def oi(): return int(input()) def os(): return input() def mi(): return list(map(int, input().split())) # import sys # input = sys.stdin.readline # import sys # sys.setrecursionlimit(10**8) # import pypyjit # pypyjit.set_param('max_unroll_recursion=-1') input_count = 0 input_count = 0 a,b,n = mi() mod = 10**9+7 def prod_func(a,b): # 累乗部分がデカすぎてメモリが死んじゃう時など # 例えば10^18回移動して到達できる場所はどこ?というときはこれで良い return (a*b)%mod def add_func(a,b): return a+b class MATRIX: def __init__(self, prod_func, add_func): self.prod_func = prod_func self.add_func = add_func def dot(self, A,B): if len(A[0]) != len(B): return None out = [[0] * len(B[0]) for _ in range(len(A))] for ay in range(len(A)): for bx in range(len(B[0])): sums = 0 for ax in range(len(A[0])): sums += self.prod_func(A[ay][ax], B[ax][bx]) out[ay][bx] = sums return out def sum(self, A,B): if not(len(A) == len(B) and len(A[0]) == len(B[0])): return None out = [] for ay in range(len(A)): temp = [] for ax in range(len(A[0])): temp.append(self.add_func(A[ay][ax], B[ay][ax])) out.append(temp) return out def prod(self, A,B): if not(len(A) == len(B) and len(A[0]) == len(B[0])): return None out = [] for ay in range(len(A)): temp = [] for ax in range(len(A[0])): temp.append(self.prod_func(A[ay][ax], B[ay][ax])) out.append(temp) return out # 正方行列AをN乗する。 def ruijou(self, A, N): out = [[0] * len(A) for _ in range(len(A))] for i in range(len(A)): out[i][i] = 1 while N: if N%2==1: out = self.dot(out, A) A = self.dot(A,A) N//=2 return out MAT = MATRIX(prod_func=prod_func, add_func=add_func) print(MAT.ruijou([[a, b],[1,0]], n)[1][0]%mod)