using System; using System.Collections.Generic; using System.Globalization; using System.IO; using System.Linq; partial class Solver { static public bool UpdateMax(ref T x, T newValue) where T : IComparable { if (x.CompareTo(newValue) < 0) { x = newValue; return true; } return false; } public void Run() { var N = ni(); var Q = ni(); var a = ni(N); var tree = new SegmentTreeImpl(); tree.Build(a.Select(x => new NodeValue { Left = x, Middle = x, Right = x, Sum = x }).ToArray()); for (int t = 0; t < Q; t++) { var type = ns(); if (type == "set") { var i = ni() - 1; var x = ni(); tree.Update(i, new NodeValue { Left = x, Middle = x, Right = x, Sum = x }); } else { var l1 = ni() - 1; var l2 = ni() - 1; var r1 = ni() - 1; var r2 = ni() - 1; if (r1 < l1) r1 = l1; if (r2 < l2) l2 = r2; long ans = 0; if (l2 < r1) // [l1 .. l2] < [r1 .. r2] { var left = tree.Query(l1, l2 + 1); var right = tree.Query(r1, r2 + 1); var middle = (l2 + 1 < r1) ? tree.Query(l2 + 1, r1) : default(NodeValue); ans = left.Right + middle.Sum + right.Left; } else { var m1 = r1; var m2 = l2; var left = l1 < m1 ? tree.Query(l1, m1) : default(NodeValue); var middle = (m1 < m2 + 1) ? tree.Query(m1, m2 + 1) : default(NodeValue); var right = (m2 + 1 < r2 + 1) ? tree.Query(m2 + 1, r2 + 1) : default(NodeValue); ans = long.MinValue; UpdateMax(ref ans, middle.MaxValue); UpdateMax(ref ans, left.Right + middle.Sum + right.Left); UpdateMax(ref ans, left.Right + middle.Left); UpdateMax(ref ans, middle.Right + right.Left); } cout.WriteLine(ans); } } } } public struct NodeValue { public long Left { get; set; } public long Middle { get; set; } public long Right { get; set; } public long Sum { get; set; } public long MaxValue => new[] { Left, Middle, Right }.Max(); } public class SegmentTreeImpl : SegmentTree { protected override NodeValue Merge(NodeValue x, NodeValue y) { return new NodeValue { Sum = x.Sum + y.Sum, Left = Math.Max(x.Left, x.Sum + y.Left), Middle = Math.Max(Math.Max(Math.Max(Math.Max(x.Middle, y.Middle), x.Right + y.Left), x.Right), y.Left), Right = Math.Max(y.Right, y.Sum + x.Right), }; } } public abstract class SegmentTree where TNodeValue : struct { protected int N { get; private set; } protected TNodeValue?[] node; protected static int Left(int p) { return p * 2 + 1; } protected static int Right(int p) { return p * 2 + 2; } public SegmentTree() { } public void Build(IList array) { Build(array.Count, i => array[i]); } virtual public void Build(int _n, Func create) { N = 1; while (N < _n) N *= 2; node = new TNodeValue?[2 * N]; for (int i = 0; i < _n; i++) node[i + N - 1] = create(i); for (int i = N - 2; i >= 0; i--) node[i] = Merge(node[Left(i)], node[Right(i)]); } protected TNodeValue? Merge(TNodeValue? left, TNodeValue? right) { if (left != null && right != null) return Merge(left.Value, right.Value); if (left == null) return right; if (right == null) return left; return null; } protected abstract TNodeValue Merge(TNodeValue left, TNodeValue right); public void Update(int index, TNodeValue val) { int p = index + N - 1; node[p] = val; while (p > 0) { p = (p - 1) / 2; node[p] = Merge(node[Left(p)], node[Right(p)]); } } protected virtual TNodeValue? Query(int begin, int end, int k, int l, int r) { if (r <= begin || end <= l) return null; if (begin <= l && r <= end) return node[k]; int mid = (l + r) / 2; return Merge( Query(begin, end, Left(k), l, mid), Query(begin, end, Right(k), mid, r) ); } public TNodeValue Query(int begin, int end) { return Query(begin, end, 0, 0, N).Value; } }; // PREWRITEN CODE BEGINS FROM HERE partial class Solver : Scanner { public static void Main(string[] args) { new Solver(Console.In, Console.Out).Run(); } TextReader cin; TextWriter cout; public Solver(TextReader reader, TextWriter writer) : base(reader) { this.cin = reader; this.cout = writer; } public Solver(string input, TextWriter writer) : this(new StringReader(input), writer) { } public int ni() { return NextInt(); } public int[] ni(int n) { return NextIntArray(n); } public long nl() { return NextLong(); } public long[] nl(int n) { return NextLongArray(n); } public double nd() { return NextDouble(); } public string ns() { return Next(); } public string[] ns(int n) { return NextArray(n); } } public class Scanner { private TextReader Reader; private Queue TokenQueue = new Queue(); private CultureInfo ci = CultureInfo.InvariantCulture; public Scanner() : this(Console.In) { } public Scanner(TextReader reader) { this.Reader = reader; } public int NextInt() { return Int32.Parse(Next(), ci); } public long NextLong() { return Int64.Parse(Next(), ci); } public double NextDouble() { return double.Parse(Next(), ci); } public string[] NextArray(int size) { var array = new string[size]; for (int i = 0; i < size; i++) array[i] = Next(); return array; } public int[] NextIntArray(int size) { var array = new int[size]; for (int i = 0; i < size; i++) array[i] = NextInt(); return array; } public long[] NextLongArray(int size) { var array = new long[size]; for (int i = 0; i < size; i++) array[i] = NextLong(); return array; } public String Next() { if (TokenQueue.Count == 0) { if (!StockTokens()) throw new InvalidOperationException(); } return TokenQueue.Dequeue(); } public bool HasNext() { if (TokenQueue.Count > 0) return true; return StockTokens(); } private bool StockTokens() { while (true) { var line = Reader.ReadLine(); if (line == null) return false; var tokens = line.Trim().Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries); if (tokens.Length == 0) continue; foreach (var token in tokens) TokenQueue.Enqueue(token); return true; } } }