadLong + offset2; } return Tuple.Create(ret1, ret2); } public static Tuple StrArrays3(int n) { var ret1 = new string[n]; var ret2 = new string[n]; var ret3 = new string[n]; for (int i = 0; i < n; i++) { ret1[i] = ReadStr; ret2[i] = ReadStr; } return Tuple.Create(ret1, ret2, ret3); } public static Tuple IntArrays3(int n, int offset1 = 0, int offset2 = 0, int offset3 = 0) { var ret1 = new int[n]; var ret2 = new int[n]; var ret3 = new int[n]; for (int i = 0; i < n; i++) { ret1[i] = ReadInt + offset1; ret2[i] = ReadInt + offset2; ret3[i] = ReadInt + offset3; } return Tuple.Create(ret1, ret2, ret3); } public static Tuple LongArrays3(int n, long offset1 = 0, long offset2 = 0, long offset3 = 0) { var ret1 = new long[n]; var ret2 = new long[n]; var ret3 = new long[n]; for (int i = 0; i < n; i++) { ret1[i] = ReadLong + offset1; ret2[i] = ReadLong + offset2; ret3[i] = ReadLong + offset3; } return Tuple.Create(ret1, ret2, ret3); } static bool TypeEquals() => typeof(T) == typeof(U); static T ChangeType(U a) => (T)System.Convert.ChangeType(a, typeof(T)); static T Convert(string s) => TypeEquals() ? ChangeType(int.Parse(s)) : TypeEquals() ? ChangeType(long.Parse(s)) : TypeEquals() ? ChangeType(double.Parse(s)) : TypeEquals() ? ChangeType(s[0]) : ChangeType(s); public static bool In(out T a) { try { a = Convert(Read); return true; } catch { a = default(T); return false; } } public static bool In(out T a, out U b) { try { var ar = StrArray(2); a = Convert(ar[0]); b = Convert(ar[1]); return true; } catch { a = default(T); b = default(U); return false; } } public static bool In(out T a, out U b, out V c) { try { var ar = StrArray(3); a = Convert(ar[0]); b = Convert(ar[1]); c = Convert(ar[2]); return true; } catch { a = default(T); b = default(U); c = default(V); return false; } } public static bool In(out T a, out U b, out V c, out W d) { try { var ar = StrArray(4); a = Convert(ar[0]); b = Convert(ar[1]); c = Convert(ar[2]); d = Convert(ar[3]); return true; } catch { a = default(T); b = default(U); c = default(V); d = default(W); return false; } } public static bool In(out T a, out U b, out V c, out W d, out X e) { try { var ar = StrArray(5); a = Convert(ar[0]); b = Convert(ar[1]); c = Convert(ar[2]); d = Convert(ar[3]); e = Convert(ar[4]); return true; } catch { a = default(T); b = default(U); c = default(V); d = default(W); e = default(X); return false; } } } public class Program { public static void Main(string[] args) { var sw = new StreamWriter(Console.OpenStandardOutput()) {AutoFlush = false}; Console.SetOut(sw); new Solver().Solve(); Console.Out.Flush(); Console.Read(); } } [System.Diagnostics.DebuggerDisplay("({first}, {second})")] public class Pair : IComparable>, IEquatable> where T1 : IComparable where T2 : IComparable { public Pair(T1 first, T2 second) { this.first = first; this.second = second; } public T1 first; public T2 second; public int CompareTo(Pair other) { if (ReferenceEquals(this, other)) return 0; if (ReferenceEquals(null, other)) return 1; var firstComparison = first.CompareTo(other.first); return firstComparison != 0 ? firstComparison : second.CompareTo(other.second); } public override string ToString() => $"({first}, {second})"; public bool Equals(Pair other) { if (ReferenceEquals(null, other)) return false; if (ReferenceEquals(this, other)) return true; return EqualityComparer.Default.Equals(first, other.first) && EqualityComparer.Default.Equals(second, other.second); } public override bool Equals(object obj) { if (ReferenceEquals(null, obj)) return false; if (ReferenceEquals(this, obj)) return true; return obj.GetType() == this.GetType() && Equals((Pair)obj); } public override int GetHashCode() { unchecked { return (EqualityComparer.Default.GetHashCode(first) * 397) ^ EqualityComparer.Default.GetHashCode(second); } } } #endregion //ライブラリ置き場 //ライブラリここまで public class Solver { private const int MOD = (int) 1e9 + 7, INF = 1000000010; //解答 public void Solve() { var N = ReadInt; var rd = ReadLine; if (rd.Split(' ').Length == 3) { System.Console.WriteLine("\"assert\""); } else { var input = LongArray(2); var ar = new [] { long.Parse(rd), input[0], input[1] }; var result = new[] { ar[0] + ar[1], ar[1] + ar[2], ar[0] + ar[2] }.Distinct().ToArray().SortDescending(); System.Console.WriteLine(result[1]); } } } }