void main() { runSolver(); } void problem() { auto V = scan!int(4); auto N = scan!long; auto solve() { auto vt = new int[][](100001, 5); vt[0][0] = V[0]; int[int[]] history; history[vt[0].idup] = 0; foreach(i; 1..100001) { auto pre = vt[i - 1]; auto cur = vt[i]; foreach(j; 0..4) cur[j] = pre[j]; cur[4] = i % 4; if (i % 4 == 1) { cur[1] = min(cur[0] + pre[1], V[1]); cur[0] -= cur[1] - pre[1]; } else if (i % 4 == 2) { cur[2] = min(cur[1] + pre[2], V[2]); cur[1] -= cur[2] - pre[2]; } else if (i % 4 == 3) { cur[3] = min(cur[2] + pre[3], V[3]); cur[2] -= cur[3] - pre[3]; } else { cur[0] = min(cur[3] + pre[0], V[0]); cur[3] -= cur[0] - pre[0]; } if (--N == 0) return cur[0..4].toAnswerString; if (cur in history) { auto cycle = i - history[cur]; N %= cycle; return vt[history[cur] + N][0..4].toAnswerString; } history[cur.idup] = i; } return ""; } outputForAtCoder(&solve); } // ---------------------------------------------- import std.stdio, std.conv, std.array, std.string, std.algorithm, std.container, std.range, core.stdc.stdlib, std.math, std.typecons, std.numeric, std.traits, std.functional, std.bigint, std.datetime.stopwatch, core.time, core.bitop; T[][] combinations(T)(T[] s, in long m) { if (!m) return [[]]; if (s.empty) return []; return s[1 .. $].combinations(m - 1).map!(x => s[0] ~ x).array ~ s[1 .. $].combinations(m); } string scan(){ static string[] ss; while(!ss.length) ss = readln.chomp.split; string res = ss[0]; ss.popFront; return res; } T scan(T)(){ return scan.to!T; } T[] scan(T)(long n){ return n.iota.map!(i => scan!T()).array; } void deb(T ...)(T t){ debug writeln(t); } alias Point = Tuple!(long, "x", long, "y"); long[] divisors(long n) { long[] ret; for (long i = 1; i * i <= n; i++) { if (n % i == 0) { ret ~= i; if (i * i != n) ret ~= n / i; } } return ret.sort.array; } bool chmin(T)(ref T a, T b) { if (b < a) { a = b; return true; } else return false; } bool chmax(T)(ref T a, T b) { if (b > a) { a = b; return true; } else return false; } string charSort(alias S = "a < b")(string s) { return (cast(char[])((cast(byte[])s).sort!S.array)).to!string; } ulong comb(ulong a, ulong b) { if (b == 0) {return 1;}else{return comb(a - 1, b - 1) * a / b;}} string toAnswerString(R)(R r) { return r.map!"a.to!string".joiner(" ").array.to!string; } struct ModInt(uint MD) if (MD < int.max) {ulong v;this(string v) {this(v.to!long);}this(int v) {this(long(v));}this(long v) {this.v = (v%MD+MD)%MD;}void opAssign(long t) {v = (t%MD+MD)%MD;}static auto normS(ulong x) {return (x>>".writefln(benchmark!problem(1)); BORDER.writeln; } } else problem(); } enum YESNO = [true: "Yes", false: "No"];