from collections import defaultdict, deque, Counter import copy from itertools import combinations, permutations, product, accumulate, groupby, chain from heapq import heapify, heappop, heappush import math import bisect from pprint import pprint from random import randint import sys # sys.setrecursionlimit(700000) input = lambda: sys.stdin.readline().rstrip('\n') inf = float('inf') mod1 = 10**9+7 mod2 = 998244353 def ceil_div(x, y): return -(-x//y) ################################################# class Matrix(): def __init__(self, mat, mod=None): self.mat = mat self.n = len(mat) self.m = len(mat[0]) self.mod = mod def __mul__(self, other): ret = Matrix([[0]*other.m for _ in range(self.n)], self.mod) for i in range(self.n): for j in range(other.m): for k in range(self.m): ret[i][j] += self.mat[i][k]*other.mat[k][j] if self.mod is not None: ret[i][j] %= self.mod return ret def __add__(self, other): ret = Matrix([[self.mat[i][j] for j in range(self.m)] for i in range(self.n)], self.mod) for i in range(other.n): for j in range(other.m): ret[i][j] += other.mat[i][j] if self.mod is not None: ret[i][j] %= self.mod return ret def __sub__(self, other): ret = Matrix([[self.mat[i][j] for j in range(self.m)] for i in range(self.n)], self.mod) for i in range(other.n): for j in range(other.m): ret[i][j] -= other.mat[i][j] if self.mod is not None: ret[i][j] %= self.mod return ret def __pow__(self, scalar): a = Matrix([[self.mat[i][j] for j in range(self.m)] for i in range(self.n)], self.mod) ret = Matrix.e(self.n, self.mod) while scalar: if scalar&1: ret *= a a *= a scalar >>= 1 return ret def scalar_mul(self, a): ret = Matrix([[self.mat[i][j] for j in range(self.m)] for i in range(self.n)], self.mod) for i in range(self.n): for j in range(self.m): ret[i][j] *= a if self.mod is not None: ret[i][j] %= self.mod return ret def __repr__(self) -> str: return self.mat.__repr__() def __getitem__(self, i): return self.mat[i] def __setitem__(self, i, x): self.mat[i] = x def __len__(self): return len(self.mat) def t(self): return Matrix([list(column) for column in zip(*self.mat)], self.mod) def turn(matrix): if type(matrix) != 'Matrix': return Matrix([list(column) for column in zip(*matrix)]) return Matrix([list(column) for column in zip(*matrix.mat)], matrix.mod) def e(size, mod): return Matrix([[i == j for j in range(size)] for i in range(size)], mod) N, M, K = map(int, input().split()) d = math.gcd(M, K) M //= d; K //= d if M >= 2: a = Matrix([[0], [1]], mod=mod2) A = Matrix([[d-1, d*(M-1)%mod2], [d, (d-1+d*(M-2))%mod2]], mod=mod2) print((A**(N-1) * a)[0][0]) else: print(0)