# Refernce: https://atcoder.jp/contests/practice2/submissions/16814531
class SegTree():
    def __init__(self, a, func, idem):
        # the number of nodes is 2n - 1
        self.n = 1 << len(a).bit_length()
        self.size = len(a)
        self.func = func
        self.idem = idem # Identity element
        self.node = [idem] * (2 * self.n - 1)
        for i in range(len(a) + self.n - 2, -1, -1):
            if i >= self.n - 1:
                self.node[i] = a[i - self.n + 1]
            else:
                self.node[i] = self.func(self.node[2 * i + 1], self.node[2 * i + 2])
            
    def get(self, x):
        return self.node[x + self.n - 1]

    def set(self, x, val):
        x += self.n - 1
        self.node[x] = val
        while x > 0:
            x = (x - 1) >> 1
            self.node[x] = self.func(self.node[2*x+1], self.node[2*x+2])
        return
    
    def prod(self, l, r):
        L, R = l + self.n, r + self.n
        s_l, s_r = self.idem, self.idem
        while L < R:
            if R & 1:
                R -= 1
                s_r = self.func(self.node[R-1], s_r)
            if L & 1:
                s_l = s_l = self.func(s_l, self.node[L-1])
                L += 1
            L >>= 1
            R >>= 1
        return self.func(s_l, s_r)

    def max_right(self, l, val):
        if l == self.size:
            return self.size
        L = l + self.n
        s = self.idem
        while 1:
            while L % 2 == 0:
                L >>= 1
            if not val(self.func(s, self.node[L - 1])):
                while L < self.n:
                    L <<= 1
                    if val(self.func(s, self.node[L-1])):
                        s = self.func(s, self.node[L-1])
                        L += 1
                return L - self.n
            s = self.func(s, self.node[L - 1])
            L += 1
            if (L & -L) == L:
                return self.size

    def min_left(self, r, val):
        if r == 0:
            return 0
        R = r + self.n
        s = self.idem
        while True:
            R -= 1
            while R > 1 and R % 2:
                R >>= 1
            if not val(self.func(self.node[R - 1], s)):
                while R < self.n:
                    R = (R << 1) + 1
                    if val(self.func(self.node[R - 1], s)):
                        s = self.func(self.node[R - 1], s)
                        R -= 1
                return R + 1 - self.n
            s = self.func(self.node[R - 1], s)
            if (R & -R) == R:
                return 0

import sys
input=sys.stdin.readline
import bisect

inf = int(1e20)
N = int(input())
P = list(map(int, input().split()))
A = list(map(int, input().split()))
rev = [0]*N
dp = [0]*(N+1)

for i in range(N):
    dp[i+1] = dp[i]+P[i]
    P[i] -= 1
    rev[P[i]] = i

seg = SegTree(P, min, inf)
for i in range(N):
    ans = 0
    left = seg.min_left(rev[i], lambda z: i <= z)
    right = seg.max_right(rev[i], lambda z: i <= z)
    left = max(left-1, -1)
    right = min(right, N)
    if rev[i]-left < right-rev[i]:
        for l in range(left+1, rev[i]+1):
            r = bisect.bisect_right(dp, dp[l]+A[i])
            r -= 2
            r = max(r, rev[i]-1)
            r = min(r, right-1)
            ans += r-rev[i]+1
    else:
        for r in range(rev[i], right):
            l = bisect.bisect_left(dp, dp[r+1]-A[i])
            l = max(l, left+1)
            l = min(l, rev[i]+1)
            ans += rev[i]-l+1
    print(ans)