import sys readline = sys.stdin.readline def gcd(a,b): if b == 0: return a return gcd(b,a%b) class Segtree: def __init__(self, A, intv, initialize = True, segf = max): self.N = len(A) self.N0 = 2**(self.N-1).bit_length() self.intv = intv self.segf = segf if initialize: self.data = [intv]*self.N0 + A + [intv]*(self.N0 - self.N) for i in range(self.N0-1, 0, -1): self.data[i] = self.segf(self.data[2*i], self.data[2*i+1]) else: self.data = [intv]*(2*self.N0) def update(self, k, x): k += self.N0 self.data[k] = x while k > 0 : k = k >> 1 self.data[k] = self.segf(self.data[2*k], self.data[2*k+1]) def query(self, l, r): L, R = l+self.N0, r+self.N0 s = self.intv while L < R: if R & 1: R -= 1 s = self.segf(s, self.data[R]) if L & 1: s = self.segf(s, self.data[L]) L += 1 L >>= 1 R >>= 1 return s def binsearch(self, l, r, check, reverse = False): L, R = l+self.N0, r+self.N0 SL, SR = [], [] while L < R: if R & 1: R -= 1 SR.append(R) if L & 1: SL.append(L) L += 1 L >>= 1 R >>= 1 if reverse: for idx in (SR + SL[::-1]): if check(self.data[idx]): break else: return -1 while idx < self.N0: if check(self.data[2*idx+1]): idx = 2*idx + 1 else: idx = 2*idx return idx - self.N0 else: pre = self.data[l+self.N0] for idx in (SL + SR[::-1]): if not check(self.segf(pre, self.data[idx])): pre = self.segf(pre, self.data[idx]) else: break else: return -1 while idx < self.N0: if check(self.segf(pre, self.data[2*idx])): idx = 2*idx else: pre = self.segf(pre, self.data[2*idx]) idx = 2*idx + 1 return idx - self.N0 N = int(readline()) A = list(map(int, readline().split())) T = Segtree(A, 0, initialize = True, segf = gcd) ans = 0 N0 = T.N0 for i in range(N): k = T.binsearch(i, N0, lambda x: x == 1) if k != -1: ans += N-k print(ans)