namespace AtCoder; #nullable enable using System.Numerics; static class Extensions { public static T[] Repeat(this int time, Func F) => Enumerable.Range(0, time).Select(_ => F()).ToArray(); } abstract class SegmentTree { public interface IOperator { TMonoid IdentityElement { get; } TMonoid Operation(TMonoid x, TMonoid y); } public interface IBinarySearchOperator { bool F(TMonoid value); } public class Body where TOperator : struct, IOperator { public int BaseSize { get; init; } protected int Height { get; init; } protected TOperator Op { get; init; } protected TMonoid[] Values { get; init; } public Body(TMonoid[] initial, TOperator op = default) { Op = op; (BaseSize, Height) = (1, 0); while (BaseSize < initial.Length) (BaseSize, Height) = (BaseSize << 1, Height + 1); var size = BaseSize << 1; Values = new TMonoid[size]; for (var i = 0; i < size; i++) Values[i] = op.IdentityElement; for (var i = 0; i < initial.Length; i++) Values[i + BaseSize] = initial[i]; for (var i = BaseSize - 1; i > 0; i--) Update(i); } public TMonoid Product(int l, int r) { (l, r) = (l + BaseSize, r + BaseSize); var (resL, resR) = (Op.IdentityElement, Op.IdentityElement); while (l < r) { if ((l & 1) == 1) resL = Op.Operation(resL, Values[l++]); if ((r & 1) == 1) resR = Op.Operation(Values[--r], resR); (l, r) = (l >> 1, r >> 1); } return Op.Operation(resL, resR); } public void Set(int index, TMonoid value) { var j = index + BaseSize; Values[j] = value; for (var i = 1; i <= Height; i++) Update(j >> i); } // the result might be greater than n public int MinIndex(TMinIndexOperator op = default) where TMinIndexOperator : struct, IBinarySearchOperator { if (!op.F(Values[1])) return BaseSize + 1; var product = Op.IdentityElement; var (res, w, i) = (0, BaseSize, 1); while (w > 0) { var p = Op.Operation(product, Values[i]); if (!op.F(p)) { res += w; i++; product = p; } w >>= 1; i <<= 1; } return res + 1; } protected void Update(int k) { Values[k] = Op.Operation(Values[k << 1], Values[(k << 1) + 1]); } } } abstract class LazySegmentTree { public interface IOperator : SegmentTree.IOperator { TFunction IdentityFunction { get; } TMonoid Mapping(TFunction f, TMonoid x); TFunction Composition(TFunction f, TFunction g); } public class Body : SegmentTree.Body where TOperator : struct, IOperator { TFunction[] Lazy { get; init; } public Body(TMonoid[] initial, TOperator op = default) : base(initial, op) { var size = BaseSize << 1; Lazy = new TFunction[size]; for (var i = 0; i < size; i++) Lazy[i] = op.IdentityFunction; } public new TMonoid Product(int l, int r) { if (l == r) return Op.IdentityElement; Ascend(l, r); return base.Product(l, r); } public new void Set(int index, TMonoid value) { var j = index + BaseSize; for (var i = Height; i >= 1; i--) Propagate(j >> i); Values[j] = value; for (var i = 1; i <= Height; i++) Update(j >> i); } public void Apply(int l, int r, TFunction f) { if (l == r) return; Ascend(l, r); (l, r) = (l + BaseSize, r + BaseSize); var (l2, r2) = (l, r); while (l2 < r2) { if ((l2 & 1) == 1) Apply(l2++, f); if ((r2 & 1) == 1) Apply(--r2, f); (l2, r2) = (l2 >> 1, r2 >> 1); } for (int i = 1; i <= Height; i++) { if (((l >> i) << i) != l) Update(l >> i); if (((r >> i) << i) != r) Update((r - 1) >> i); } } void Ascend(int l, int r) { (l, r) = (l + BaseSize, r + BaseSize); for (int i = Height; i >= 1; i--) { if (((l >> i) << i) != l) Propagate(l >> i); if (((r >> i) << i) != r) Propagate((r - 1) >> i); } } void Propagate(int k) { Apply(k << 1, Lazy[k]); Apply((k << 1) + 1, Lazy[k]); Lazy[k] = Op.IdentityFunction; } void Apply(int k, TFunction f) { Values[k] = Op.Mapping(f, Values[k]); if (k < BaseSize) Lazy[k] = Op.Composition(Lazy[k], f); } } } readonly struct Op : LazySegmentTree<(int[,], int), (int, int)>.IOperator { public (int, int) IdentityFunction => (0, -1); public (int[,], int) IdentityElement => (new int[4, 4], 0); public (int, int) Composition((int, int) f, (int, int) g) { if (g.Item2 < 0) return f; return g; } public (int[,], int) Mapping((int, int) f, (int[,], int) x) { var (fv, fc) = f; if (fc < 0) return x; var a = new int[4, 4]; var xc = x.Item2; a[fc, fc] = xc; return (a, xc); } public (int[,], int) Operation((int[,], int) x, (int[,], int) y) { var (xa, xc) = x; var (ya, yc) = y; var a = new int[4, 4]; for (var fi = 0; fi < 4; fi++) for (var fj = fi; fj < 4; fj++) { for (var gi = fj; gi < 4; gi++) for (var gj = gi; gj < 4; gj++) { a[fi, gj] = Math.Max(a[fi, gj], xa[fi, fj] + ya[gi, gj]); } } return (a, xc + yc); } } class AtCoder { object? Solve() { var n = Int(); var init = new (int[,], int)[n]; for (var i = 0; i < n; i++) { var v = Int() - 1; var a = new int[4, 4]; a[v, v] = 1; init[i] = (a, 1); } var tree = new LazySegmentTree<(int[,], int), (int, int)>.Body(init); var ans = new List(); var q = Int(); for (var i = 0; i < q; i++) { var t = Int(); var l = Int() - 1; var r = Int(); if (t == 1) { var tns = 0; var (a, _) = tree.Product(l, r); for (var x = 0; x < 4; x++) for (var y = x; y < 4; y++) tns = Math.Max(tns, a[x, y]); ans.Add(tns); } else { var x = Int() - 1; tree.Apply(l, r, (0, x)); } } 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 }; #pragma warning disable IDE0051 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(); } #pragma warning restore IDE0051 }