class Lichaotree: #区間は1-indexed #min def __init__(self, X): self.N = len(X) self.N0 = 2**(self.N-1).bit_length() self.comp = {v : k for k, v in enumerate(X)} self.inf = 10**12 self.X = X + [self.inf]*(self.N0 - self.N) self.data = [None]*(2*self.N0) self.size = [0]*self.N0 + [1]*self.N0 for i in range(self.N0-1, 0, -1): self.size[i] = 2*self.size[2*i] def f(self, line, x): return line[0]*x + line[1] def _update(self, k, line): if self.data[k] is None: self.data[k] = line return l = k - (1 << (k.bit_length() - 1)) r = l + self.size[k] while True: if self.data[k] is None: self.data[k] = line return m = (l+r)//2 lx = self.X[l] mx = self.X[m] rx = self.X[r-1] gl = (self.f(self.data[k], lx) > self.f(line, lx)) gm = (self.f(self.data[k], mx) > self.f(line, mx)) gr = (self.f(self.data[k], rx) > self.f(line, rx)) if gl and gr: self.data[k] = line return if not gl and not gr: return if gm: self.data[k], line = line, self.data[k] gl = not gl if gl: r = m k = 2*k else: l = m k = 2*k+1 def query(self, x): k = self.comp[x] + self.N0 s = self.inf while k > 0: if self.data[k]: s = min(s, self.f(self.data[k], x)) k = k >> 1 return s def addline(self, line): self._update(1, line) def addlineseg(self, l, r, line): #区間[l, r)にlineを追加,l, rはXの元 L = self.comp[l]+self.N0 R = self.comp[r]+self.N0 while L < R: if R & 1: R -= 1 self._update(R, line) if L & 1: self._update(L, line) L += 1 L >>= 1 R >>= 1 N = int(input()) A = list(map(int, input().split())) X = list(map(int, input().split())) Y = list(map(int, input().split())) mX = max(X+A) T = Lichaotree(list(range(mX + 2))) dp = [10**12]*N dp[0] = abs(X[0] - A[0]) + Y[0] T.addlineseg(0, X[0], (-1, X[0]+Y[0])) T.addlineseg(X[0], mX+1, (1, -X[0]+Y[0])) for i in range(1, N): T.addlineseg(0, X[i], (-1, X[i] + Y[i] + dp[i-1])) T.addlineseg(X[i], mX+1, (1, -X[i] + Y[i] + dp[i-1])) dp[i] = T.query(A[i]) print(dp[-1])