mod = 1000000007 eps = 10**-9 inf = 10**10 def main(): import sys input = sys.stdin.readline def segf(A, B): m1a, m2a, Ma = A m1b, m2b, Mb = B m1, m2 = sorted([m1a, m2a, m1b, m2b])[:2] M = max(Ma, Mb) return [m1, m2, M] def check(A): return A[0] + A[1] < A[2] class SegmentTree: def __init__(self, A, initialize=True, segfunc=segf, ident=[inf, inf, -inf]): self.N = len(A) self.LV = (self.N - 1).bit_length() self.N0 = 1 << self.LV self.segfunc = segfunc self.ident = ident if initialize: self.data = [self.ident] * self.N0 + A + [self.ident] * (self.N0 - self.N) for i in range(self.N0 - 1, 0, -1): self.data[i] = segfunc(self.data[i * 2], self.data[i * 2 + 1]) else: self.data = [self.ident] * (self.N0 * 2) def update(self, i, x): i += self.N0 - 1 self.data[i] = x for _ in range(self.LV): i >>= 1 self.data[i] = self.segfunc(self.data[i * 2], self.data[i * 2 + 1]) def get(self, i): return self.data[i + self.N0 - 1] # open interval [l, r) def query(self, l, r): l += self.N0 - 1 r += self.N0 - 1 ret_l = self.ident ret_r = self.ident while l < r: if l & 1: ret_l = self.segfunc(ret_l, self.data[l]) l += 1 if r & 1: ret_r = self.segfunc(self.data[r - 1], ret_r) r -= 1 l >>= 1 r >>= 1 return self.segfunc(ret_l, ret_r) # return smallest i(l <= i < r) s.t. check(A[i]) == True def binsearch(self, l, r, check): if not check(self.query(l, r)): return r l += self.N0 - 1 val = self.ident while True: if check(self.segfunc(val, self.data[l])): break if l & 1: val = self.segfunc(val, self.data[l]) l += 1 l >>= 1 while l < self.N0: newval = self.segfunc(val, self.data[l * 2]) if not check(newval): val = newval l = (l << 1) + 1 else: l <<= 1 return l - self.N0 + 1 N = int(input()) A = list(map(int, input().split())) AA = [[a, inf, a] for a in A] ST = SegmentTree(AA) ans = 0 for l in range(1, N): r = ST.binsearch(l, N+1, check) ans += r - l - 1 print(ans) if __name__ == '__main__': main()