import std.algorithm, std.conv, std.range, std.stdio, std.string; import std.bigint; // BigInt const p = 129402307; alias FactorRing!p mint; void main() { auto nb = readln.chomp.to!BigInt; auto mb = readln.chomp.to!BigInt; if (nb == 0) { writeln(0); return; } if (mb == 0) { writeln(1); return; } auto n = mint(nb % p); auto m = (mb % (p - 1)).to!int; if (m == 0) { writeln(1); } else { writeln(repeatedSquare(n, m).to!int); } } T repeatedSquare(T, alias pred = "a * b", U)(T a, U n) { return repeatedSquare(a, n, T(1)); } T repeatedSquare(T, alias pred = "a * b", U)(T a, U n, T init) { import std.functional; alias predFun = binaryFun!pred; if (n == 0) return init; auto r = init; while (n > 0) { if ((n & 1) == 1) r = predFun(r, a); a = predFun(a, a); n >>= 1; } return r; } struct FactorRing(int m) { long v; @property int toInt() { return v.to!int; } alias toInt this; this(T)(T _v) { v = mod(_v); } ref FactorRing!m opAssign(int _v) { v = mod(_v); return this; } pure auto mod(long _v) const { return _v > 0 ? _v % m : ((_v % m) + m) % m; } pure auto opBinary(string op: "+")(int rhs) const { return FactorRing!m(v + rhs); } pure auto opBinary(string op: "-")(int rhs) const { return FactorRing!m(v - rhs); } pure auto opBinary(string op: "*")(int rhs) const { return FactorRing!m(v * rhs); } pure auto opBinary(string op)(FactorRing!m rhs) const if (op == "+" || op == "-" || op == "*") { return opBinary!op(rhs.v); } auto opOpAssign(string op: "+")(int rhs) { v = mod(v + rhs); } auto opOpAssign(string op: "-")(int rhs) { v = mod(v - rhs); } auto opOpAssign(string op: "*")(int rhs) { v = mod(v * rhs); } auto opOpAssign(string op)(FactorRing!m rhs) if (op == "+" || op == "-" || op == "*") { return opOpAssign!op(rhs.v); } }