using System; using System.Collections.Generic; using System.Globalization; using System.IO; using System.Linq; using P = pair; class Program { Scanner cin; Printer cout; void myon() { cin = new Scanner(); cout = new Printer(); int N = cin.nextInt(); String s = cin.next(); long[] A = cin.nextArrayLong(N); var MCF = new MinCostFlow(N + 1); int[] nxt = new int[5]; nxt[0] = N + 1; nxt[1] = N + 1; nxt[2] = N + 1; nxt[3] = N + 1; nxt[4] = N; const String t = "yuki"; const long inf = 1000000000; for(int i = N - 1; i >= 0; i--) { int k = t.IndexOf(s[i]); if (nxt[k] <= N) { MCF.addEdge(i, nxt[k], N / 4, 0); } if (nxt[k + 1] <= N) { MCF.addEdge(i, nxt[k + 1], 1, inf - A[i]); } nxt[k] = i; } if(nxt[0] == N + 1) { cout.println("0"); return; } MCF.addEdge(nxt[0], N, N / 4, inf * 4); cout.println(inf * 4 * (N / 4) - MCF.run(nxt[0], N, N / 4)); } static void Main(string[] args) { new Program().myon(); } } class Printer { public Printer() { var sw = new StreamWriter(Console.OpenStandardOutput()) { AutoFlush = false }; Console.SetOut(sw); } ~Printer() { flush(); } public void println(string a) { Console.WriteLine(a); } public void println(IEnumerable a) { println(string.Join(" ", a)); } public void println(params object[] a) { println(string.Join(" ", a)); } public void print(string a) { Console.Write(a); } public void print(IEnumerable a) { print(string.Join(" ", a)); } public void print(params object[] a) { print(string.Join(" ", a)); } public void printArray(params T[] a) { foreach (var x in a) Console.WriteLine(x); } public void flush() => Console.Out.Flush(); } class Scanner { readonly CultureInfo ci = CultureInfo.InvariantCulture; string[] s; int i; readonly char[] cs = new char[] { ' ' }; public Scanner() { s = new string[0]; i = 0; } public string next() { if (i < s.Length) return s[i++]; string st = Console.ReadLine(); while (st == "") st = Console.ReadLine(); s = st.Split(cs, StringSplitOptions.RemoveEmptyEntries); if (s.Length == 0) return next(); i = 0; return s[i++]; } public string nextLine() { return Console.ReadLine(); } public int nextInt() { return int.Parse(next()); } public long nextLong() { return long.Parse(next()); } public double nextDouble() { return double.Parse(next(), ci); } public int[] nextArrayInt(int N, int add = 0) { int[] ret = new int[N]; for (int i = 0; i < N; i++) { ret[i] = nextInt() + add; } return ret; } public long[] nextArrayLong(int N, long add = 0) { long[] ret = new long[N]; for (int i = 0; i < N; i++) { ret[i] = nextLong() + add; } return ret; } public double[] nextArrayDouble(int N, double add = 0) { double[] ret = new double[N]; for (int i = 0; i < N; i++) { ret[i] = nextDouble() + add; } return ret; } } class pair : IComparable> { public T v1; public U v2; public pair() : this(default(T), default(U)) { } public pair(T v1, U v2) { this.v1 = v1; this.v2 = v2; } public int CompareTo(pair a) { int c = Comparer.Default.Compare(v1, a.v1); return c != 0 ? c : Comparer.Default.Compare(v2, a.v2); } public override string ToString() => v1 + " " + v2; public void Deconstruct(out T a, out U b) { a = v1; b = v2; } } static class util { public static readonly int M = 1000000007; // public static readonly int M = 998244353; public static readonly long LM = 1L << 60; public static readonly double eps = 1e-11; public static void DBG(string a) => Console.Error.WriteLine(a); public static void DBG(IEnumerable a) => DBG(string.Join(" ", a)); public static void DBG(params object[] a) => DBG(string.Join(" ", a)); public static void Assert(params bool[] conds) { if (conds.Any(x => !x)) throw new Exception(); } public static pair make_pair(T v1, U v2) => new pair(v1, v2); public static int CompareList(IList a, IList b) where T : IComparable { for (int i = 0; i < a.Count && i < b.Count; i++) if (a[i].CompareTo(b[i]) != 0) return a[i].CompareTo(b[i]); return a.Count.CompareTo(b.Count); } public static bool inside(int i, int j, int h, int w) => i >= 0 && i < h && j >= 0 && j < w; public static readonly int[] dd = { 0, 1, 0, -1 }; // static readonly string dstring = "RDLU"; public static IEnumerable

adjacents(int i, int j) => Enumerable.Range(0, dd.Length).Select(k => new P(i + dd[k], j + dd[k ^ 1])); public static IEnumerable

adjacents(int i, int j, int h, int w) => adjacents(i, j).Where(p => inside(p.v1, p.v2, h, w)); public static IEnumerable

adjacents(this P p) => adjacents(p.v1, p.v2); public static IEnumerable

adjacents(this P p, int h, int w) => adjacents(p.v1, p.v2, h, w); public static IEnumerable all_subset(this int p) { for (int i = 0; ; i = i - p & p) { yield return i; if (i == p) break; } } public static Dictionary compress(this IEnumerable a) => a.Distinct().OrderBy(v => v).Select((v, i) => new { v, i }).ToDictionary(p => p.v, p => p.i); public static Dictionary compress(params IEnumerable[] a) => compress(a.SelectMany(x => x)); public static T[] inv(this Dictionary dic) { var res = new T[dic.Count]; foreach (var item in dic) res[item.Value] = item.Key; return res; } public static void swap(ref T a, ref T b) where T : struct { var t = a; a = b; b = t; } public static void swap(this IList a, int i, int j) where T : struct { var t = a[i]; a[i] = a[j]; a[j] = t; } public static T[] copy(this IList a) { var ret = new T[a.Count]; for (int i = 0; i < a.Count; i++) ret[i] = a[i]; return ret; } } class MinCostFlow { class edge { public int to, cap, rev; public long cost; public edge(int to, int cap, long cost, int rev) { this.to = to; this.cap = cap; this.cost = cost; this.rev = rev; } } int n; List[] g; public MinCostFlow(int n) { this.n = n; g = new List[n]; for (int i = 0; i < n; i++) g[i] = new List(); } public void addEdge(int from, int to, int cap, long cost) { g[from].Add(new edge(to, cap, cost, g[to].Count)); g[to].Add(new edge(from, 0, -cost, g[from].Count - 1)); } public long run(int s, int t, int f) { long res = 0; var h = new long[n]; while (f > 0) { var q = new PriorityQueue>() { rev = true }; var dist = new long[n]; var prevv = new int[n]; var preve = new int[n]; for (int i = 0; i < n; i++) dist[i] = util.LM; dist[s] = 0; q.Push(new pair(0, s)); while (q.Count > 0) { var p = q.Pop(); int v = p.v2; if (dist[v] < p.v1) continue; for (int i = 0; i < g[v].Count; ++i) { var e = g[v][i]; if (e.cap > 0 && dist[e.to] > dist[v] + e.cost + h[v] - h[e.to]) { dist[e.to] = dist[v] + e.cost + h[v] - h[e.to]; prevv[e.to] = v; preve[e.to] = i; q.Push(new pair(dist[e.to], e.to)); } } } if (dist[t] == util.LM) break; for (int v = 0; v < n; ++v) h[v] += dist[v]; int d = f; for (int v = t; v != s; v = prevv[v]) d = Math.Min(d, g[prevv[v]][preve[v]].cap); f -= d; res += d * h[t]; for (int v = t; v != s; v = prevv[v]) { var e = g[prevv[v]][preve[v]]; e.cap -= d; g[v][e.rev].cap += d; } } return res; } } // the greatest element pops class PriorityQueue { List buf; public bool rev = false; Func cmp; public PriorityQueue() { buf = new List(); cmp = (i, j) => Comparer.Default.Compare(buf[i], buf[j]) * (rev ? -1 : 1); } public PriorityQueue(Func cmp) { buf = new List(); this.cmp = (i, j) => cmp(buf[i], buf[j]); } void swap(int i, int j) { var t = buf[i]; buf[i] = buf[j]; buf[j] = t; } public void Push(T elem) { int n = buf.Count; buf.Add(elem); while (n > 0) { int i = (n - 1) >> 1; if (cmp(n, i) <= 0) break; swap(i, n); n = i; } } public T Pop() { T ret = buf[0]; int n = buf.Count - 1; buf[0] = buf[n]; buf.RemoveAt(n); for (int i = 0, j; (j = (i << 1) | 1) < n; i = j) { if (j != n - 1 && cmp(j, j + 1) < 0) ++j; if (cmp(i, j) < 0) swap(i, j); else break; } return ret; } public T Top => buf[0]; public int Count => buf.Count; }