Datasets:

PoolC

/

5-fold-clone-detection-600k-5fold

like 0

def main(): K = int(input()) A,B = map(int,input().split()) for i in range(A,B+1): if i%K == 0: return('OK') return('NG') print(main())

K = int(input()) A,B = map(int,input().split()) if (B//K *K)>=A: print("OK") else: print("NG")

container = [1, 1, 1, 2, 1, 2, 1, 5, 2, 2, 1, 5, 1, 2, 1, 14, 1, 5, 1, 5, 2, 2, 1, 15, 2, 2, 5, 4, 1, 4, 1, 51] unser = int(input()) print(container[unser - 1])

#!/usr/bin/env python3 import collections import itertools as it import math import numpy as np # A = input() A = int(input()) # A = map(int, input().split()) # A = list(map(int, input().split())) # A = [int(input()) for i in range(N)] # # c = collections.Counter() li = [1, 1, 1, 2, 1, 2, 1, 5, 2, 2, 1, 5, 1, 2, 1, 14, 1, 5, 1, 5, 2, 2, 1, 15, 2, 2, 5, 4, 1, 4, 1, 51] print(li[A-1])

S = input() N = len(S) one = S[:(N-1) // 2] two = S[(N+3) // 2 - 1:] if S == S[::-1]: if one == one[::-1]: if two == two[::-1]: print('Yes') exit() print('No')

from itertools import * from collections import * from functools import * def isqrt(n): if n > 0: x = 1 << (n.bit_length() + 1 >> 1) while True: y = (x + n // x) >> 1 if y >= x: return x x = y elif n == 0: return 0 else: raise ValueError def qrime(): yield from [2, 3, 5, 7] q = [i for i in range(1, 210, 2) if 0 not in (i%3, i%5, i%7)] yield from q[1:] for i in count(210, 210): for j in q: yield i + j def factor(n): p = Counter() limit = isqrt(n) for q in qrime(): if q > limit: break while n % q ==0: p[q] += 1 n //= q if q in p: limit = isqrt(n) if n != 1: p[n] += 1 return p def divisor(n): p, m = zip(*factor(n).items()) for c in product(*map(lambda x:range(x+1), m)): yield reduce(int.__mul__, (x**y for x, y in zip(p, c) if y), 1) N = int(input()) ans = reduce(int.__mul__, (c+1 for c in factor(N-1).values()), 1) - 1 for d in divisor(N): if d == 1: continue n = N while n % d == 0: n //= d if n % d == 1: ans += 1 print(ans)

n = int(input()) g = [[]for i in range(n)] for i in range(n): v = list(map(int,input().split())) u = v[0]-1 k = v[1] for j in range(k): g[u].append(v[j+2]-1) time = 1 ans = [] d = [0]*n f = [0] *n visited = [0]*n def dfs(now,last = -1): global time visited[now] = 1 d[now] = time time += 1 for next in g[now]: if visited[next]:continue dfs(next,now) f[now] = time time +=1 for i in range(n): if not visited[i]:dfs(i) for i in range(n): print(i+1,d[i],f[i])

# N=4 # G=[[2],[4],[],[3]] import sys sys.setrecursionlimit(1000000) N=int(input()) G=[list(map(int, input().split()))[2:] for _ in range(N)] v=[False]*N d=[0]*N f=[0]*N timecount=1 def dfs(i): global timecount if v[i] : return v[i] = True d[i] = timecount # print("D",i+1,timecount) timecount += 1 for p in G[i]: dfs(p-1) # print("F",i+1,timecount) f[i] = timecount timecount += 1 return for i in range(N): if v[i]==0: dfs(i) for i in range(N): print(i+1, d[i], f[i])

# coding: utf-8 import sys #from operator import itemgetter sysread = sys.stdin.readline read = sys.stdin.read #from heapq import heappop, heappush #from collections import defaultdict sys.setrecursionlimit(10**7) import math from itertools import combinations, product #import bisect# lower_bound etc #import numpy as np def run(): N,K = map(int, read().split()) k = int(math.log(N, 10)) s = N // (10 ** k) tmp1, tmp2, div = 1, 1, 1 for i in range(K-1): tmp1 *= k-i div *= i+1 tmp2 *= 9 ret = tmp1//div * tmp2 ret *= s-1 tmp1 *= k - (K-1) tmp2 *= 9 div *= K ret += tmp1 * tmp2 // div lis = range(k) nums = range(1,10) base = s * 10 ** k for A in combinations(lis, K-1): for X in product(nums, repeat = K-1): tmp = base for a,x in zip(A,X): tmp += 10 ** a * x if tmp <= N: ret += 1 print(ret) if __name__ == "__main__": run()

n = input() for e in n: if e == '7': print('Yes') break else: print('No')

# 貪欲+山登り(日付をランダムに2つ選んで更新) import time import random d = int(input()) dd = d * (d + 1) // 2 *C, = map(int, input().split()) S = [list(map(int, input().split())) for i in range(d)] T = [] L = [-1 for j in range(26)] for i in range(d): max_diff = -10**7 arg_max = 0 for j in range(26): memo = L[j] L[j] = i diff = S[i][j] - sum([C[k] * (i - L[k]) for k in range(26)]) if diff > max_diff: max_diff = diff arg_max = j L[j] = memo T.append(arg_max) L[arg_max] = i def calc_score(T): L = [-1 for j in range(26)] X = [0 for j in range(26)] score = 0 for i in range(d): score += S[i][T[i]] X[T[i]] += (d - i) * (i - L[T[i]]) L[T[i]] = i for j in range(26): score -= C[j] * (dd - X[j]) return score score = calc_score(T) start = time.time() cnt = 0 while True: now = time.time() if now - start > 1.8: break i0, i1 = tuple(random.sample(range(d), 2)) arg_max = (0, 0) max_diff = 0 for j0 in range(26): for j1 in range(26): memo = (T[i0], T[i1]) T[i0], T[i1] = j0, j1 new_score = calc_score(T) if new_score - score > max_diff: max_diff = new_score - score arg_max = (j0, j1) T[i0], T[i1] = memo if max_diff > 0: T[i0], T[i1] = arg_max score += max_diff cnt += 1 for t in T: print(t + 1)

#------------------------------------------------------------------------------- #関数定義 def f(a,d,T): try: return T[d+1:].index(a)+(d+1) except ValueError: return len(T) def g(a,d,T): try: return (d-1)-T[d-1::-1].index(a) except ValueError: return 0 #------------------------------------------------------------------------------- #インポート from math import inf,exp from random import random,randint import time from copy import copy #------------------------------------------------------------------------------- #定数 TIME_LIMIT=1.864 #ループの時間制限 A=26 #アルファベットの数 START=time.time() ALPHA=15 ep=10**(-6) #アニーリングの微小温度 #------------------------------------------------------------------------------- #読み込み部 D=int(input()) C=[True]+list(map(int,input().split())) #減る満足度のベース S=[True]*(D+1) #S[d][i] :(d+1)日目にコンテストiを開催した時の満足度 for i in range(1,D+1): S[i]=[0]+list(map(int,input().split())) #------------------------------------------------------------------------------- #貪欲部 L=[0]*(A+1) T=[0] for d in range(1,D+1): Y=-inf E=0 for a in range(1,A+1): X=S[d][a] for s in range(1,A+1): if a!=s: X-=C[s]*(d-L[s]) if X>Y: Y=X E=a L[E]=d T.append(E) #------------------------------------------------------------------------------- #調節部 t=time.time()-START while t<TIME_LIMIT: d=randint(1,D) p=T[d] q=randint(1,A) Delta=(S[d][q]-S[d][p])+(d-g(q,d,T))*(f(q,d,T)-d)*C[q]-(d-g(p,d,T))*(f(p,d,T)-d)*C[p] if (Delta>=0) or (Delta<0 and random()<exp(Delta/(ALPHA*(TIME_LIMIT-t)+ep))): T[d]=q t=time.time()-START for i in range(1,D+1): print(T[i])

while(1): str = raw_input() if str == "-": break else: m = int(raw_input()) for i in range(m): h = int(raw_input()) str = str[h:len(str)] + str[0:h] print str

N=int(input()) arms=[list(map(int,input().split())) for _ in range(N)] points=[] for i in range(N): points.append([arms[i][0]-arms[i][1],arms[i][0]+arms[i][1]]) #print(points) points.sort(key=lambda x:x[1]) #print(points) nowr=-float("inf") cnt=0 for i in points: l,r=i if nowr<=l: nowr=r cnt=cnt+1 print(cnt)

a = list(map(int, input().split())) b = list(map(int, input().split())) if a[0] - sum(b) >= 0: print(a[0] - sum(b)) else: print(-1)

a,b = map(float, raw_input().split()) d = int(a / b) e = int(a % b) r = a / b print "%d %d %f" %(d,e,r)

n,a,b = map(int,input().split()) t = n // (a+b) ans = t*a s = n % (a+b) if s <= a: ans += s else: ans += a print(ans)

import math N=int(input()) ans=0 for i in range(1,N+1): for j in range(i,N+1): for k in range(j,N+1): if i==j and j==k: ans+=i elif i<j and j<k: ans+=6*math.gcd(i,math.gcd(j,k)) else: ans+=3*math.gcd(i,math.gcd(j,k)) print(ans)

N=int(input());M=N//500;M*=1000;X=500*(N//500);N-=X;M+=(N//5)*5;print(M)

n=int(input()) res=0 for i in range(1,n+1): if int(i*1.08)==n: res=i if res != 0: print(res) else: print(":(")

k=int(input()) k+=1 o='' a='ACL' if k==1: print('') exit() else: for i in range(1,k): o=o+a print(o)

def i(): return int(input()) def i2(): return map(int,input().split()) def s(): return str(input()) def l(): return list(input()) def intl(): return list(int(k) for k in input().split()) n = i() d = intl() ans = 0 for i in range(n): for j in range(i+1,n): ans += d[i]*d[j] print(ans)

data = input().split(' ') a = int(data[0]) b = int(data[1]) if a > b: print("a > b") else: if a < b: print("a < b") else: print("a == b")

n = input().split() a = int(n[0]) b = int(n[1]) if a < b: print("a < b") elif a > b: print("a > b") elif a == b: print("a == b")

g = input() l = [] q = [] n = 0 for x in range(len(g)): if g[x] == '\\': if n: l.append(n) n = 0 if q: q.append(-1) q.append(x) elif g[x] == '/': if q: while True: p = q.pop() if p == -1: n += l.pop() else: break n += x-p else: pass if n: l.append(n) for j in range(l.count(0)): l.remove(0) print(sum(l)) print(len(l), *l)

import math import sys import itertools from collections import deque # import numpy as np def main(): S = sys.stdin.readline() len_S = len(S) index = 0 # 操作しているSのインデックス DOWN = [] # 下り文字をスタック POOL = [] # 水たまりごとの面積 area = 0 # 総面積 for s in S: if s == '\\': DOWN.append(index) elif s == '/' and len(DOWN) > 0: pool_start = DOWN.pop() pool_end = index tmp_area = pool_end - pool_start area += tmp_area while True: if len(POOL) == 0: break if POOL[-1]['start'] > pool_start and POOL[-1]['end'] < pool_end: tmp_area += POOL[-1]['area'] POOL.pop() else: break POOL.append({'start': pool_start, 'end': pool_end, 'area': tmp_area}) index += 1 print(area) if len(POOL) > 0: print(len(POOL), end=" ") for i in range(len(POOL)-1): print(POOL[i]['area'], end=" ") print(POOL[-1]['area']) else: print(0) if __name__ == '__main__': main()

# coding: utf-8 # ?????????????????¨???????????? class Dice(object): def __init__(self): # ????????¶??? self.dice = (2, 5), (3, 4), (1, 6) # x, y, z self.ax = [[0, False], [1, False], [2, False]] self.axmap = [0, 1, 2] self.mm = {"N": (0, 2), "S": (2, 0), "E": (1, 2), "W": (2, 1), "R": (0, 1), "L": (1, 0)} def rotate(self, dir): def rot(k, r): t = self.axmap[r] self.axmap[k], self.axmap[r] = t, self.axmap[k] self.ax[t][1] = not self.ax[t][1] rot(*self.mm[dir]) def front(self): return self.value(0, True) def rear(self): return self.value(0, False) def right(self): return self.value(1, True) def left(self): return self.value(1, False) def top(self): return self.value(2, True) def bottom(self): return self.value(2, False) def value(self, ax, d): a = self.ax[self.axmap[ax]] return self.dice[a[0]][a[1] if d else not a[1]] if __name__=="__main__": dice = Dice() labels = input().split() q = int(input()) def tf(p, f, d): for _ in range(4): if p==f(): break dice.rotate(d) for _ in range(q): a, b = input().split() p = labels.index(a) + 1 f = dice.top tf(p, f, "N") tf(p, f, "E") p = labels.index(b) + 1 f = dice.front tf(p, f, "R") print(labels[dice.right()-1])

import sys sys.setrecursionlimit(10**7) readline = sys.stdin.buffer.readline def readstr():return readline().rstrip().decode() def readstrs():return list(readline().decode().split()) def readint():return int(readline()) def readints():return list(map(int,readline().split())) def printrows(x):print('\n'.join(map(str,x))) def printline(x):print(' '.join(map(str,x))) n = readint() ans = 0 for a in range(1,n): b = n//a if a*b==n: ans += b-1 else: ans += b print(ans)

x1,x2,x3,x4,x5=(int(i) for i in input().split()) if x1==0: print(1) elif x2==0: print(2) elif x3==0: print(3) elif x4==0: print(4) else: print(5)

import sys R, C, K = list(map(int, input().split())) d = [[[0] * (C+1) for _ in range(R+1)] for _ in range(4)] t = [[0] * (C+1) for _ in range(R+1)] for i in range(K): r,c,v = list(map(int, input().split())) t[r][c] = v for i in range(R+1): for j in range(C+1): for k in range(4): if i!=0: d[0][i][j] = max(d[0][i][j], d[k][i-1][j]) d[1][i][j] = max(d[1][i][j], d[k][i-1][j] + t[i][j]) if j!=0: d[k][i][j] = max(d[k][i][j], d[k][i][j-1]) if k != 0: d[k][i][j] = max(d[k][i][j], d[k-1][i][j-1] + t[i][j]) a = 0 for i in range(4): a = max(a, d[i][-1][-1]) print(a)

from time import time import random start = time() D = int(input()) c = list(map(int, input().split())) s = [list(map(int, input().split())) for _ in range(D)] def cal_score(t): S = 0 last = [-1] * 26 score = 0 for d in range(D): S += s[d][t[d]] last[t[d]] = d for i in range(26): S -= c[i] * (d - last[i]) score += max(10 ** 6 + S, 0) return score def main(): t = [random.randint(0, 25) for _ in range(D)] score = cal_score(t) while time()-start + 0.2 < 2: d = random.randint(0, D-1) q = random.randint(0, 25) old = t[d] t[d] = q new_score = cal_score(t) if new_score < score: t[d] = old else: score = new_score return t if __name__ == "__main__": ans = main() for t in ans: print(t+1)

def do_calc(data): from collections import deque s = deque() # ??????????????¨?????????????????? while data: elem = data[0] data = data[1:] if elem == '+' or elem == '-' or elem == '*': a = s.pop() b = s.pop() if elem == '+': s.append(b + a) elif elem == '-': s.append(b - a) elif elem == '*': s.append(b * a) else: s.append(int(elem)) return s.pop() if __name__ == '__main__': # ??????????????\??? data = [x for x in input().split(' ')] # data = ['1', '2', '+', '3', '4', '-', '*'] # ??????????????? result = do_calc(data) # ??????????????? print(result)

class Dice: def __init__(self,d1,d2,d3,d4,d5,d6): self.dice = [d1,d2,d3,d4,d5,d6] def turn(self,dir): if dir == 'S': self.dice = [self.dice[4],self.dice[0],self.dice[2],self.dice[3],self.dice[5],self.dice[1]] if dir == 'N': self.dice = [self.dice[1],self.dice[5],self.dice[2],self.dice[3],self.dice[0],self.dice[4]] if dir == 'W': self.dice = [self.dice[2],self.dice[1],self.dice[5],self.dice[0],self.dice[4],self.dice[3]] if dir == 'E': self.dice = [self.dice[3],self.dice[1],self.dice[0],self.dice[5],self.dice[4],self.dice[2]] def check(m): for b in range(4): m.turn('N') if m.dice[0] == a[0] and m.dice[1] == a[1]: return(m.dice[2]) dice_num = input().split() q = int(input()) conditions = [] for a in range(q): temp = input().split() conditions.append(temp) init_Dice = Dice(dice_num[0],dice_num[1],dice_num[2],dice_num[3],dice_num[4],dice_num[5]) kaitou = [] for a in conditions: if check(init_Dice): print(check(init_Dice)) continue init_Dice.turn('E') if check(init_Dice): print(check(init_Dice)) continue init_Dice.turn('E') if check(init_Dice): print(check(init_Dice)) continue init_Dice.turn('E') if check(init_Dice): print(check(init_Dice)) continue init_Dice.turn('W') init_Dice.turn('N') init_Dice.turn('E') if check(init_Dice): print(check(init_Dice)) continue init_Dice.turn('E') if check(init_Dice): print(check(init_Dice)) continue init_Dice.turn('E') if check(init_Dice): print(check(init_Dice)) continue init_Dice.turn('E') if check(init_Dice): print(check(init_Dice)) continue

# D - Moving Piece n, k = map(int, input().split()) p = list(map(int, input().split())) c = list(map(int, input().split())) assert len(p) == len(c) == n visited = [False] * n scc = [] for i in range(n): if not visited[i]: scc.append([]) j = i while not visited[j]: visited[j] = True scc[-1].append(j) j = p[j] - 1 n_scc = len(scc) subsum = [[0] for i in range(n_scc)] for i in range(n_scc): for j in scc[i]: subsum[i].append(subsum[i][-1] + c[j]) for j in scc[i]: subsum[i].append(subsum[i][-1] + c[j]) def lister(k): for i in range(n_scc): l = len(scc[i]) loop_score = max(0, subsum[i][l]) for kk in range(1, min(k, l) + 1): base = loop_score * ((k - kk) // l) for j in range(kk, l + kk + 1): yield base + subsum[i][j] - subsum[i][j - kk] print(max(lister(k)))

n,k = map(int, input().split()) r,s,p = map(int, input().split()) t = input() def add(x): if x == 'r': return p elif x == 's': return r else: return s nk =[0]*k for i in range(n): key = i%k if nk[key]==0: nk[key] = [t[i]] else: nk[key].append(t[i]) ans = 0 for j in nk: if j ==0: continue ans += add(j[0]) for k in range(1, len(j)): if j[k]== j[k-1]: j[k]='q' else: ans += add(j[k]) print(ans)

N, K = [int(i) for i in input().split()] R, S, P = [int(i) for i in input().split()] d = {'r': P, 's': R, 'p': S} T = input() checked = [False for i in range(N)] # 勝てるだけ勝てばいい for i in range(N-K): if T[i] == T[i+K]: if checked[i] == False: checked[i+K] = True result = 0 for i in range(N): if checked[i] == False: result += d[T[i]] print(result)

n,k=map(int,input().split()) mod=10**9+7 ans=0 for x in range(k,n+2): min_a=(0+x-1)*x//2 max_a=(n-x+1+n)*x//2 aa=max_a-min_a+1 ans+=aa print(ans%mod)

#!usr/bin/env python3 import sys def int_fetcher(): num = int(sys.stdin.readline()) return num def call(num): res = '' for i in range(1, num+1): x = i if x % 3 == 0 or x % 10 == 3: res += ' ' + str(i) continue while x: if x % 10 == 3: res += ' ' + str(i) break x //= 10 return res def main(): print(call(int_fetcher())) if __name__ == '__main__': main()

class Dice(): def __init__(self, a, b, c, d, e, f): """面の数字とindexを一致させるために0を挿入""" self.s = [0, a, b, c, d, e, f] def rotate(self, dir): if dir == "N": self.s[0] = self.s[1] #s[0]に一時的にs[1]を保持 self.s[1] = self.s[2] self.s[2] = self.s[6] self.s[6] = self.s[5] self.s[5] = self.s[0] return elif dir == "W": self.s[0] = self.s[1] self.s[1] = self.s[3] self.s[3] = self.s[6] self.s[6] = self.s[4] self.s[4] = self.s[0] return elif dir == "S": self.s[0] = self.s[1] self.s[1] = self.s[5] self.s[5] = self.s[6] self.s[6] = self.s[2] self.s[2] = self.s[0] return elif dir == "E": self.s[0] = self.s[1] self.s[1] = self.s[4] self.s[4] = self.s[6] self.s[6] = self.s[3] self.s[3] = self.s[0] return elif dir == "R": self.s[0] = self.s[2] self.s[2] = self.s[3] self.s[3] = self.s[5] self.s[5] = self.s[4] self.s[4] = self.s[0] return elif dir == "L": self.s[0] = self.s[2] self.s[2] = self.s[4] self.s[4] = self.s[5] self.s[5] = self.s[3] self.s[3] = self.s[0] return else: return dice = Dice(*list(map(int, input().split()))) for _ in range(int(input())): t, s = map(int, input().split()) while dice.s[1] != t: dice.rotate("S") if dice.s[1] != t: dice.rotate("E") while dice.s[2] != s: dice.rotate("R") print(dice.s[3])

def lotate(dic, dire): if dire == 'N': x,y,z,w = dic['up'], dic['back'], dic['bottom'], dic['front'] dic['back'], dic['bottom'], dic['front'], dic['up'] = x,y,z,w elif dire == 'S': x, y, z, w = dic['up'], dic['back'], dic['bottom'], dic['front'] dic['front'], dic['up'], dic['back'], dic['bottom'] = x, y, z, w elif dire == 'W': x, y, z, w = dic['up'], dic['left'], dic['bottom'], dic['right'] dic['left'], dic['bottom'], dic['right'], dic['up'] = x, y, z, w elif dire == 'E': x, y, z, w = dic['up'], dic['left'], dic['bottom'], dic['right'] dic['right'], dic['up'], dic['left'], dic['bottom'] = x, y, z, w return dic a,b,c,d,e,f = map(int, input().split()) n = int(input()) for _ in range(n): dic = {'up': a, 'front': b, 'right': c, 'left': d, 'back': e, 'bottom': f} x, y = map(int, input().split()) s = 'EEENEEENEEESEEESEEENEEEN' for i in s: if dic['up'] == x and dic['front'] == y: print(dic['right']) break dic = lotate(dic, i)

printn = lambda x: print(x,end='') inn = lambda : int(input()) inl = lambda: list(map(int, input().split())) inm = lambda: map(int, input().split()) ins = lambda : input().strip() DBG = True # and False BIG = 10**18 R = 10**9 + 7 def ddprint(x): if DBG: print(x) n = inn() a = inl() if n<=3: print(max(a)) exit() lacc = [0]*n racc = [0]*n lacc[0] = a[0] lacc[1] = a[1] racc[n-1] = a[n-1] racc[n-2] = a[n-2] for i in range(2,n): if i%2==0: lacc[i] = lacc[i-2]+a[i] else: lacc[i] = max(lacc[i-3],lacc[i-2])+a[i] if n%2==0: print(max(lacc[n-2],lacc[n-1])) exit() for i in range(n-3,-1,-1): if (n-1-i)%2==0: racc[i] = racc[i+2]+a[i] else: racc[i] = max(racc[i+3],racc[i+2])+a[i] mx = max(racc[2],lacc[n-3]) for i in range(1,n-2): if i%2==0: mx = max(mx, max(lacc[i-2],lacc[i-1])+racc[i+2]) else: mx = max(mx, max(racc[i+2],racc[i+3])+lacc[i-1]) print(mx)

#!/usr/bin/env python3 # coding: utf-8 import collections def debug(arg): if __debug__: pass else: import sys print(arg, file=sys.stderr) def main(): pass N, *A = map(int, open(0).read().split()) a = dict(enumerate(A, 1)) dp = collections.defaultdict(lambda: -float("inf")) dp[0, 0] = 0 dp[1, 0] = 0 dp[1, 1] = a[1] for i in range(2, N + 1): jj = range(max(i // 2 - 1, 1), (i + 1) // 2 + 1) for j in jj: x = dp[i - 2, j - 1] + a[i] y = dp[i - 1, j] dp[i, j] = max(x, y) print(dp[N, N // 2]) if __name__ == "__main__": main()

def main(): N,M,K=map(int,input().split()) MOD=998244353 E=0 n_=1 for i in range(1,N): n_=(n_*i)%MOD nr_ = 1 nr_array=[] for i in range(1,N-1): nr_ = (nr_ * i) % MOD nr_array.append(nr_) m=1 Mk_array=[1] for i in range(1,N): m=(m*(M-1))%MOD Mk_array.append(m) r_=1 for i in range(0,K+1): if i!=0 and i!=N-1: r_ = (r_ * i) % MOD nr_=nr_array.pop() power_r=pow(r_,MOD-2,MOD) power_nr=pow(nr_,MOD-2,MOD) Mk=Mk_array.pop() if i!=0 and i!=N-1: E+=(n_*power_r*power_nr*Mk)%MOD else: E+=Mk%MOD res=(M*E)%MOD print(res) if __name__=="__main__": main()

import math def rot60_on_complex_plane(start: complex, end: complex) -> complex: v = end - start arg = 1 / 2 + complex(0, (math.sqrt(3) / 2)) return v * arg + start def print_real_coordinate(z: complex) -> None: x = z.real y = z.imag print(f"{x:.8f} {y:.8f}") def create_koch_points(p1: complex, p2: complex, n: int) -> None: if n == 0: return # Get s, t, u coordinates on the complex plane. s = (p2 - p1) * (1 / 3) + p1 t = (p2 - p1) * (2 / 3) + p1 u = rot60_on_complex_plane(s, t) # Call the function recursively by the case of n == 0. create_koch_points(p1, s, n - 1) print_real_coordinate(s) create_koch_points(s, u, n - 1) print_real_coordinate(u) create_koch_points(u, t, n - 1) print_real_coordinate(t) create_koch_points(t, p2, n - 1) if __name__ == "__main__": n = int(input()) start_point = (0 + 0j) end_point = (100 + 0j) print_real_coordinate(start_point) create_koch_points(start_point, end_point, n) print_real_coordinate(end_point)

from collections import deque N,M=map(int,input().strip().split()) l=[] dp=[[] for _ in range(N)] for _ in range(M): a,b=map(int,input().strip().split()) l.append((a,b)) dp[a-1].append(b) dp[b-1].append(a) d=deque([1]) visited=[0 for _ in range(N)] visited[0]=1 cnt=1 while d: tmp=d.popleft() for e in dp[tmp-1]: if visited[e-1]==0: visited[e-1]=tmp cnt+=1 d.append(e) if cnt!=len(visited): print("No") else: print("Yes") for n in range(1,N): print(visited[n])

import sys, re from collections import deque, defaultdict, Counter from math import ceil, sqrt, hypot, factorial, pi, sin, cos, tan, asin, acos, atan, radians, degrees#, log2 from itertools import accumulate, permutations, combinations, combinations_with_replacement, product, groupby from operator import itemgetter, mul from copy import deepcopy from string import ascii_lowercase, ascii_uppercase, digits from bisect import bisect, bisect_left, insort, insort_left from fractions import gcd from heapq import heappush, heappop from functools import reduce def input(): return sys.stdin.readline().strip() def INT(): return int(input()) def MAP(): return map(int, input().split()) def LIST(): return list(map(int, input().split())) def ZIP(n): return zip(*(MAP() for _ in range(n))) sys.setrecursionlimit(10 ** 9) INF = float('inf') mod = 10**9 + 7 #from decimal import * N, K, S = MAP() if S == 10**9: tmp = 1 else: tmp = 10**9 ans = [S]*K + [tmp]*(N-K) print(*ans)

import sys input = sys.stdin.readline def main(): N, M = map(int, input().split()) P = [0] * M S = [""] * M for i in range(M): PS = input().split() P[i], S[i] = int(PS[0]), PS[1] AC = [False] * (N + 1) WA = [0] * (N + 1) n_AC = 0 n_WA = 0 for p, s in zip(P, S): if AC[p]: continue if s == "AC": n_AC += 1 AC[p] = True n_WA += WA[p] else: WA[p] += 1 print(n_AC, n_WA) if __name__ == "__main__": main()

n,m=map(int,input().split()) l=[0]*(n+1) miss=[0]*(n+1) for _ in range(m): p,s=input().split() p=int(p) if l[p]==0: if s=='AC': l[p]+=1 else: miss[p]+=1 for i in range(1,n+1): if l[i]==0 and miss[i]!=0: miss[i]=0 a=l.count(1) b=sum(miss) print(a,b)

S = input() T = input() ans = 0 for i,y in zip(S,T): if i != y: ans += 1 print(ans)

s = input() t = input() l = len(s) x = 0 for i in range(l): if s[i] != t[i]: x += 1 print(x)

n,a,b = map(int,input().split()) mod = 10**9 + 7 all = pow(2, n, mod) if all == 0: all = 10**9 + 6 else: all -= 1 a = min(n-a,a) b = min(n-b,b) a_fact = 1 a_inv = 1 for i in range(1,a+1): a_fact *= (n-i+1)%mod a_inv *= pow(i,mod-2,mod) a_fact %= mod a_inv %= mod nca = a_fact * a_inv nca %= mod b_fact = 1 b_inv = 1 for i in range(1,b+1): b_fact *= (n-i+1)%mod b_inv *= pow(i,mod-2,mod) b_fact %= mod b_inv %= mod ncb = b_fact * b_inv ncb %= mod ans = all - nca - ncb while ans < 0: ans += mod if ans >= mod: ans -= mod print(ans)

import sys import math import bisect import heapq from collections import Counter def input(): return sys.stdin.readline().rstrip() def main(): N, K = map(int, input().split()) A = list(map(int, input().split())) AS = [0] it = 0 for i in range(0, N): it += A[i] it %= K sj = (it - i - 1) % K AS.append(sj) # 最初だけ作る C = dict() C[0] = 1 current = 0 for j in range(1, N + 1): if j > K-1: C[AS[j - K]] -= 1 if AS[j] in C: current += C[AS[j]] C[AS[j]] += 1 else: C[AS[j]] = 1 print(current) if __name__ == "__main__": main()

import sys sys.setrecursionlimit(10**5) n, u, v = map(int, input().split()) u -= 1 v -= 1 m_mat = [[] for i in range(n)] for _ in range(n-1): a, b = map(int, input().split()) a -= 1 b -= 1 m_mat[a].append(b) m_mat[b].append(a) u_map = [-1]*n v_map = [-1]*n u_map[u] = 0 v_map[v] = 0 def dfs(current, depth, ma): for nex in m_mat[current]: if ma[nex] > -1: continue ma[nex] = depth dfs(nex, depth+1, ma) dfs(u, 1, u_map) dfs(v, 1, v_map) ans = -1 for i in range(n): if u_map[i] < v_map[i] and v_map[i] > ans: ans = v_map[i] print(ans-1)

def dfs(c,lst): n=len(lst) ans=[0]*n stack = [c-1] check = [0]*n #チェック済みリスト while stack != [] : d=stack.pop() if check[d]==0: check[d]=1 for i in lst[d]: if check[i]==0: stack.append(i) ans[i]=ans[d]+1 return(ans) import sys input = sys.stdin.readline N,u,v=map(int,input().split()) ki=[[] for f in range(N)] for i in range(N-1): a,b = map(int,input().split()) ki[a-1].append(b-1) ki[b-1].append(a-1) U=dfs(u,ki) V=dfs(v,ki) ans=0 for i in range(N): if V[i]>U[i]: ans=max(ans,V[i]-1) print(ans)

tmp = input() line = input().split(" ") for i in range(len(line)): line[i] = int(line[i]) line.sort() count = 0 for i in range(0, len(line) - 2): for j in range(1, len(line) - 1): if i > j or i == j: continue for k in range(2, len(line)): if j > k or j == k: continue if int(line[i]) != int(line[j]) and int(line[j]) != int(line[k]): if int(line[i]) + int(line[j]) > int(line[k]): count += 1 print(count)

import sys sys.setrecursionlimit(300000) from itertools import combinations def I(): return int(sys.stdin.readline()) def MI(): return map(int, sys.stdin.readline().split()) def MI0(): return map(lambda s: int(s) - 1, sys.stdin.readline().split()) def LMI(): return list(map(int, sys.stdin.readline().split())) def LMI0(): return list(map(lambda s: int(s) - 1, sys.stdin.readline().split())) MOD = 10 ** 9 + 7 INF = float('inf') N = I() L = LMI() ans = 0 for a, b, c in combinations(L, 3): if a == b or b == c or c == a: continue if a + b > c and b + c > a and c + a > b: ans += 1 print(ans)

import numpy as np D = int(input()) C = np.array(list(map(int, input().split()))) S = [] for i in range(D): s = list(map(int, input().split())) S.append(s) S = np.array(S) T = [int(input()) for _ in range(D)] last = np.zeros(26, dtype=np.int64) def decrease(d, last): res = np.sum(C * (d - last)) # print(d, res, C * (d - last)) return res manzoku = 0 # kaisai = dict() # print(S, T, C) for day, t in enumerate(T): t -= 1 manzoku += S[day, t] # d 日目にタイプi のコンテストを開催した場合、満足度が S[d,i]増加することが予め分かっています。 last[t] = day + 1 manzoku -= decrease(day + 1, last) print(manzoku)

d = int(input()) c = list(map(int, input().split())) s = [list(map(int, input().split())) for _ in range(d)] t = [int(input()) - 1 for _ in range(d)] def scoring(d, c, s, t): v = [] memo = [0 for _ in range(26)] for i in range(d): if i == 0: score = 0 else: score = v[-1] score += s[i][t[i]] memo[t[i]] = i + 1 for j in range(26): score -= c[j] * (i+1 - memo[j]) v.append(score) return v v = scoring(d, c, s, t) print(*v, sep='\n')

n = int(input()) lis = list(map(int, input().split())) m = 0 for a in lis: m = m ^ a for a in lis: print(m ^ a, end=" ")

import sys def I(): return int(sys.stdin.readline().rstrip()) def LI(): return list(map(int,sys.stdin.readline().rstrip().split())) #空白あり N = I() a = LI() b = 0 for i in range(N): b ^= a[i] print(*[b^a[i] for i in range(N)])

import sys input() numbers = map(int, input().split()) evens = [number for number in numbers if number % 2 == 0] if len(evens) == 0: print('APPROVED') sys.exit() for even in evens: if even % 3 != 0 and even % 5 != 0: print('DENIED') sys.exit() print('APPROVED')

mod = 10 ** 9 + 7 N = int(input()) result = 0 ten = pow(10, N, mod) nine = pow(9, N, mod) eight = pow(8, N, mod) result = (ten - 2 * nine + eight) % mod print(result)

x,y=map(int,input().split()) for i in range(0,x+1): if(2*i+4*(x-i)==y): print("Yes") exit() print("No")

x,y = map(int,input().split()) for i in range(x+1): if 2*i+4*(x-i) == y: print('Yes') exit() print('No')

nm = input().split() n = int(nm[0]) m = int(nm[1]) ans = 0 n1 = n*(n-1)/2 n2 = m*(m-1)/2 ans = int(n1 + n2) print(ans)

import math def count(n, r): return math.factorial(n) // math.factorial(n - r) def main(): N, M = map(int, input().split()) if (N == 0 and M == 0) or (N == 1 and M == 1): ans = 0 elif N == 0 or N == 1: y = count(M, 2) ans = y elif M == 0 or M == 1: x = count(N, 2) ans = x else: x = count(N, 2) y = count(M, 2) ans = x + y print(int(ans/2)) main()

n = int(input()) A = list(map(int, input().split())) q = int(input()) B = list(map(int, input().split())) s = set() def check(i, m): if i == n: s.add(m) return check(i+1, m+A[i]) check(i+1, m) check(0,0) for i in B: if i in s: print('yes') else: print('no')

n = int(input()) a = list(map(int, input().split())) q = int(input()) m = list(map(int, input().split())) memory = [[-1 for i in range(max(m)+1)]for j in range(n)] def f(i, m): if m == 0: return 1 elif i >= n: return 0 elif memory[i][m] != -1: return memory[i][m] elif m - a[i] >= 0: res0 = f(i+1, m) res1 = f(i+1, m-a[i]) if res0 or res1: memory[i][m] = 1 return 1 else: memory[i][m] = 0 return 0 else: res = f(i+1, m) memory[i][m] = res return res for k in m: print('yes' if f(0, k) else 'no')

h1,m1,h2,m2,k =(int(x) for x in input().split()) hrtom= (h2-h1) if (m2-m1 < 0) and (h2-h1 >=0) : min = (h2-h1)*60 + (m2-m1) - k print(min) elif (m2-m1 >= 0) and (h2-h1 >=0 ): min = (h2-h1)*60 + (m2-m1) - k print(min) else: print('0')

h1, m1, h2, m2, k = map(int, input().split()) h = h2 - h1 m = m2 - m1 m += 60 * h print(m - k)

while True: a = raw_input() if a == '-': break m = input() b = [input() for _ in range(m)] for i in b: a = a[i:]+a[0:i] print a

while True: d = input() if d == '-': break h = int(input()) rotate = 0 for i in range(h): rotate += int(input()) move = rotate % len(d) print(d[move:] + d[:move])

n = int(input()) a = list(map(int,input().split())) if a == [1]*n: print("pairwise coprime") quit() m = max(a) l = [-1]*(m+3) for i in range(2,m+1): if l[i] != -1: continue l[i] = i j = 2 while i*j <= m: if l[i*j] == -1: l[i*j] = i j += 1 def fastfact(i,lst): if l[i] == -1: return lst while i > 1: lst.append(l[i]) i //= l[i] return lst check = [0]*(m+1) for i in range(n): if a[i] == 1: continue s = set(fastfact(a[i],[])) for j in s: check[j] += 1 M = max(check) if M == 1: print("pairwise coprime") elif M == n: print("not coprime") else: print("setwise coprime")

from math import gcd def setwise_coprime_check_fun(A_list, N): gcd_all = A_list[0] for i in range(N - 1): gcd_all = gcd(gcd_all, A_list[i + 1]) if gcd_all == 1: break return gcd_all def preprocess_fun(A_max): p_flg = [True] * (A_max + 1) D = [0] * (A_max + 1) p_flg[0] = False p_flg[1] = False for i in range(2, A_max + 1, 1): if p_flg[i]: for j in range(i, A_max + 1, i): p_flg[j] = False D[j] = i return D def pairwise_coprime_check(A_list, D, A_max): p_count = [0] * (A_max + 1) for A in A_list: temp = A d = 0 while temp != 1: if p_count[D[temp]] == 1 and d != D[temp]: return 0 p_count[D[temp]] = 1 d = D[temp] temp = temp // D[temp] return 1 ## 標準入力 N = int(input()) A_list = list(map(int, input().split(" "))) # 整数の最大値を取得 A_max = max(A_list) # 本体 if(setwise_coprime_check_fun(A_list, N) != 1): print("not coprime") else: D = preprocess_fun(A_max) if pairwise_coprime_check(A_list, D, A_max) == 1: print("pairwise coprime") else: print("setwise coprime")

h1, m1, h2, m2, k = map(int, input().split(' ')) t1 = h1 * 60 + m1 t2 = h2 * 60 + m2 print(t2 - t1 - k)

a, b, c = tuple([int(x) for x in input().split()]) if a < b and b < c: print("Yes") else: print("No")

def main(): N = int(input()) d = dict() for i in range(1, N+1): u = int(str(i)[0]) v = int(str(i)[-1]) d[(u, v)] = d.get((u, v), 0) + 1 ans = 0 for u, v in d: if (v, u) in d: ans += d[(u, v)] * d[(v, u)] return ans if __name__ == '__main__': print(main())

from collections import defaultdict N = int(input()) d = defaultdict(int) for i in range(1, N+1): s = str(i) top = int(s[0]) end = int(s[-1]) d[(top, end)] += 1 counter = 0 for i in range(1, N+1): s = str(i) top = int(s[0]) end = int(s[-1]) if (end, top) in d: counter += d[(end, top)] print(counter)

n, k = map(int, input().split()) cnt = 0 while n >= 1: n = n//k cnt +=1 print(cnt)

def main(): n, k = map(int, input().split()) a = 1 b = 0 while True: a *= k if a > n: break b += 1 ans = b + 1 print(ans) if __name__ == "__main__": main()

import math h = int(input()) w = int(input()) n = int(input()) ans = math.ceil(n/max(h,w)) print(ans)

h = int(input()) w = int(input()) n = int(input()) ans = n // max(h,w) if n % max(h,w) == 0 else n // max(h,w) + 1 print(ans)

# coding: utf-8 # Your code here! # coding: utf-8 # 自分の得意な言語で # Let's チャレンジ！！ S=input() if "7" in S: print("Yes") else: print("No")

class Dice: dice = {'N':2, 'E':4, 'S':5, 'W':3} currTop = 1 def top(self): return self.currTop def rot(self, direction): newTop = self.dice[direction] currTop = self.currTop self.currTop = newTop if direction == 'N': self.dice['N'] = 7 - currTop self.dice['S'] = currTop elif direction == 'S': self.dice['N'] = currTop self.dice['S'] = 7 - currTop elif direction == 'E': self.dice['E'] = 7 - currTop self.dice['W'] = currTop elif direction == 'W': self.dice['E'] = currTop self.dice['W'] = 7 - currTop def yaw(self, direction): newDice = {} if direction == 'E': newDice['N'] = self.dice['E'] newDice['E'] = self.dice['S'] newDice['S'] = self.dice['W'] newDice['W'] = self.dice['N'] if direction == 'W': newDice['N'] = self.dice['W'] newDice['E'] = self.dice['N'] newDice['S'] = self.dice['E'] newDice['W'] = self.dice['S'] self.dice = newDice faces = list(map(int, input().split())) q = int(input()) d = Dice() for i in range(q): top, front = list(map(int, input().split())) topIdx = faces.index(top) + 1 frontIdx = faces.index(front) + 1 if d.top() != topIdx: # search topIdx and rotate to make topIdx top. key = [k for k,v in d.dice.items() if topIdx == v] if len(key) == 0: d.rot('N') key = [k for k,v in d.dice.items() if topIdx == v] d.rot(key[0]) # rotate(yaw) to make frontIdx front. while True: if d.dice['N'] == frontIdx: break d.yaw('E') print(faces[d.dice['W']-1])

n, m = map(int, input().split()) a = [list(map(int, input().split())) for i in range(n)] b = [int(input()) for i in range(m)] for i, ai in enumerate(a): cnt = 0 for j, bj in enumerate(b): cnt += ai[j] * bj print(cnt)

n=int(input()) a=list(map(int,input().split())) thing={} ans=0 for i in range(n): if i-a[i] in thing: ans+=thing[i-a[i]] if i+a[i] in thing: thing[i+a[i]]+=1 else: thing[i+a[i]]=1 print(ans)

N = int(input()) ptn = [[0 for _ in range(10)] for __ in range(10)] for num in range(1, N+1): str_num = str(num) if str_num[-1] != 0: ptn[int(str_num[0])][int(str_num[-1])] += 1 answer = 0 for i in range(10): for j in range(i, 10): if i == j: answer += ptn[i][j]**2 else: answer += ptn[i][j]*ptn[j][i]*2 print(answer)

# !/usr/bin/python3 """ https://atcoder.jp/contests/abc152/tasks/abc152_d Low Elements. """ def solve(n): res = 0 for num in range(n+1): start = int(str(num)[0]) end = int(str(num)[-1]) for i in range(1, 10): for j in range(1, 10): if i == start and j == end: dp[i][j] += 1 for i in range(1, 10): for j in range(1, 10): res += dp[i][j]*dp[j][i] # for each in dp: print(each) return res if __name__ == "__main__": n = int(input()) dp = [[0 for _ in range(10)] for _ in range(10)] print(solve(n))

n, k = [int(z) for z in input().strip().split()] p = [int(z) - 1 for z in input().strip().split()] c = [int(z) for z in input().strip().split()] visited = [False for _ in range(n)] cycle = [] for start in range(n): if visited[start]: continue now = start route = [] while not visited[now]: visited[now] = True route.append(now) now = p[now] cycle.append(route) min_c = min(c) max_value = min_c for route in cycle: full_value = sum([c[i] for i in route]) double_route = route + route v = [c[i] for i in double_route] max_sum_step = [] for step in range(1, len(route)): s = sum(v[:step]) max_sum = max(s, min_c) for idx in range(step, step + len(route) - 1): s += v[idx] if idx >= step: s -= v[idx - step] max_sum = max(s, max_sum) max_sum_step.append(max_sum) addition = k % len(route) if full_value > 0: addition_value = 0 if addition == 0 else max(max_sum_step[:addition]) value1 = int(k / len(route)) * full_value + addition_value value2 = (int(k / len(route)) - 1) * full_value + max(max_sum_step) value = max(value1, value2) else: value = max(max_sum_step[:min(k, len(max_sum_step))]) max_value = max(max_value, value) print(max_value)

#!/usr/bin/env python3 def main(): import sys input = sys.stdin.readline N, K = map(int, input().split()) res = [False for _ in range(N)] for _ in range(K): _ = int(input()) A = [int(x) for x in input().split()] for i in A: res[i - 1] = True print(res.count(False)) if __name__ == '__main__': main()

import sys def MI(): return map(int,sys.stdin.readline().rstrip().split()) N,K,S = MI() if S == 10**9: ANS = [10**9]*K + [1]*(N-K) else: ANS = [S]*K + [10**9]*(N-K) print(*ANS)

import sys readline = sys.stdin.readline readlines = sys.stdin.readlines ns = lambda: readline().rstrip() # input string ni = lambda: int(readline().rstrip()) # input int nm = lambda: map(int, readline().split()) # input multiple int nl = lambda: list(map(int, readline().split())) # input multiple int to list n, k, s = nm() ans_h = [str(s) for _ in range(k)] if s==10**9 : ans_t = ['1' for _ in range(n-k)] else: ans_t = [str(s+1) for _ in range(n-k)] print(' '.join(ans_h + ans_t))

a,b=map(int,raw_input().split()) print a/b,a%b,'%.8f'%(a/(b+0.0))

def insertion_sort(numbers, n, g): """insertion sort method (only elements whose distance is larger than g are the target) Args: numbers: list of elements to be sorted n: len(numbers) g: distance Returns: partially sorted list, counter """ counter = 0 copied_instance = [] for data in numbers: copied_instance.append(data) for i in range(g, n): target = copied_instance[i] j = i - g while j >= 0 and target < copied_instance[j]: copied_instance[j + g] = copied_instance[j] j -= g counter += 1 copied_instance[j + g] = target return copied_instance, counter def shell_sort(numbers, n, key=lambda x: x): """shell sort method Args: numbers: list of elements to be sorted n: len(numbers) Returns: sorted numbers, used G, swapped number """ counter = 0 copied_instance = [] for data in numbers: copied_instance.append(data) G = [1] g = 4 while g < len(numbers): G.append(g) g = g * 3 + 1 G = G[::-1] for g in G: copied_instance, num = insertion_sort(copied_instance, n, g) counter += num return copied_instance, G, counter length = int(raw_input()) numbers = [] counter = 0 while counter < length: numbers.append(int(raw_input())) counter += 1 numbers, G, counter = shell_sort(numbers, length) print(len(G)) print(" ".join([str(x) for x in G])) print(counter) for n in numbers: print(str(n))

n,d = map(int,input().split()) su = 0 for i in range(n): x,y = map(int,input().split()) #print("i=",i,"x,y=",x,y) if d**2 >= x**2 +y**2: su +=1 else: continue print(su)

N,D=map(int, input().split()) A = 0 for i in range(N): X,Y=map(int, input().split()) if (D*D) >= (X*X)+(Y*Y): A +=1 print(A)

import sys h,w,m = map(int, sys.stdin.readline().split()) num_in_h = [0] * h num_in_w = [0] * w targets = set() for _ in range(m): t_h, t_w = map(lambda x: int(x)-1, sys.stdin.readline().split()) num_in_h[t_h] += 1 num_in_w[t_w] += 1 targets.add((t_h, t_w)) max_h = max(num_in_h) max_w = max(num_in_w) max_h_set = set([i for i, v in enumerate(num_in_h) if v == max_h]) max_w_set = set([i for i, v in enumerate(num_in_w) if v == max_w]) ans = max_h + max_w - 1 flag = False for i in max_h_set: for j in max_w_set: if (i, j) not in targets: flag = True break if flag: break print(ans+1 if flag else ans)

def divide(a, b): if a < b: return divide(b, a) if b == 0: return a return divide(b, a%b) nums=list(map(int,input().split())) ans = divide(nums[0], nums[1]) print(ans)

n,b,r = map(int, input().split()) t = n % (b+r) q = n // (b+r) * b if t > b: t = b print(q+t)

from collections import defaultdict N, M = map(int, input().split()) heights = list(map(int, input().split())) d = defaultdict(list) for i in range(M): A, B = map(int, input().split()) d[A].append(B) d[B].append(A) ans_cnt = 0 for i in range(1, N + 1): if d[i] == []: ans_cnt += 1 else: my_height = heights[i - 1] flag = True for j in d[i]: if heights[j - 1] >= my_height: flag = False break if flag: ans_cnt += 1 print(ans_cnt)

k=int(input()) a,b = map(int,input().split()) while b>=a: if b%k==0: print('OK') break b-=1 if b<a: print('NG')

import itertools n = int(input()) p = list(map(int, input().split())) q = list(map(int, input().split())) num = [i for i in range(1,n+1)] lst = list(itertools.permutations(num)) pos_p = 0 pos_q = 0 for i in range(len(lst)): temp = list(lst[i]) if temp == p: pos_p = i if temp == q: pos_q = i print(abs(pos_p - pos_q))

a,b=(int(x) for x in input().split()) print(a*b)

list = input().split(" ") a = int(list[0]) b = int(list[1]) print(a * b)

n = int(input()) nums = [0]*n a = int(n**0.5)+1 for x in range(1,a): for y in range(1,a): if x**2 + y**2 + x*y > n: break for z in range(1,a): s = x**2 + y**2 + z**2 + x*y + y*z + z*x if s <= n: nums[s-1] += 1 print(*nums, sep="\n")

import math N = int(input()) ans = [0] * N n = int(math.sqrt(N)) for x in range(1, n+1): for y in range(1, x+1): for z in range(1, y+1): i = x**2 + y**2 + z**2 + x*y + y*z + z*x if i <= N: if x == y == z: ans[i-1] += 1 elif x == y or y == z: ans[i-1] += 3 else: ans[i-1] += 6 for j in range(N): print(ans[j])

while True : x,op,y = input().split() x=int(x) y=int(y) if op == '?' : break elif op == '+' : print(x+y) elif op == '-' : print(x-y) elif op == '*' : print(x*y) else : print(x//y)

n = int(input()) ikeru = [[] for _ in range(n)] for i in range(n-1): a, b = map(int, input().split()) ikeru[a-1].append((b-1, i)) settansaku = set([]) setmada = {0} listmada = [(0, None)] #left: Vertex, right: Color kouho = 1 num = [0 for _ in range(n-1)] while kouho != 0: for i, cnt in listmada[:]: colors = {cnt} settansaku.add(i) setmada.remove(i) listmada.remove((i, cnt)) kouho -= 1 c = 0 for k, j in ikeru[i]: if not k in setmada: if not k in settansaku: setmada.add(k) while True: if c not in colors: listmada.append((k, c)) colors.add(c) num[j] = c break c += 1 kouho += 1 print(max(num)+1) print("\n".join([str(i+1) for i in num]))

import sys for line in sys.stdin: n,x = map(int,line.split()) if n==0 and x==0: break _range = list(range(1,n+1)) conb = [] for i in _range[::-1]: d = x - i if i - 1 <= 0: continue for j in _range[:i-1][::-1]: d2 = d - j if j - 1 <= 0: continue for k in _range[:j-1][::-1]: if d2 - k == 0: conb.append((i,j,k)) print(len(conb))

n = int(input()) s = [input() for _ in range(n)] print(len(list(set(s))))

def main(): H = int(input()) W = int(input()) N = int(input()) print((N-1)//max(H,W) + 1) if __name__ == '__main__': main()

H = int(input()) W = int(input()) N = int(input()) ans = N // max(H, W) if N % max(H, W) > 0: ans += 1 print(ans)

(a,b) = map(int,raw_input().split()) print str(a*b)+ ' ' + str((a+b)*2)

w,h = map(int, raw_input().split()) print(str(w*h) + ' ' + str((w+h)*2))

n=int(input()) a=list(map(int,input().split())) mod=10**9+7 x=sum(a)%mod y=0 for i in range(n): y+=a[i]**2 y%=mod z=pow(2,mod-2,mod) print(((x**2-y)*z)%mod)

a, b = map(int, input().split(" ")) if 0 < a < 10 and 0 < b < 10: print(a * b) else: print(-1)

import sys, re from collections import deque, defaultdict, Counter from math import ceil, sqrt, hypot, factorial, pi, sin, cos, tan, asin, acos, atan, radians, degrees, log2, gcd from itertools import accumulate, permutations, combinations, combinations_with_replacement, product, groupby from operator import itemgetter, mul from copy import deepcopy from string import ascii_lowercase, ascii_uppercase, digits from bisect import bisect, bisect_left, insort, insort_left from heapq import heappush, heappop from functools import reduce def input(): return sys.stdin.readline().strip() def INT(): return int(input()) def MAP(): return map(int, input().split()) def LIST(): return list(map(int, input().split())) def ZIP(n): return zip(*(MAP() for _ in range(n))) sys.setrecursionlimit(10 ** 9) INF = float('inf') mod = 10 ** 9 + 7 #mod = 998244353 from decimal import * #import numpy as np #decimal.getcontext().prec = 10 #階乗# lim = 10**5 #必要そうな階乗の限界を入力 fact = [1] * (lim+1) for n in range(1, lim+1): fact[n] = n * fact[n-1] % mod #階乗の逆元# fact_inv = [1]*(lim+1) fact_inv[lim] = pow(fact[lim], mod-2, mod) for n in range(lim, 0, -1): fact_inv[n-1] = n*fact_inv[n]%mod def C(n, r): if n < r: return 0 else: return (fact[n]*fact_inv[r]%mod)*fact_inv[n-r]%mod N, K = MAP() A = LIST() A.sort() A_cnt = Counter(A) P = list(A_cnt.keys()) p = list(A_cnt.values()) #print("P={}".format(P)) #print("p={}".format(p)) p_acc = list(accumulate(p)) p_acc_rev = list(accumulate(p[::-1])) #print("p_acc={}".format(p_acc)) #print("p_acc_rev={}".format(p_acc_rev)) n = len(p) T = [[0]*4 for _ in range(n)] for i in range(n): T[i][0] = p_acc[i] for i in range(1, n): T[i][1] = p_acc[i-1] for i in range(n): T[(-i-1)][3] = p_acc_rev[i] for i in range(1, n): T[(-i-1)][2] = p_acc_rev[i-1] #for i in range(n): # print(T[i]) t = [0]*n for idx, x in enumerate(T): t[idx] = (C(x[0], K) - C(x[1], K) + C(x[2], K) - C(x[3], K))%mod ans = 0 for i in range(n): ans = (ans + P[i]*t[i]%mod)%mod print(ans)

import sys, re from collections import deque, defaultdict, Counter from math import ceil, sqrt, hypot, factorial, pi, sin, cos, radians from itertools import accumulate, permutations, combinations, product, groupby from operator import itemgetter, mul from copy import deepcopy from string import ascii_lowercase, ascii_uppercase, digits from bisect import bisect, bisect_left from fractions import gcd from heapq import heappush, heappop from functools import reduce def input(): return sys.stdin.readline().strip() def INT(): return int(input()) def MAP(): return map(int, input().split()) def LIST(): return list(map(int, input().split())) def ZIP(n): return zip(*(MAP() for _ in range(n))) sys.setrecursionlimit(10 ** 9) INF = float('inf') mod = 10 ** 9 + 7 T1, T2 = MAP() A1, A2 = MAP() B1, B2 = MAP() if T1*A1+T2*A2 == T1*B1+T2*B2: print("infinity") exit() if (A1 < B1 and A2 < B2) or (B1 < A1 and B2 < A2): print(0) exit() if A1 > B1: A1, B1 = B1, A1 A2, B2 = B2, A2 if A1*T1+A2*T2 < B1*T1+B2*T2: print(0) exit() F = A1*T1-B1*T1 L = A2*T2-B2*T2 S, T = divmod(-F, F+L) if T == 0: print(2*S) else: print(2*S+1)

from math import sqrt, ceil def divisors(n): out = [] nn = ceil(sqrt(n)) for i in range(1, nn): if n % i == 0: out.append(i) out.append(n//i) if nn ** 2 == n: out.append(nn) out.sort() return out n = int(input()) a = len(divisors(n-1)[1:]) d = divisors(n) for dd in d[1:]: nn = n while nn % dd == 0: nn = nn // dd if nn % dd == 1: a += 1 print(a)

h,w,n = int(input()),int(input()),int(input()) ans = 0 s = 0 while s < n: s += max(h,w) ans += 1 print(ans)

# coding: utf-8 def solve(*args: str) -> str: n = int(args[0]) A = list(map(int, args[1].split())) rem = sum(A) cur = 1 ret = 0 for a in A: cur = min(rem, cur) rem -= a ret += cur cur = 2*(cur-a) if cur < 0: ret = -1 break return str(ret) if __name__ == "__main__": print(solve(*(open(0).read().splitlines())))

D = int(input()) c_list = list(map(int, input().split())) s_list = [list(map(int, input().split())) for _ in range(D)] last_open = [0] * 26 res = 0 res_list = [] for i in range(D): t = int(input()) res += s_list[i][t-1] bad = 0 last_open[t-1] = i+1 for ci in range(26): bad += c_list[ci]*(i+1 - last_open[ci]) res -= bad print(res) res_list.append(res)

import sys write=sys.stdout.write while True: h,w=map(int,raw_input().split()) if h==w==0: break for i in xrange(h): l=[('#' if i%2==j%2==0 else ('.' if (i%2==1 and j%2==0) or (i%2==0 and j%2==1) else '#')) for j in xrange(w)] for i in l: write(i) print "" print ""

def print_it(l, n): print(''.join([l[x % 2] for x in range(n)])) matrix = [] while True: values = input() if '0 0' == values: break matrix.append([int(x) for x in values.split()]) sc = ['#', '.'] cs = ['.', '#'] for height, width in matrix: for i in range(height): if 0 == i % 2: print_it(sc, width) else: print_it(cs, width) print()

n = int(input()) dp = [1] * (n+1) for j in range(n-1): dp[j+2] = dp[j+1] + dp[j] print(dp[n])

N = int(input()) memolist = [-1]*(N+1) def fib(x): if memolist[x] == -1: if x == 0 or x == 1: memolist[x] = 1 else: memolist[x] = fib(x - 1) + fib(x - 2) return memolist[x] print(fib(N))

n=int(input()) l0=[[] for _ in range(n)] l1=[[] for _ in range(n)] for i in range(n): a=int(input()) for j in range(a): x,y=map(int,input().split()) if y==0: l0[i].append(x) else: l1[i].append(x) ans=0 for i in range(2**n): s0=set() s1=set() num=0 num1=[] num0=[] for j in range(n): if (i>>j) & 1: num1.append(j+1) for k in range(len(l0[j])): s0.add(l0[j][k]) for k in range(len(l1[j])): s1.add(l1[j][k]) else: num0.append(j+1) for j in range(len(s1)): if s1.pop() in num0: num=1 break if num==0: for j in range(len(s0)): if s0.pop() in num1: num=1 break if num==0: ans=max(ans,len(num1)) print(ans)

n = int(input()) ans = [0] * 10010 def get_ans(n): cnt = 0 for x in range(1, 101): for y in range(1, 101): for z in range(1, 101): k = x**2 + y**2 + z**2 + x*y + y*z + z*x if(k <= 10000): ans[k] += 1 return ans ans = get_ans(n) for i in range(1, n+1): print(ans[i])

n = int(input()) a = list(map(int, input().split())) cnt = 0 for i in range(len(a)): if i%2==0 and a[i]%2==1: cnt+=1 print(cnt)

n = int(input()) a = list(map(int, input().split())) ans = 0 for num in range(1, n+1, 2): if a[num-1] % 2 != 0: ans += 1 print(ans)

from collections import deque N, D, A = map(int, input().split()) mons = [] for _ in range(N): X, H = map(int, input().split()) mons.append((X, (H + A - 1) // A)) mons.sort() ans = 0 q = deque([]) tot = 0 for x, h in mons: while q: x0, h0 = next(iter(q)) if x - 2 * D <= x0: break tot -= h0 q.popleft() h = max(0, h - tot) ans += h tot += h q.append((x, h)) print(ans)

import bisect n,d,a = map(int,input().split()) lst = [] x = [] for i in range(n): xi,hi = map(int,input().split()) lst.append([xi,hi,0]) x.append(xi) lst.sort() x.sort() count = 0 cur = 0 for i in range(n): if lst[i][1]-cur > 0: num = -(-(lst[i][1]-cur)//a) count += num damage = a * num cur += damage index = bisect.bisect(x,x[i]+2*d) if index != n: lst[index-1][2] += damage cur -= lst[i][2] print(count)

ABC = list(map(int,input().split())) red = ABC[0] green = ABC[1] blue = ABC[2] K = int(input()) for i in range(K): if green <= red: green *= 2 continue elif blue <= green: blue *= 2 if green > red and blue > green: print('Yes') else: print('No')

N, K = map(int, input().split()) SC = list(map(int, input().split())) T = input() Q = [] for i in range(len(T)): if T[i] == "r": Q.append(0) elif T[i] == "s": Q.append(1) else: Q.append(2) my = [0 for i in range(N)] ans = 0 for i in range(N): if i < K: my[i] = (Q[i] - 1) % 3 ans += SC[my[i]] else: n = (Q[i] - 1) % 3 if my[i - K] != n: my[i] = n ans += SC[my[i]] else: if i + K < N: my[i] = Q[i+K] print(ans)

n = input() str_n = list(n) if str_n[-1] == "3": print("bon") elif str_n[-1] == "0" or str_n[-1] == "1" or str_n[-1] == "6" or str_n[-1] == "8": print("pon") else: print("hon")

N = list(input()) l = len(N) if N[l-1] == '2' or N[l-1] == '4' or N[l-1] == '5' or N[l-1] == '7' or N[l-1] == '9': print('hon') elif N[l-1] == '0' or N[l-1] == '1' or N[l-1] == '6' or N[l-1] == '8': print('pon') elif N[l-1] == '3': print('bon')

x = int(input()) money = 100 year = 0 while True: money = money + money*100//10000 year += 1 if money >= x: print(year) exit()

x=int(input()) cost=100 for i in range(1,10000000000): cost+=cost//100 if cost>=x: print(i) break

X, Y, A, B, C = map(int, input().split()) Ap = list(map(int, input().split())) Bq = list(map(int, input().split())) Cr = list(map(int, input().split())) Ap.sort() Bq.sort() print(sum(sorted(Ap[A-X:] + Bq[B-Y:] + Cr)[C:]))

x,y,a,b,c = map(int, input().split()) p = list(map(int, input().split())) q = list(map(int, input().split())) r = list(map(int, input().split())) p.sort(reverse = True) q.sort(reverse = True) r.sort(reverse = True) p = p[:x] q = q[:y] r = r[:x+y] all = p + q + r all.sort(reverse = True) print(sum(all[:x+y]))

import sys sys.setrecursionlimit(10**9) def mi(): return map(int,input().split()) def ii(): return int(input()) def isp(): return input().split() def deb(text): print("-------\n{}\n-------".format(text)) INF=10**20 def main(): N,K=mi() P=list(mi()) C=list(mi()) ans = -INF for i in range(N): start = i + 1 stack = [start] score_his = [0] scores = 0 depth = 1 seen = {} while stack: if depth > K: break current = stack.pop() if current in seen: loop_start_depth = seen[current] loop_end_depth = depth - 1 loop_scores = score_his[-1] - score_his[loop_start_depth-1] loop_len = loop_end_depth - loop_start_depth + 1 if loop_scores < 0: break # print(start,score_his) # print(loop_start_depth,loop_end_depth,loop_scores,loop_len) rest_count = K - depth + 1 available_loop_count = rest_count // loop_len res1 = (available_loop_count-1) * loop_scores + scores # print("a",rest_count,available_loop_count,res1) res2 = res1 rest_loop_len = rest_count % loop_len + loop_len # print("b",rest_loop_len) ress = [res1,res2] for j in range(rest_loop_len): score = C[P[current-1]-1] res2 += score ress.append(res2) current = P[current-1] # print("ress",ress) score_his.append(max(ress)) break score = C[P[current-1]-1] scores += score score_his.append(scores) seen[current] = depth stack.append(P[current-1]) depth += 1 ans = max(ans,max(score_his[1:])) print(ans) if __name__ == "__main__": main()

from itertools import combinations_with_replacement N, M, Q = map(int, input().split()) Ques = [ list(map(int, input().split())) for _ in range(Q) ] Nums = [ i for i in range(M) ] ans = -1 for v in combinations_with_replacement(Nums, N): cnt = 0 for que in Ques: if v[que[1]-1]-v[que[0]-1] == que[2]: cnt += que[3] ans = max(ans, cnt) print(ans)

n = list(input()) for i in range(0, len(n)): print("x", end = "")

# B - I miss you... # S S = input() answer = '0' for i in range(0, len(S)): answer += 'x' print(answer[1:len(S) + 1])

import sys for i in sys.stdin.readlines(): a,b = map(int,i.split()) print len(str(a+b))

import sys import math for n in [int(math.log10(float(int(line.split()[0])+int(line.split()[1]))))+1 for line in sys.stdin]: print n

def main(): s = input() n = len(s) for i in range(n//2): if s[i] != s[n-1-i]: print("No") return s1 = s[:(n-1)//2] s2 = s[(n+3)//2-1:] n1 = len(s1) for i in range(n//4): if s1[i] != s[n1-1-i]: print("No") return if s2[i] != s[n1-1-i]: print("No") return print("Yes") if __name__ == "__main__": main()

# coding: utf-8 import sys from collections import deque readline = sys.stdin.readline sr = lambda: readline().rstrip() ir = lambda: int(sr()) lr = lambda: list(map(int, sr().split())) # 左からgreedyに N, D, A = lr() monsters = [] for _ in range(N): x, h = lr() monsters.append((x, h)) monsters.sort() bomb = deque() answer = 0 attack = 0 for x, h in monsters: while bomb: if bomb[0][0] + D < x: attack -= bomb[0][1] bomb.popleft() else: break h -= attack if h > 0: t = -(-h//A) answer += t bomb.append((x + D, A * t)) attack += A * t print(answer)

table = [[ 0 for i in range(13)] for j in range(4)] n = int(input()) i = 0 while i < n: s,num = input().split() num = int(num) if s == "S": table[0][num-1] = 1 elif s == "H": table[1][num-1] = 1 elif s == "C": table[2][num-1] = 1 else: # D table[3][num-1] = 1 i += 1 for i,elem_i in enumerate(table): for j,elem_j in enumerate(elem_i): if elem_j ==1: continue if i == 0: s_str='S' elif i == 1: s_str='H' elif i == 2: s_str='C' else: s_str='D' print (s_str + " " + str(j+1))

l=[] for mark in ["S","H","C","D"]: for i in range(1,14): l.append(mark+" "+str(i)) n=input() for i in range(int(n)): l.remove(input()) for i in l: print(i)

S=str(input()) S=S.replace('?', 'D') print(S)

import sys from collections import defaultdict as dd from collections import deque from functools import * from fractions import Fraction as f from copy import * from bisect import * from heapq import * #from math import * from itertools import permutations ,product def eprint(*args): print(*args, file=sys.stderr) zz=1 #sys.setrecursionlimit(10**6) if zz: input=sys.stdin.readline else: sys.stdin=open('input.txt', 'r') sys.stdout=open('all.txt','w') def inc(d,c): d[c]=d[c]+1 if c in d else 1 def bo(i): return ord(i)-ord('A') def li(): return [int(xx) for xx in input().split()] def fli(): return [float(x) for x in input().split()] def comp(a,b): if(a>b): return 2 return 2 if a==b else 0 def gi(): return [xx for xx in input().split()] def fi(): return int(input()) def pro(a): return reduce(lambda a,b:a*b,a) def swap(a,i,j): a[i],a[j]=a[j],a[i] def si(): return list(input().rstrip()) def mi(): return map(int,input().split()) def gh(): sys.stdout.flush() def isvalid(i,j): return 0<=i<n and 0<=j<n def bo(i): return ord(i)-ord('a') def graph(n,m): for i in range(m): x,y=mi() a[x].append(y) a[y].append(x) t=1 def find(a,i): if i==a[i]: return a[i] a[i]=find(a,a[i]) return a[i] def union(a,x,y): xs=find(a,x) ys=find(a,y) if xs!=ys: if rank[xs]<rank[ys]: xs,ys=ys,xs a[ys]=xs rank[xs]+=1 while t>0: t-=1 n,m=mi() a=[i for i in range(n+1)] rank=[0]*(n+1) for i in range(m): x,y=mi() union(a,x,y) d=[0]*(n+1) for i in range(1,n+1): a[i]=find(a,i) d[a[i]]+=1 print(max(d))

import sys class Card: def __init__(self, card): self.card = card self.mark = card[0] self.value = card[1] def equals(self, other): if self.mark != other.mark: return False if self.value != other.value: return False return True def __str__(self): return self.card def print_cards(cards, cards_): n = len(cards) same = True for i in range(n): if cards_ != None and cards[i].equals(cards_[i]) == False: same = False sys.stdout.write(str(cards[i])) if i != n - 1: sys.stdout.write(' ') print() return same def swap(cards, i, j): temp = cards[i] cards[i] = cards[j] cards[j] = temp def bubble_sort(cards): n = len(cards) for i in range(n): for j in range(n - 1, i, -1): if cards[j].value < cards[j - 1].value: swap(cards, j, j - 1) def selection_sort(cards): n = len(cards) for i in range(n): mini = i for j in range(i, n): if cards[j].value < cards[mini].value: mini = j if mini != i: swap(cards, i, mini) n = int(input()) input_list = list(map(str, input().split())) cards1 = [None] * n cards2 = [None] * n for i in range(n): cards1[i] = Card(input_list[i]) cards2[i] = Card(input_list[i]) bubble_sort(cards1) selection_sort(cards2) print_cards(cards1, None) print('Stable') stable = print_cards(cards2, cards1) if stable == True: print('Stable') else: print('Not stable')

def selection_sort(numbers, n, key=lambda x: x): """selection sort method Args: numbers: a list of numbers to be sorted n: len(numbers) key: sort key Returns: sorted numberd, number of swapped times """ x = [] for data in numbers: x.append(data) counter = 0 for i in range(0, n): min_j = i for j in range(i, n): if key(x[j]) < key(x[min_j]): min_j = j if min_j != i: x[min_j], x[i] = x[i], x[min_j] counter += 1 return x, counter def bubble_sort(numbers, n, key=lambda x: x): """bubble sort method Args: numbers: a list of numbers to be sorted by bubble sort n: len(list) key: sort key Returns: sorted list """ x = [] for data in numbers: x.append(data) flag = True counter = 0 while flag: flag = False for index in range(n - 1, 0, -1): if key(x[index]) < key(x[index - 1]): x[index], x[index - 1] = x[index - 1], x[index] flag = True counter += 1 return x, counter def insertion_sort(numbers, n, key=lambda x: x): """insertion sort method Args: numbers: a list of numbers to be sorted n: len(numbers) Returns: sorted list """ for i in range(1, n): target = numbers[i] index = i - 1 while index >= 0 and target < numbers[index]: numbers[index + 1] = numbers[index] index -= 1 numbers[index + 1] = target return numbers def is_stable(list1, list2): """check stablity of sorting method used in list2 Args: list1: sorted list(bubble sort) list2: sorted list(some sort) Returns: bool """ flag = True for index, data in enumerate(list1): if list2[index] != data: flag = False break return flag length = int(raw_input()) cards = raw_input().split() bubble_sorted_card, bubble_swapped = bubble_sort(numbers=cards, n=length, key=lambda x: int(x[1])) selection_sorted_card, selection_swapped = selection_sort(numbers=cards, n=length, key=lambda x: int(x[1])) print(" ".join(bubble_sorted_card)) print("Stable") print(" ".join(selection_sorted_card)) if is_stable(bubble_sorted_card, selection_sorted_card): print("Stable") else: print("Not stable")

S = int(input()) f = 10**9 + 7 dp = [0]*(S+1) dp[0] = 1 for i in range(1,S+1): if i==1 or i==2: dp[i] = 0 else: for j in range(0,i-2): dp[i] += dp[j] dp[i] %= f print(dp[-1]%f)

W,H,x,y,r = map(int, input().split()) if W < (x+r) or H < (y + r) or 0 > (x-r) or 0 > (y-r) : print("No") else : print("Yes")

def gcd (a, b): while b != 0: a, b = b, a%b return a def lcm(a, b,mod): return a*b//gcd(a,b) N = int(input()) A = list(map(int,input().split())) mod = 10**9+7 b = 1 for i in range(N): a = A[i] b = lcm(a,b,mod) ans = 0 for a in A: ans += b//a print(ans%mod)

# 幅優先探索 from collections import deque N, M = map(int, input().split()) AB = [map(int, input().split()) for _ in range(M)] links = [[] for _ in range(N + 1)] for a, b in AB: links[a].append(b) links[b].append(a) result = [-1] * (N + 1) q = deque([1]) while q: i = q.popleft() for j in links[i]: if result[j] == -1: result[j] = i q.append(j) print('Yes') print(*result[2:], sep='\n')

def main(): import sys input = sys.stdin.readline n, d, a = [int(i) for i in input().split()] chk = [] for i in range(n): x, h = [int(i) for i in input().split()] chk.append((x, 0, h)) from heapq import heapify, heappop, heappush heapify(chk) atk_cnt = 0; ans = 0 while chk: x, t, h = heappop(chk) if t == 0: if atk_cnt * a >= h: continue remain = h - atk_cnt * a new_atk = (remain - 1) // a + 1 heappush(chk, (x + 2 * d, 1, new_atk)) ans += new_atk atk_cnt += new_atk else: atk_cnt -= h print(ans) if __name__ == '__main__': main()

K = int(input()) S = input() l = list(S) if len(l) <= K: print(S) else: ans = '' for i in range(K): ans += l[i] ans += '...' print(ans)

t,h=0,0 n=int(input()) for i in range(n): a,b=input().split() if a > b: t+=3 elif a < b: h+=3 else: t+=1 h+=1 print(t, h)

n = int(input()) s = input().split() arr = [int(s[i]) for i in range(n)] arr.sort() sum = 0 for i in range(len(arr)): sum += arr[i] print(arr[0], arr[len(arr)-1], sum)

import sys,queue,math,copy,itertools,bisect,collections,heapq def main(): LI = lambda : [int(x) for x in sys.stdin.readline().split()] N,K = LI() A = LI() c = 0 d = collections.Counter() d[0] = 1 ans = 0 r = [0] * (N+1) for i,x in enumerate(A): if i >= K-1: d[r[i-(K-1)]] -= 1 c = (c + x - 1) % K ans += d[c] d[c] += 1 r[i+1] = c print(ans) if __name__ == '__main__': main()

import bisect import collections N,K=map(int,input().split()) A=list(map(int,input().split())) A.insert(0,0) cuml=[0]*(N+1) cuml[0]=A[0] l=[] cuml2=[] l2=[] buf=[] ans=0 for i in range(N): cuml[i+1]=cuml[i]+A[i+1] #print(cuml) for i in range(N+1): cuml2.append([(cuml[i]-i)%K,i]) cuml[i]=(cuml[i]-i)%K #print(cuml2,cuml) cuml2.sort(key=lambda x:x[0]) piv=cuml2[0][0] buf=[] for i in range(N+1): if piv!=cuml2[i][0]: l2.append(buf) piv=cuml2[i][0] buf=[] buf.append(cuml2[i][1]) l2.append(buf) #print(l2) cnt=0 for i in range(len(l2)): for j in range(len(l2[i])): num=l2[i][j] id=bisect.bisect_left(l2[i], num + K) #print(j,id) cnt=cnt+(id-j-1) print(cnt)

from itertools import permutations if __name__ == "__main__": N = int(input()) P = tuple(map(int,input().split())) Q = tuple(map(int,input().split())) arr = [i for i in range(1,N+1)] pattern_arr = list(permutations(arr)) a,b = -1,-1 for i,pattern in enumerate(pattern_arr): if pattern == P: a = i if pattern == Q: b = i print(abs(a-b))

import itertools N = int(input()) l = [] for i in itertools.permutations(list(range(1,N+1))): l.append(i) P = tuple(map(int,input().split())) Q = tuple(map(int,input().split())) a = 1 b = 1 for i in l: if i < P: a += 1 for i in l: if i < Q: b += 1 print(abs(a-b))

N,K,*A=map(int,open(0).read().split()) for _ in range(K): B=[0]*(N+1) for i,j in enumerate(A): B[max(0,i-j)]+=1 B[min(N,i+j+1)]-=1 for i in range(N):B[i+1]+=B[i] if A==B:break A=B print(*A[:-1])

N, K = map(int, input().split()) As = list(map(int, input().split())) for i in range(K): if min(As) == N: break dBs = [0]*(N+1) for i in range(N): A = As[i] dBs[max(0, i-A)] += 1 dBs[min(N, i+A+1)] -= 1 #print(dBs) Bs = [dBs[0]] for i in range(1, N): B = Bs[i-1]+dBs[i] Bs.append(B) As = Bs print(" ".join(map(str, As)))

def popcount(x): return bin(x).count("1") def solve(n): if n == 0: return 0 return 1+solve(n % popcount(n)) N = int(input()) X = input() num_x = int(X, 2) p_cnt = X.count('1') if p_cnt == 1: for i in range(N): if X[i] == '1': print(0) elif i == N-1: print(2) else: print(1) exit() r0_p = num_x % (p_cnt+1) r0_m = num_x % (p_cnt-1) for i in range(N): if X[i] == '0': c_p_cnt = p_cnt+1 r = (r0_p + pow(2, (N - 1 - i), c_p_cnt)) % c_p_cnt else: c_p_cnt = p_cnt-1 if c_p_cnt == 0: print(0) continue r = (r0_m- pow(2, (N - 1 - i), c_p_cnt)) % c_p_cnt print(1 + solve(r % c_p_cnt))

from functools import lru_cache def popcnt(x): return bin(x).count("1") @lru_cache(maxsize=None) def rec(n): if n == 0: return 0 else: return rec(n % popcnt(n)) + 1 n = int(input()) arr = input() ALL_ARR = int(arr, 2) # ALL_ARR mod popcnt±1を予め計算しておく cnt = popcnt(int(arr, 2)) init_big = ALL_ARR % (cnt + 1) if cnt == 1: init_small = 0 else: init_small = ALL_ARR % (cnt - 1) # 変更部分だけ調整して剰余を再計算する # 調整部分だけでも数が大きいためpowの引数modで高速化 li = [0] * n for i in range(n): if arr[i] == "0": li[i] = (init_big + pow(2, n - i - 1, cnt + 1)) % (cnt + 1) # 0除算回避のためにフラグを立てておく elif ALL_ARR - (1 << (n - i - 1)) == 0 or cnt - 1 == 0: li[i] = "flg" else: li[i] = (init_small - pow(2, n - i - 1, cnt - 1)) % (cnt - 1) ans = [] for x in li: if x == "flg": ans.append(0) else: ans.append(rec(x) + 1) print(*ans, sep="\n")

while True: c = str(input()) if c == "-": break n = int(input()) for i in range(n): a = int(input()) c = c[a:] + c[:a] print(c)

while True: line = input() if line=='-': break loop = int(input()) for i in range(loop): x = int(input()) line = line[x:] + line[:x] print(line)

N = int(input()) alist = list(map(int, input().split())) k = 1 if 0 in alist: print(0) else: for i in range(0,N): k = k*alist[i] if k > 1000000000000000000: k= -1 break print(k)

def main(): n = int(input()) As = list(map(int, input().split())) ans = 1 if 0 in As: print(0) return for a in As: ans *= a if ans > 10**18: print(-1) return print(ans) if __name__ == '__main__': main()

# coding: utf-8 """ import codecs import sys sys.stdout = codecs.getwriter("shift_jis")(sys.stdout) # ?????? sys.stdin = codecs.getreader("shift_jis")(sys.stdin) # ??\??? # ??\??¬?????????print??????????????´?????? print(u'?????????') ??¨?????? # ??\??¬?????????input??? input(u'?????????') ??§OK # ??°?¢???????????????????????????´??????6,7???????????????????????¢?????? """ s = raw_input() p = raw_input() #s = "abaabbaabbaaaaaabbaabba" #p = "aabbaabaabb" cnt = s.count(p[0]) #????§?????£?????????° flag = 0 if cnt == -1: #p???????????????????????¨????????? print("No") else: #????§?????£?????????¨?????? start_search = 0 #????´¢?????????????§??????? while cnt > 0: index = s.find(p[0], start_search) #????§???????????????? ans = 1 for i in range(len(p)): if index + i >= len(s): #????°?????????????????????´?????????????????????????????????????????? j = i - len(s) else: j = i if s[index + j] != p[i]: #1????????§????????£????????????????????§??¢?´¢?????? ans = 0 break if ans == 1: print("Yes") flag = 1 break start_search = index + 1 #print(start_search) cnt -= 1 if flag == 0: print("No")

import itertools N, M, Q = list(map(int, input().split())) a = [] b = [] c = [] d = [] for i in range(Q): ai, bi, ci, di = list(map(int, input().split())) a.append(ai) b.append(bi) c.append(ci) d.append(di) ans = 0 for A in list(itertools.combinations_with_replacement(range(1, M+1), N)): # print(A) score = 0 for i in range(Q): if A[b[i]-1] - A[a[i]-1] == c[i]: score += d[i] if ans < score: ans = score # print(A, score) print(ans)

import sys def main(): for line in sys.stdin: a, b = map(int, line.split()) print(len(str(a + b))) if __name__ == "__main__": main()

import math n = int(input()) x = [int(i) for i in input().split()] y = [int(i) for i in input().split()] p1 = 0 p2 = 0 p3 = 0 p4 = [] for i in range(n): p1 += math.pow(abs(x[i]-y[i]),1) for i in range(n): p2 += math.pow(abs(x[i]-y[i]),2) for i in range(n): p3 += math.pow(abs(x[i]-y[i]),3) for i in range(n): p4.append(abs(x[i]-y[i])) print(p1) print(math.sqrt(p2)) print(math.pow((p3),1/3)) print(max(p4))

s = [i for i in input()] if s[2] == s[3] and s[4] == s[5]: print('Yes') else: print('No')

c=str(input()) print('Yes' if c[2]==c[3] and c[4]==c[5] else'No')

x = int(input()) cnt = x//100 if x < 100 : print("0") else : for i in range(cnt) : if 100*cnt <= x <= 105*cnt : print("1") break else : print("0")

def so(x): xx = int(x ** 0.5) + 1 for i in range(2, xx): if x % i == 0: return True return False x = int(input()) while(so(x)): x += 1 print(x)

def main(): arg = input().rstrip() ans = 'ABC' if arg == 'ARC' else 'ARC' print(ans) if __name__ == '__main__': main()

s=input() if s=="ABC": print("ARC") else: print("ABC")

n=input() fn_first=1 fn_second=1 if n >= 2: for x in xrange(n-1): tmp = fn_first fn_first = fn_first + fn_second fn_second = tmp print fn_first

import itertools n = int(input()) l = list(map(int, input().split())) count = 0 c_list = list(itertools.combinations(l, 3)) for c in c_list: if (c[0]+c[1])>c[2] and (c[1]+c[2])>c[0] and (c[2]+c[0])>c[1]: if len(set(c)) == 3: count += 1 print(count)

h,a = map(int,input().split()) print(-1*(h//(-1*a)))

def resolve(): n = int(input()) def make_divisors(n): divisors = [] for i in range(1, int(n**0.5)+1): if n % i == 0: divisors.append(i) if i != n // i: divisors.append(n//i) divisors.sort() return divisors divisors = make_divisors(n) min_pair = 10**19 for i in divisors: pair_i = n//i min_pair = min(min_pair, ((i-1)+(pair_i-1))) print(min_pair) resolve()

S = int(input()) h = S // 3600 m = (S // 60) % 60 s = S % 60 print("%d:%d:%d" % (h, m, s))

S = int(raw_input()) M, s = S / 60, S % 60 h, m = M / 60, M % 60 print '%d:%d:%d' % (h, m, s)

#!/usr/bin/env python3 def main(): A, B, C, D = map(int, input().split()) print('Yes' if - (-A // D) >= -(-C // B) else 'No') if __name__ == '__main__': main()

A,B,C,D=map(int,input().split()) while A>0 and C>0: C-=B A-=D if C<=0: print("Yes") break elif A<=0: print("No")

i = 1 while True: a = int(input()) if(a == 0): break else : print(f'Case {i}: {a}') i += 1

n = int(raw_input()) tp = 0; hp = 0 for i in range(n): tw,hw = raw_input().split() if tw == hw: tp += 1 hp += 1 elif tw > hw: tp += 3 elif tw < hw: hp += 3 print '%s %s' % (tp,hp)

import sys def input(): return sys.stdin.readline().strip() def mapint(): return map(int, input().split()) sys.setrecursionlimit(10**9) N, u, v = mapint() query = [[] for _ in range(N)] for _ in range(N-1): a, b = mapint() query[a-1].append(b-1) query[b-1].append(a-1) from collections import deque def dfs(start): Q = deque([start]) dist = [10**18]*N dist[start] = 0 while Q: now = Q.pop() for nx in query[now]: if dist[nx]>=10**18: dist[nx] = dist[now] + 1 Q.append(nx) return dist taka = dfs(u-1) aoki = dfs(v-1) ans = 0 for i in range(N): t, a = taka[i], aoki[i] if t<=a: ans = max(ans, a-1) print(ans)

n = int(input()) s = str(input()) s += "A" q = s[0] ans = 0 for i in range(n+1): if(q==s[i]): None else: ans += 1 q = s[i] print(ans)

def divide(a, b): if a < b: return divide(b, a) if b == 0: return a return divide(b, a%b) nums=list(map(int,input().split())) ans = divide(nums[0], nums[1]) print(ans)

def gcd(a,b): if(b): return gcd(b,a%b) return a l = raw_input().split() if(int(l[0]) > int(l[1])): print gcd(int(l[0]),int(l[1])) else: print gcd(int(l[1]),int(l[0]))

n = int(input()[-1]) if n == 3: print("bon") elif n in [0, 1, 6, 8]: print("pon") else: print("hon")

m=input() l=len(m) if m[l-1]=="0" or m[l-1]=="1" or m[l-1]=="6" or m[l-1]=="8": print("pon") elif m[l-1]=="3": print("bon") else: print("hon")