class Fenwick_Tree: def __init__(self, n): self._n = n self.data = [0] * n def add(self, p, x): assert 0 <= p < self._n p += 1 while p <= self._n: self.data[p - 1] += x p += p & -p def sum(self, l, r): assert 0 <= l <= r <= self._n return self._sum(r) - self._sum(l) def _sum(self, r): s = 0 while r > 0: s += self.data[r - 1] r -= r & -r return s def get(self, k): k += 1 x, r = 0, 1 while r < self._n: r <<= 1 len = r while len: if x + len - 1 < self._n: if self.data[x + len - 1] < k: k -= self.data[x + len - 1] x += len len >>= 1 return x N = int(input()) TL, TR = Fenwick_Tree(N + 1), Fenwick_Tree(N + 1) ans = 0 for i in range(N): M = int(input()) M -= 1 if M >= i: ans += TL.sum(M, N + 1) else: ans += TL.sum(M, N + 1) ans += TR.sum(M, N + 1) if M >= i: TL.add(M, 1) else: TR.add(M, 1) print(ans)