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

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PoolC 13

from math import ceil,floor,factorial,gcd,sqrt,log2,cos,sin,tan,acos,asin,atan,degrees,radians,pi,inf,comb from itertools import accumulate,groupby,permutations,combinations,product,combinations_with_replacement from collections import deque,defaultdict,Counter from bisect import bisect_left,bisect_right from operator import itemgetter from heapq import heapify,heappop,heappush from queue import Queue,LifoQueue,PriorityQueue from copy import deepcopy from time import time import string import sys sys.setrecursionlimit(10 ** 7) def input() : return sys.stdin.readline().strip() def INT() : return int(input()) def MAP() : return map(int,input().split()) def LIST() : return list(MAP()) n = INT() x = [[0]*2 for i in range(n)] for i in range(n): x[i][0], x[i][1] = MAP() x.sort() tmp = -inf ans = n for i in range(n): if tmp > x[i][0] - x[i][1]: ans -= 1 tmp = min(tmp, x[i][0] + x[i][1]) else: tmp = x[i][0] + x[i][1] print(ans)

def FizzBuzz_sum(): # 入力 N = int(input()) # 初期処理 N = [i for i in range(1,N+1)] sum = 0 # 比較処理 for i in N: if i % 3 == 0 and i % 5 == 0: pass elif i % 3 == 0: pass elif i % 5 == 0: pass else: sum += i return sum result = FizzBuzz_sum() print(result)

import sys #input = sys.stdin.buffer.readline # mod=10**9+7 # rstrip().decode('utf-8') # map(int,input().split()) # import numpy as np def main(): n=int(input()) s=[] t=[] for i in range(n): a,b=input().split() s.append(a) t.append(int(b)) x=input() for i in range(n): if x==s[i]: print(sum(t[i+1:])) if __name__ == "__main__": main()

N = int(input()) music = [] time = [] for i in range(N): m,t = input().split() music.append(m) time.append(int(t)) S = input() ans = 0 ans += sum(time[music.index(S)+1:]) print(ans)

import math,string,itertools,fractions,heapq,collections,re,array,bisect,sys,random,time,copy,functools from collections import deque sys.setrecursionlimit(10**7) inf = 10**20 mod = 10**9 + 7 DR = [1, -1, 0, 0] DC = [0, 0, 1, -1] def LI(): return [int(x) for x in sys.stdin.readline().split()] def LI_(): return [int(x)-1 for x in sys.stdin.readline().split()] def LF(): return [float(x) for x in sys.stdin.readline().split()] def LS(): return sys.stdin.readline().split() def I(): return int(sys.stdin.readline()) def F(): return float(sys.stdin.readline()) def S(): return input() def main(): N, T = LI() AB = [] for i in range(N): _a, _b = LI() AB.append((_a, _b)) AB = sorted(AB, key=lambda x: (x[0], x[1])) a = [elem[0] for elem in AB] b = [elem[1] for elem in AB] dp = [[0 for _ in range(T + 3001)] for _ in range(N+1)] for i in range(N): for t in range(T): dp[i+1][t+a[i]] = max(dp[i+1][t+a[i]], dp[i][t] + b[i]) dp[i+1][t] = max(dp[i+1][t], dp[i][t]) ans = 0 for i in range(N+1): for j in range(T + 3001): ans = max(dp[i][j], ans) print(ans) main()

import sys input = sys.stdin.readline from collections import defaultdict, deque n, s = int(input()), list(map(int, input().split())) res = [0 for i in range(n)] for i in range(n): res[s[i]-1] = i + 1 print(' '.join(str(i) for i in res))

N = int(input()) a = [] for i in range(N): a.append(input()) a = sorted(a) count = 0 count_list=[] b = [] for i,k in enumerate(a): if i == 0: continue if k == a[i-1]: count+=1 else: count_list.append(count) b.append(a[i-1]) count = 0 if i==N-1: count_list.append(count) b.append(a[i]) maxi = 0 maxi_list =[] for i,k in enumerate(count_list): if maxi <k: maxi_list.clear() maxi_list.append(b[i]) maxi = k elif maxi == k: maxi_list.append(b[i]) else: continue for i in maxi_list: print(i)

import sys stdin = sys.stdin ni = lambda: int(ns()) na = lambda: list(map(int, stdin.readline().split())) nn = lambda: list(stdin.readline().split()) ns = lambda: stdin.readline().rstrip() n,r = na() print(r+max(0,100*(10-n)))

import sys input = sys.stdin.readline N=int(input()) L=list(map(int,input().split())) Q=int(input()) R=[0]*(10**5) for i in L: R[i-1]+=1 ans=sum(L) for i in range(Q): a,b=map(int,input().split()) R[b-1]+=R[a-1] ans+=(b-a)*R[a-1] R[a-1]=0 print(ans)

#template def inputlist(): return [int(j) for j in input().split()] #template """ H,W = inputlist() st = inputlist() gl = inputlist() maze = ['0']*H for i in range(H): maze[i] = list(input()) table = [[10**9+7]*W for _ in range(H)] """ D,T,S = inputlist() time = D//S + int(D%S != 0) if time <= T: print("Yes") else: print("No")

import bisect import itertools import numpy as np def search_cut(N, M, A): high_cut = A[-1] * 2 low_cut = A[0] * 2 while high_cut > low_cut + 1: mid = (high_cut + low_cut) // 2 count = (N - np.searchsorted(A, mid - A, side = 'left')).sum() if count > M: low_cut = mid else: high_cut = mid return low_cut, high_cut def happiness(N, M, A, low_cut, high_cut): A_sum = np.zeros(N + 1) A_sum[1:] = np.cumsum(A) X = np.searchsorted(A, high_cut - A, side = 'left') happiness = (A_sum[-1] - A_sum[X]).sum() happiness += ((N - X) * A).sum() happiness += (M - (N - X).sum()) * low_cut return int(happiness) N, M = map(int, input().split()) A = np.array(list(map(int, input().split()))) A = np.sort(A) low_cut, high_cut = search_cut(N, M, A) ans = happiness(N, M, A, low_cut, high_cut) print(ans)

import statistics while True: n = int(input()) if n == 0: break scores = list((int(x) for x in input().split())) std = statistics.pstdev(scores) print("{0:.8f}" . format(round(std,8)))

w,h,x,y,r=map(int,raw_input().split()) f=0 if x+r>w: f=1 if y+r>h: f=1 if r>x: f=1 if r>y: f=1 if f==0: print "Yes" else: print "No"

w, h, x, y, r = map(int, input().split()) if x - r < 0: print('No') elif x + r > w: print('No') elif y - r < 0: print('No') elif y + r > h: print('No') else: print('Yes')

while True: x = input().split() if x[1] == '+': y = int(x[0])+int(x[2]) print(y) elif x[1] == '-': y = int(x[0])-int(x[2]) print(y) elif x[1] == '*': y = int(x[0])*int(x[2]) print(y) elif x[1] == '/': y = int(x[0])//int(x[2]) print(y) elif x[1] == '?': break

while True: s = raw_input().split() if '?' == s[1]: break if '+' == s[1]: print int(s[0])+int(s[2]) if '-' == s[1]: print int(s[0])-int(s[2]) if '*' == s[1]: print int(s[0])*int(s[2]) if '/' == s[1]: print int(s[0])/int(s[2])

def resolve(): N, M, Q = list(map(int, input().split())) Q = [list(map(int, input().split())) for _ in range(Q)] import itertools maxpoint = 0 for seq in itertools.combinations_with_replacement(range(1, M+1), N): point = 0 for a, b, c, d in Q: if seq[b-1] - seq[a-1] == c: point += d maxpoint = max(maxpoint, point) print(maxpoint) if '__main__' == __name__: resolve()

from collections import deque N, M, Q = map(int, input().split()) A = [list(map(int, input().split())) for i in range(Q)] def calc(x): ans = 0 for a, b, c, d in A: if int(x[b-1]) - int(x[a-1]) == c: ans += d return ans q = deque([[1]]) ans = 0 while q: tmp = q.popleft() if len(tmp) == N: ans = max(ans, calc(tmp)) else: for i in range(tmp[-1], M+1): q.append(tmp+[i]) print(ans)

n = int(input()) A = list(map(int, input().split(' '))) q = int(input()) M = list(map(int, input().split(' '))) # 上限と下限でフィルター max_A = 0 min_A = float('inf') for num in A: max_A += num if num < min_A: min_A = num def rec(i, m): if m < 0: return False elif m == 0: return True if i >= n: return False rst = rec(i+1, m - A[i]) or rec(i+1, m) return rst for m in M: if m < min_A or max_A < m: print('no') elif rec(0, m): print('yes') else: print('no')

N = int(input()) AB = [list(map(int, input().split())) for _ in range(N)] A = [a for a, b in AB] B = [b for a, b in AB] A.sort() B.sort() if N % 2: ma = B[N // 2] mi = A[N // 2] else: ma = B[N // 2 - 1] + B[N // 2] mi = A[N // 2 - 1] + A[N // 2] print(ma - mi + 1)

import sys input = sys.stdin.readline a,b=map(int,input().split()) if a>b: print(str(b)*a) else: print(str(a)*b)

a,b=input().split() A=int(a) B=int(b) aa=a bb=b for i in range(B-1): aa+=a for j in range(A-1): bb+=b if aa >= bb: print(bb) else: print(aa)

def main(): N, D = map(int, input().split()) A = [list(map(int, input().split())) for _ in range(N)] cnt = 0 for a in A: if (a[0]**2 + a[1]**2)**0.5 <= D: cnt += 1 print(cnt) if __name__ == '__main__': main()

N = int(input()) S = [int(i) for i in input().split()] q = int(input()) T = [int(i) for i in input().split()] count = 0 for t in T: S.append(t) i = 0 while t != S[i]: i += 1 if i != (len(S) - 1): count += 1 S.pop() print(count)

import sys INF = 1 << 60 MOD = 10**9 + 7 # 998244353 sys.setrecursionlimit(2147483647) input = lambda:sys.stdin.readline().rstrip() def resolve(): n, k = map(int, input().split()) P = list(map(lambda x : int(x) - 1, input().split())) C = list(map(int, input().split())) # doubling table nexts = [P] vals = [C] totals = [C] for _ in range(60): next, val, total = nexts[-1], vals[-1], totals[-1] nnext, nval, ntotal = [0] * n, [0] * n, [0] * n for i in range(n): nnext[i] = next[next[i]] nval[i] = val[i] + val[next[i]] ntotal[i] = max(total[i], val[i] + total[next[i]]) nexts.append(nnext) vals.append(nval) totals.append(ntotal) # answer ans = -INF for now in range(n): score = 0 for d in range(59, -1, -1): if k >> d & 1: ans = max(ans, score + totals[d][now]) score += vals[d][now] now = nexts[d][now] print(ans) resolve()

n, k = map(int, input().split()) p = [int(x) for x in input().split()] c = [int(x) for x in input().split()] p_flag = [0 for _ in range(len(p))] loop_max = [] loop_len = [] S = [] S_max = [] ans = [] for i in range(len(p)): # if p_flag[i] == 1: # continue now = i temp_len = 0 temp_s = 0 S_max = - (10**9 + 1) temp_l = [] while True: now = p[now] - 1 temp_len += 1 temp_s += c[now] temp_l.append(temp_s) p_flag[now] = 1 # 最初に戻ってきたら if now == i: break loop_len.append(temp_len) loop_max.append(temp_l) S.append(temp_s) for i in range(len(S)): mod = k % loop_len[i] if k % loop_len[i] != 0 else loop_len[i] if S[i] > 0: if max(loop_max[i][:mod]) > 0: ans.append(((k-1)//loop_len[i])*S[i] + max(loop_max[i][:mod])) else: ans.append(((k - 1) // loop_len[i]) * S[i]) else: ans.append(max(loop_max[i])) # print(loop_max) # print(ans) print(max(ans))

from sys import stdin w = input() n = 0 for line in stdin: line = line.rstrip() if 'END_OF_TEXT' == line: break n += len(list(filter(lambda x: w.lower() == x.lower(), line.split(' ')))) print(n)

n=int(input()) s=input() rcnt=s.count("R") wcnt=s[:rcnt].count("W") print(wcnt)

n=int(input()) L=list(map(int,input().split())) a=0 for i in range(n-2): for j in range(i+1,n-1): if L[i]!=L[j]: for k in range(j+1,n): if L[i]!=L[k] and L[j]!=L[k] and L[i]<L[j]+L[k] and L[j]<L[i]+L[k] and L[k]<L[j]+L[i]: a+=1 print(a)

# coding: utf-8 num = int(input()) count = 0 str = input().split() table = [int(i) for i in str] #全探索 for j in range(num): #ループ1 for k in range(j+1, num): #ループ2 for l in range(k+1, num): #ループ3 if table[j] != table[k] and table[k] != table[l] and table[j] != table[l]: len = table[j] + table[k] + table[l] #周の長さ ma = max(table[j], max(table[k], table[l])) #一番長い辺 rest = len - ma #残りの2辺の合計 if ma < rest: #最大の辺が残り2辺より小さければ三角形は成立する count += 1 print(count)

import numpy as np import sys x, y = map(int, input().split()) if (x + y) % 3 != 0 or x > 2 * y or y > 2 * x: print(0) sys.exit() # 手数 n = (x + y) // 3 x -= n y -= n MOD = 10**9 + 7 # モジュラ逆数戦法 def prepare(n, MOD): f = 1 for m in range(1, n + 1): f *= m f %= MOD fn = f inv = pow(f, MOD - 2, MOD) invs = [1] * (n + 1) invs[n] = inv for m in range(n, 1, -1): inv *= m inv %= MOD invs[m - 1] = inv return fn, invs fact, invs = prepare(n, MOD) print(fact * invs[x] * invs[y] % MOD)

X, Y = map(int, input().split()) MOD = 10**9+7 def mod_pow(n, m): res = 1 while m > 0: if m & 1: res = (res*n)%MOD n = (n*n)%MOD m >>= 1 return res if (2*Y-X)%3 != 0 or (2*X-Y)%3 != 0 or 2*Y < X or 2*X < Y: print(0) else: A = (2*X-Y)//3 B = (2*Y-X)//3 m = 1 n = 1 for i in range(A): m = (m*(A+B-i))%MOD n = (n*(A-i))%MOD inverse_n = mod_pow(n, MOD-2) print((m*inverse_n)%MOD)

n, m = map(int,input().split()) a = list(map(int,input().split())) a.sort(reverse=True) total = sum(a) flg = True for i in range(m): if a[i] * 4 * m < total: flg = False print('Yes') if flg else print('No')

import sys input = sys.stdin.readline N, M = map(int, input().split()) a = list(map(int, input().split())) a.sort(reverse = True) sm = sum(a) for i in range(M): if a[i] < sm / 4 / M: print("No") break else: print("Yes")

n = int(input()) print((n - (n+1)%2)//2)

s = input()[::-1] l = [0 for i in range(2019)] l[0] = 1 a, b = 0, 1 ans = 0 for i in s: a += int(i) * b a %= 2019 b *= 10 b %= 2019 l[a] += 1 for i in l: ans += i * (i - 1) // 2 print(ans)

N=int(input()) A=[int(i) for i in input().split()] A.sort(reverse=True) if N%2==1: if N==3: ans=A[0]+A[1] else: ans=A[0] for i in range(1,N//2): ans+=A[i]*2 ans+=A[N//2] else: ans=A[0] for i in range(1,N//2): ans+=A[i]*2 print(ans)

X,Y,Z=map(int,input().split()) l=[X,Y,Z] l[0],l[1]=l[1],l[0] l[0],l[2]=l[2],l[0] print(*l)

A = input() B = input() se = set(["1","2","3"]) a = se-set([A,B]) print(a.pop())

n=int(input()) s = input() ans = 0 if n%2 != 0: print('No') if n%2 == 0: for i in range(n//2): if s[i] == s[i+n//2]: ans += 1 if ans == n//2: print('Yes') if ans != n//2: print('No')

from collections import deque import copy H,W=map(int,input().split()) inf=1000000000 field=[] for i in range(H): row=list(input()) for j in range(len(row)): if row[j]=='#':row[j]=-1 else:row[j]=inf field.append(row) ans=inf def isIn(x,y): if x<0 or x>=W:return False if y<0 or y>=H:return False return True vector=[[0,1],[0,-1],[1,0],[-1,0]] ans=0 for i in range(H): for j in range(W): if field[i][j]==-1:continue l=deque([[j,i]]) f=copy.deepcopy(field) f[i][j]=0 tmp=0 #print('--start--') while l: x,y=l.popleft() #print(x,y) #i,jを訪問 for v in vector: if not isIn(x+v[1],y+v[0]):continue if f[y+v[0]][x+v[1]]<=tmp:continue f[y+v[0]][x+v[1]]=f[y][x]+1 l.append([x+v[1],y+v[0]]) tmp=max(f[y+v[0]][x+v[1]],tmp) ans=max(ans,tmp) print(ans)

#!/usr/bin/env python3 import sys sys.setrecursionlimit(10**7) import bisect import heapq import itertools import math from collections import Counter, defaultdict, deque from copy import deepcopy from decimal import Decimal from math import gcd from operator import add, itemgetter, mul, xor def cmb(n,r,mod): bunshi=1 bunbo=1 for i in range(r): bunbo = bunbo*(i+1)%mod bunshi = bunshi*(n-i)%mod return (bunshi*pow(bunbo,mod-2,mod))%mod mod = 10**9+7 def I(): return int(input()) def LI(): return list(map(int,input().split())) def MI(): return map(int,input().split()) def LLI(n): return [list(map(int, input().split())) for _ in range(n)] #bisect.bisect_left(list,key)はlistのなかでkey未満の数字がいくつあるかを返す #つまりlist[i] < x となる i の個数 #bisect.bisect_right(list, key)はlistのなかでkey以下の数字がいくつあるかを返す #つまりlist[i] <= x となる i の個数 #これを応用することで #len(list) - bisect.bisect_left(list,key)はlistのなかでkey以上の数字がいくつあるかを返す #len(list) - bisect.bisect_right(list,key)はlistのなかでkeyより大きい数字がいくつあるかを返す #これらを使うときはあらかじめlistをソートしておくこと！ def maze_solve(S_1,S_2,maze_list): d = deque() d.append([S_1,S_2]) dx = [0,0,1,-1] dy = [1,-1,0,0] while d: v = d.popleft() x = v[0] y = v[1] for i in range(4): nx = x + dx[i] ny = y + dy[i] if nx < 0 or nx >= h or ny < 0 or ny >= w: continue if dist[nx][ny] == -1: dist[nx][ny] = dist[x][y] + 1 d.append([nx,ny]) return max(list(map(lambda x: max(x), dist))) h,w = MI() if h==1 and w == 2: print(1) elif h == 2 and w == 1: print(1) else: ans = 0 maze = [list(input()) for _ in range(h)] dist = [[-1]*w for _ in range(h)] start_list = [] for i in range(h): for j in range(w): if maze[i][j] == "#": dist[i][j] = 0 else: start_list.append([i,j]) dist_copy = deepcopy(dist) for k in start_list: dist = deepcopy(dist_copy) ans = max(ans,maze_solve(k[0],k[1],maze)) print(ans+1)

#!/usr/bin/env python3 from collections import defaultdict, Counter from itertools import product, groupby, count, permutations, combinations from math import pi, sqrt from collections import deque from bisect import bisect, bisect_left, bisect_right from string import ascii_lowercase from functools import lru_cache import sys sys.setrecursionlimit(10000) INF = float("inf") YES, Yes, yes, NO, No, no = "YES", "Yes", "yes", "NO", "No", "no" dy4, dx4 = [0, 1, 0, -1], [1, 0, -1, 0] dy8, dx8 = [0, -1, 0, 1, 1, -1, -1, 1], [1, 0, -1, 0, 1, 1, -1, -1] def inside(y, x, H, W): return 0 <= y < H and 0 <= x < W def ceil(a, b): return (a + b - 1) // b def sum_of_arithmetic_progression(s, d, n): return n * (2 * s + (n - 1) * d) // 2 def gcd(a, b): if b == 0: return a return gcd(b, a % b) def lcm(a, b): g = gcd(a, b) return a / g * b def solve(): N = int(input()) P = list(map(int, input().split())) Q = list(map(int, input().split())) p = 0 q = 0 for i, v in enumerate(permutations(range(1, N + 1)), start=1): p_ok = True q_ok = True for j in range(N): p_ok &= v[j] == P[j] q_ok &= v[j] == Q[j] if p_ok: p = i if q_ok: q = i print(abs(p - q)) def main(): solve() if __name__ == '__main__': main()

import sys R, C, K = map(int, sys.stdin.readline().split()) grid = [[0 for _ in range(C)] for _ in range(R)] for _ in range(K): r, c, v = map(int, sys.stdin.readline().split()) grid[r-1][c-1] = v # r行目、c列目にいるときに、その行でアイテムをi個取得している場合の最大価値 dp0 = [[0 for _ in range(C+1)] for _ in range(R+1)] dp1 = [[0 for _ in range(C+1)] for _ in range(R+1)] dp2 = [[0 for _ in range(C+1)] for _ in range(R+1)] dp3 = [[0 for _ in range(C+1)] for _ in range(R+1)] # print(dp) for r in range(R): for c in range(C): # 取らない dp0[r+1][c] = max((dp0[r][c], dp1[r][c], dp2[r][c], dp3[r][c])) dp1[r][c+1] = max(dp1[r][c], dp1[r][c]) dp2[r][c+1] = max(dp2[r][c], dp2[r][c]) dp3[r][c+1] = max(dp3[r][c], dp3[r][c]) if grid[r][c] == 0: continue # 取る dp0[r+1][c] = max(dp0[r][c] + grid[r][c], dp0[r+1][c]) dp0[r+1][c] = max(dp1[r][c] + grid[r][c], dp0[r+1][c]) dp0[r+1][c] = max(dp2[r][c] + grid[r][c], dp0[r+1][c]) dp1[r][c+1] = max(dp0[r][c] + grid[r][c], dp1[r][c+1]) dp2[r][c+1] = max(dp1[r][c] + grid[r][c], dp2[r][c+1]) dp3[r][c+1] = max(dp2[r][c] + grid[r][c], dp3[r][c+1]) # print(dp0) # print(dp1) # print(dp2) # print(dp3) # print(max((dp0[R][C], dp1[R][C], dp2[R][C], dp3[R][C]))) print(dp0[R][C-1])

def prime_factors(n): d = {} while n%2 == 0: d[2] = d.get(2, 0) + 1 n //= 2 i = 3 while i*i <= n: while n%i == 0: d[i] = d.get(i, 0) + 1 n //= i i += 2 if n > 2: d[n] = d.get(n, 0) + 1 return d MOD = 10**9+7 N = int(input()) A = list(map(int, input().split())) G = {} for a in A: pf = prime_factors(a) for k,v in pf.items(): G[k] = max(G.get(k, 0), v) lcm = 1 for k,v in G.items(): lcm *= pow(k, v, MOD) lcm %= MOD ans = 0 for a in A: ans += lcm * pow(a, MOD-2, MOD) % MOD ans %= MOD print(ans)

import math N = int(input()) A = list(map(int, input().split())) mod = 10**9+7 def lcm(x, y): return (x // math.gcd(x, y)) * y LCM = A[0] for i in range(N-1): LCM = lcm(LCM, A[i+1]) #LCM %= mod ans = 0 for a in A: ans += LCM * pow(a, mod-2, mod) % mod ans %= mod print(ans)

A,B,K = list(map(int, input().split())) if A > K: A -= K else: K -= A A = 0 if B > K: B -= K else: B = 0 print(A,B) A -= min(A, K)

n=int(input()) if n%2!=0: print(0) else: ans=0 t=10 while True: ans=ans+n//t t=t*5 if n//t==0: break print(ans)

import sys n = int(input()) if n == 1: G = [1] else: G = [g for g in [1, 4, 10, 23, 57, 132, 301, 701] if g < n] while True: g = int(2.25 * G[-1]) if g > n: break G.append(g) G.reverse() A = list(map(int, sys.stdin)) cnt = 0 for g in G: for j, v in enumerate(A[g:]): while j >= 0 and A[j] > v: A[j+g] = A[j] j -= g cnt += 1 A[j+g] = v print(len(G)) print(*G) print(cnt) for a in A: print(a)

n=int(input()) ev=[] for i in range(n): a=int(input()) ev.append([list(map(int,input().split())) for _ in range(a)]) ans=0 for i in range(2**n): bit=(bin(i)[2:].zfill(n)) flag=1 for j in range(n): if bit[j]=="0": continue for e in ev[j]: if int(bit[e[0]-1])!=e[1]: flag=0 if flag: ans=max(ans,bit.count("1")) print(ans)

a,b,c = list(map(int,input().split(" "))) div=0 for i in range(a,b+1): if c % i == 0: div += 1 print(div)

import math a,b,c = map(float,input().split()) rad = math.radians(c) x = (a**2+b**2-2*a*b*math.cos(rad))**(1/2) L = a+b+x S = a*b*math.sin(rad)/2 h = 2*S/a print("{:.8f}\n{:.8f}\n{:.8f}".format(S,L,h))

N,M = map(int,input().split()) if N > M: ans = str(M)*N else: ans = str(N)*M print(ans)

a, b = input().split() c = a a = a*int(b) b = b*int(c) for i in range(len(a)): if a[i]<b[i]: print(a) break elif a==b: print(a) break else: print(b) break

n = int(input()) s = "abcdefghij" def func(a): if len(a) == n: print(a) else: for i in range(len(set(a))+1): func(a+s[i]) func("a")

n=int(input()) lis=[[[1,"a"]]] for i in range(n-1): lisi=[] for j in lis[i]: for k in range(j[0]): lisi.append([j[0],j[1]+chr(ord("a")+k)]) lisi.append([j[0]+1,j[1]+chr(ord("a")+j[0])]) lis.append(lisi) for i in lis[n-1]: print(i[1])

s=[0,0] for i in range(int(input())): r=input().split() if r[0]<r[1]: s[1]+=3 elif r[1]<r[0]: s[0]+=3 else: s[0]+=1 s[1]+=1 print(str(s[0])+' '+str(s[1]))

n = input() taro = 0 hanako = 0 for i in xrange(n): t_card, h_card = raw_input().split(" ") if t_card < h_card: hanako += 3 elif t_card > h_card: taro += 3 elif t_card == h_card: taro += 1 hanako += 1 print taro, hanako

S = input() days = ['SUN','MON','TUE','WED','THU','FRI','SAT'] i = days.index(S) print (7-i)

import sys input = sys.stdin.readline def solve(N): res = 0 flg = 0 for n in reversed(N): if flg == 2: if n >= 5: flg = 1 else: flg = 0 m = flg + n if m == 5: res += 5 flg = 2 elif m < 5: res += m flg = 0 else: res += (10 - m) flg = 1 return res + flg%2 N = list(map(int, input().strip())) print(solve(N)) # N = 1 # q = 0 # while True: # p = solve(list(map(int, str(N)))) # if abs(p-q) > 1: # print(N, "OK") # exit() # q = p # N += 1

n = int(input()) a = list(map(int, input().split())) ans = 0 tmp = a[0] for i in range(1,n): tmp = max(a[i], tmp) ans += tmp - a[i] print(ans)

num = input() list = input().split() ans = 0 for i in range(int(num) - 1): n1 = int(list[i]) n2 = int(list[i+1]) if n1 > n2 : ans += (n1 - n2) list[i+1] = list[i] else: ans += 0 print(ans)

while True: h, w = map(int, input().split()) if h == w == 0: break for i in range(0, h): print(''.join(['#' for x in range(0, w)])) print('')

while True: s = input().split(" ") H = int(s[0]) W = int(s[1]) if H == 0 and W == 0: break for i in range(H): for j in range(W): if j == W-1: print("#") else: print("#",end="") print("")

import math # one = 1000000000000001 dict={1:"a",2:"b",3:"c",4:"d",5:"e",6:"f",7:"g",8:"h",9:"i",10:"j", 11:"k",12:"l",13:"m",14:"n",15:"o",16:"p",17:"q",18:"r",19:"s",20:"t", 21:"u",22:"v",23:"w",24:"x",25:"y",26:"z"} n=int(input()) ans = "" while n: ans = str(dict[(n-1)%26+1]) + ans n=(n-1)//26 print(ans)

X, Y = map(int, input().split(" ")) print(100000 * max(4 - X, 0) + 100000 * max(4 - Y, 0) + (400000 if X == 1 and Y == 1 else 0))

from decimal import Decimal as d a,b,c=input().split() print('Yes'if d(a)**d('0.5')+d(b)**d('0.5')<d(c)**d('0.5')else'No')

input() xs = list(map(int, input().split())) print(' '.join(map(str,[f(xs) for f in [min,max,sum]])))

a = [i for i in input().split()] b = [] for i in range(len(a)): b.append(a.pop(a.index(min(a)))) print(" ".join([str(i) for i in b]))

N = list(map(int, input().split(' '))) N.sort() print('%d %d %d' % (N[0], N[1], N[2]))

import sys h,w,m = map(int,input().split()) h_lst = [[0,i] for i in range(h)] w_lst = [[0,i] for i in range(w)] memo = [] for i in range(m): x,y = map(int,input().split()) h_lst[x-1][0] += 1 w_lst[y-1][0] += 1 memo.append((x-1,y-1)) h_lst.sort(reverse = True) w_lst.sort(reverse = True) Max_h = h_lst[0][0] Max_w = w_lst[0][0] h_ans = [h_lst[0][1]] w_ans = [w_lst[0][1]] if h != 1: s = 1 while s < h and h_lst[s][0] == Max_h: h_ans.append(h_lst[s][1]) s+= 1 if w!= 1: t=1 while t < w and w_lst[t][0] == Max_w: w_ans.append(w_lst[t][1]) t += 1 memo = set(memo) #探索するリストは、最大を取るものの集合でなければ計算量はO(m)にはならない！ for j in h_ans: for k in w_ans: if (j,k) not in memo: print(Max_h+Max_w) sys.exit() print((Max_h+Max_w)-1)

h,w,m = map(int,input().split()) row = [0]*(h+1) col = [0]*(w+1) bombs = set([]) for i in range(m): a,b = map(int,input().split()) row[a] += 1 col[b] += 1 bombs.add((a,b)) r,c = max(row),max(col) rcnt,ccnt = 0,0 for v in row: if v==r: rcnt += 1 for v in col: if v==c: ccnt += 1 doubled = 0 for i,j in bombs: if row[i]==r and col[j]==c: doubled += 1 if doubled==rcnt*ccnt: print(r+c-1) else: print(r+c)

import sys import math import itertools import bisect from copy import copy from collections import deque,Counter from decimal import Decimal def s(): return input() def i(): return int(input()) def S(): return input().split() def I(): return map(int,input().split()) def X(): return list(input()) def L(): return list(input().split()) def l(): return list(map(int,input().split())) def lcm(a,b): return a*b//math.gcd(a,b) def gcd(*numbers): reduce(math.gcd, numbers) sys.setrecursionlimit(10 ** 9) mod = 10**9+7 count = 0 ans = 0 N = i() S = s() if N % 2 != 0: print("No") else: a = N // 2 if S[:a] == S[a:N]: print("Yes") else: print("No")

S=int(input()) T=list(input()) t=S//2 p=0 for i in range(t): if S%2==1: p=-1 break elif T[i]!=T[i+t]: p=-1 break if p==-1 or t==0: print("No") elif p==0: print("Yes")

n,m = map(int,input().split()) v1 = [ input().split() for _ in range(n) ] v2 = [ int(input()) for _ in range(m) ] l = [sum(map(lambda x,y:int(x)*y,v,v2)) for v in v1 ] print(*l,sep="\n")

n, m = map(int, input().split()) A = [[int(e) for e in input().split()] for i in range(n)] b = [] for i in range(m): e = int(input()) b.append(e) for i in range(n): p = 0 for j in range(m): p += A[i][j] * b[j] print(p)

n = int(input()) added_strings = set() for i in range(n): com, s = input().split() if com == 'insert': added_strings.add(s) elif com == 'find': print('yes' if (s in added_strings) else 'no')

import sys n = int(input()) dic = set() input_ = [x.split() for x in sys.stdin.readlines()] for c, s in input_: if c == 'insert': dic.add(s) else: if s in dic: print('yes') else: print('no')

# coding: utf-8 from collections import defaultdict def main(): N = int(input()) dic = defaultdict(int) max_p = 0 for i in range(N): dic[input()] += 1 d = dict(dic) l = [] for key, value in d.items(): l.append([key, value]) if max_p < value: max_p = value l.sort(key=lambda x: (-x[1], x[0]), reverse=False) for i, j in l: if j == max_p: print(i) else: break if __name__ == "__main__": main()

import math N, D = map(int,input().split()) XY = list(list(map(int,input().split())) for _ in range(N)) count = 0 for i in range(N): if math.sqrt(XY[i][0] ** 2 + XY[i][1] ** 2) <= D: count += 1 print(count)

import sys def input(): return sys.stdin.readline()[:-1] def main(): X = int(input()) if X >= 1800: print(1) elif X >= 1600: print(2) elif X >= 1400: print(3) elif X >= 1200: print(4) elif X >= 1000: print(5) elif X >= 800: print(6) elif X >= 600: print(7) else: print(8) if __name__ == "__main__": main()

import sys def main(): N, K = map(int, sys.stdin.readline().rstrip().split()) L = [0] * 10 R = [0] * 10 for i in range(K): l, r = map(int, sys.stdin.readline().rstrip().split()) L[i], R[i] = l, r dp = [0] * (N + 1) up = [0] * (N + 1) up[0] = 1 up[1] = -1 for i in range(1, N + 1): dp[i] = dp[i - 1] + up[i - 1] for j in range(K): if i + (L[j] - 1) < N + 1: up[i + (L[j] - 1)] += dp[i] if i + R[j] < N + 1: up[i + R[j]] -= dp[i] dp[i] %= 998244353 print(dp[N]) main()

import sys input = sys.stdin.readline A = int(input()) B = int(input()) print(list({1,2,3}-{A,B})[0])

choise = {1, 2, 3} for i in range(2): choise.remove(int(input())) print(list(choise)[0])

X,Y = map(int,input().split()) money = [3*10**5,2*10**5,10**5] ans = 0 if X == 1 and Y == 1: ans = 2*money[0] + 4*10**5 print(ans) else: if X <= 3: ans += money[X-1] if Y <= 3: ans += money[Y-1] print(ans)

XY= list(map(int,input().split())) X=XY[0] Y=XY[1] if X==1: syokinx=300000 elif X==2: syokinx=200000 elif X==3: syokinx=100000 else: syokinx=0 if Y==1: syokiny=300000 elif Y==2: syokiny=200000 elif Y==3: syokiny=100000 else: syokiny=0 if X==1 and Y==1: syokinz=400000 else: syokinz=0 print(syokinx+syokiny+syokinz)

s = list(input()) q = int(input()) rvs = [] i = 0 j = 0 p = [] order = [] for i in range(q): order.append(input().split()) if order[i][0] == "replace": p = [] p = list(order[i][3]) for j in range(int(order[i][1]), int(order[i][2]) + 1): s[j] = p[j - int(order[i][1])] elif order[i][0] == "reverse": ss = "".join(s[int(order[i][1]):int(order[i][2]) + 1]) rvs = list(ss) rvs.reverse() for j in range(int(order[i][1]), int(order[i][2]) + 1): s[j] = rvs[j - int(order[i][1])] # temp = s[int(order[i][1])] # s[int(order[i][1])] = s[int(order[i][2])] # s[int(order[i][2])] = temp elif order[i][0] == "print": ss = "".join(s) print("%s" % ss[int(order[i][1]):int(order[i][2]) + 1])

code = input() n = int(input()) for i in range(n): lst = list(input().split()) a = int(lst[1]) b = int(lst[2]) if lst[0] == 'replace': t1 = code[0:a] t2 = code[a:b+1] t3 = code[b+1:len(code)] code = t1 + lst[3] + t3 elif lst[0] == 'reverse': s = code[a:b+1] ss = ''.join(list(reversed(s))) t1 = code[0:a] t2 = code[a:b+1] t3 = code[b+1:len(code)] code = t1 + ss + t3 elif lst[0] == 'print': print(code[a:b+1])

n, m = map(int, input().split()) a = input().split() a_sum = 0 for b in a: a_sum += int(b) if a_sum > n: print(-1) else: print(n - a_sum)

N, M = map(int, input().split()) C = list(map(int, input().split())) hw = 0 for i in range(M): hw += C[i] d = N - hw if d >= 0: print(d) else: print('-1')

n = int(input()) s = [list(input()) for i in range(n)] r = [] l = [] ans = 0 for i in s: now = 0 c = 0 for j in i: if j =="(": now += 1 else: now -= 1 c = min(c,now) if c == 0: ans += now elif now >= 0: l.append([c,now]) else: r.append([c-now,now]) l.sort(reverse =True) r.sort() for i,j in l: if ans + i < 0: print("No") exit() else: ans += j for i,j in r: if ans +i+j < 0: print("No") exit() else: ans += j if ans == 0: print("Yes") else: print("No")

#!/usr/bin/env python3 import sys input = sys.stdin.readline n = int(input()) increasing = [] decreasing = [] dec_special = [] for _ in range(n): s = input().rstrip() minima = 0 fin = 0 for ch in s: if ch == ")": fin -= 1 if fin < minima: minima = fin else: fin += 1 if fin >= 0: increasing.append((minima, fin)) elif minima < fin: dec_special.append((minima, fin)) else: decreasing.append((minima, fin)) increasing.sort(reverse=True) decreasing.sort() dec_special.sort() current = 0 for minima, diff in increasing: if current + minima < 0: print("No") exit() current += diff for minima, diff in dec_special: if current + minima < 0: print("No") exit() current += diff for minima, diff in decreasing: if current + minima < 0: print("No") exit() current += diff if current != 0: print("No") else: print("Yes")

s,t = map(int,input().split()) k,l = map(int,input().split()) m,n = map(int,input().split()) a = (k-m)*s b = (l-n)*t if a+b == 0: print("infinity") elif a>0 and a+b>0: print(0) elif a<0 and a+b<0: print(0) else: div = abs(a) // abs(a+b) if div == abs(a) / abs(a+b): print(div*2) else: print(div*2+1)

from itertools import accumulate N,K = map(int,input().split()) acc = list(accumulate(range(N+1), lambda x,y:x+y)) ans = 0 mod = 10**9+7 for i in range(K, N+1): r = acc[N] - acc[N-i] l = acc[i-1] ans = (ans+r-l+1) % mod ans += 1 print(ans % mod)

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

inp = input() a = inp.split() a[0] = int(a[0]) a[1] = int(a[1]) a[2] = int(a[2]) c = 0 for i in range(a[0],a[1]+1): if a[2] % i == 0: c += 1 print(c)

S = int(input()) h = S // 3600 m = S % 3600 // 60 s = (S % 3600) - (m * 60) print(h,m,s,sep=':')

s = int(input()) sec = s%60 min = s//60 # may be more than 60 hr = min//60 min = min%60 print(hr, min, sec, sep=':')

# -*- coding: utf-8 -*- def bubble_sort(c): c = list(c) for i in range(len(c)): for j in range(len(c)-1, i, -1): if int(c[j][1]) < int(c[j-1][1]): c[j], c[j-1] = c[j-1], c[j] return c def selection_sort(c): c = list(c) for i in range(len(c)): minj = i for j in range(i+1, len(c)): if int(c[j][1]) < int(c[minj][1]): minj = j c[i], c[minj] = c[minj], c[i] return c input_num = int(input()) input_list = input().split() bubble_list = bubble_sort(input_list) selection_list = selection_sort(input_list) for c in bubble_list: print(c, end='') if c != bubble_list[len(bubble_list)-1]: print(' ', end='') print("\nStable") stable_flg = True for i in range(len(input_list)): if bubble_list[i] != selection_list[i]: stable_flg = False print(selection_list[i], end='') if i < len(input_list)-1: print(" ", end='') if stable_flg: print("\nStable") else: print("\nNot stable")

import copy n = int(input()) c = input().split() c_sel = copy.deepcopy(c) # check stability of default array ord_dict_def = {} for i in range(n) : if int(c[i][1]) in ord_dict_def.keys() : ord_dict_def[int(c[i][1])] += c[i][0] else : ord_dict_def[int(c[i][1])] = c[i][0] # do bubble for i in range(n) : for j in range(n - 1, i, -1) : if int(c[j - 1][1]) > int(c[j][1]) : c[j - 1], c[j] = c[j], c[j - 1] # check stability for bubble ord_dict_bubble = {} for i in range(n) : if int(c[i][1]) in ord_dict_bubble.keys() : ord_dict_bubble[int(c[i][1])] += c[i][0] else : ord_dict_bubble[int(c[i][1])] = c[i][0] # do selection for i in range(n) : cmin = i for j in range(i + 1, n) : if int(c_sel[j][1]) < int(c_sel[cmin][1]) : cmin = j if i != cmin : c_sel[i], c_sel[cmin] = c_sel[cmin], c_sel[i] # check stability for selection ord_dict_selection = {} for i in range(n) : if int(c_sel[i][1]) in ord_dict_selection.keys() : ord_dict_selection[int(c_sel[i][1])] += c_sel[i][0] else : ord_dict_selection[int(c_sel[i][1])] = c_sel[i][0] stability_bubble = "Stable" stability_selection = "Stable" for i in ord_dict_bubble.keys() : if ord_dict_def[i] != ord_dict_bubble[i] : stability_bubble = "Not stable" if ord_dict_def[i] != ord_dict_selection[i] : stability_selection = "Not stable" print(" ".join(c)) print(stability_bubble) print(" ".join(c_sel)) print(stability_selection)

from math import gcd def main(): N = int(input()) A = list([int(x) for x in input().split()]) max_a = max(A) before = 0 result = [0 for _ in range(max_a + 1)] for i in A: before = gcd(before, i) result[i] += 1 is_pairwise = True for i in range(2, max_a + 1): cnt = 0 for j in range(i, max_a + 1, i): cnt += result[j] if cnt > 1: is_pairwise = False break if is_pairwise: print('pairwise coprime') exit() if before == 1: print('setwise coprime') else: print('not coprime') if __name__ == '__main__': main()

from math import gcd from functools import reduce from collections import defaultdict n=int(input()) a=list(map(int,input().split())) g=reduce(gcd,a) if g!=1: print("not coprime") exit() def isPrimeMR(n): d = n - 1 d = d // (d & -d) L = [2] for a in L: t = d y = pow(a, t, n) if y == 1: continue while y != n - 1: y = (y * y) % n if y == 1 or t == n - 1: return 0 t <<= 1 return 1 def findFactorRho(n): m = 1 << n.bit_length() // 8 for c in range(1, 99): f = lambda x: (x * x + c) % n y, r, q, g = 2, 1, 1, 1 while g == 1: x = y for i in range(r): y = f(y) k = 0 while k < r and g == 1: ys = y for i in range(min(m, r - k)): y = f(y) q = q * abs(x - y) % n g = gcd(q, n) k += m r <<= 1 if g == n: g = 1 while g == 1: ys = f(ys) g = gcd(abs(x - ys), n) if g < n: if isPrimeMR(g): return g elif isPrimeMR(n // g): return n // g return findFactorRho(g) def primeFactor(n): i = 2 ret = {} rhoFlg = 0 while i*i <= n: k = 0 while n % i == 0: n //= i k += 1 if k: ret[i] = k i += 1 + i % 2 if i == 101 and n >= 2 ** 20: while n > 1: if isPrimeMR(n): ret[n], n = 1, 1 else: rhoFlg = 1 j = findFactorRho(n) k = 0 while n % j == 0: n //= j k += 1 ret[j] = k if n > 1: ret[n] = 1 if rhoFlg: ret = {x: ret[x] for x in sorted(ret)} return ret def primes(x): ret=[] for i in range(1,int(x**0.5)+1): if x%i==0: ret.append(i) if x//i!=i: ret.append(x//i) ret.sort() return ret[1:] d=defaultdict(int) for q in a: #p=primeFactor(q) p=primes(q) for j in p: if d[j]==1: print("setwise coprime") exit() d[j]+=1 print("pairwise coprime")

X = int(input()) q, r = divmod(X, 500) H = q * 1000 + ((r // 5) * 5) print(H)

a,b=map(int,input().split()) def ans152(a:int, b:int): listab=[str(a)*b,str(b)*a] listab.sort() return int(listab[0]) print(ans152(a,b))

import typing def binary_serch(x:int, b_sum:list): l = 0 r = len(b_sum) - 1 mid = (l + r + 1) // 2 res = mid while True: if x == b_sum[mid]: return mid elif x < b_sum[mid]: res = mid - 1 r = mid mid = (l + r + 1) // 2 elif b_sum[mid] < x: res = mid l = mid mid = (l + r + 1) // 2 if l + 1 == r: return res n, m, k = map(int, input().split()) a = list(map(int, input().split())) b = list(map(int, input().split())) b_sum = [0] * (m + 2) for i in range(m): b_sum[i + 1] = b[i] + b_sum[i] b_sum[-1] = 10 ** 9 + 1 a = [0] + a pass_k = 0 ans = 0 for i in range(n + 1): if pass_k + a[i] <= k: pass_k += a[i] book = i book += binary_serch(k - pass_k, b_sum) ans = max(ans, book) else: break print(ans)

N=int(input()) S=input() ans="" for i in range(len(S)): ans+=chr(ord("A")+(ord(S[i])-ord("A")+N)%26) print(ans)

a, b, c = map(int, input().split()) if a > b: tmp = b b = a a = tmp if b > c: tmp = c c = b b = tmp if a > b: tmp = b b = a a = tmp print(a,b,c) # sortを使って解く -> Presentation error となってしまう。。 """ A = list(map(int, input().split())) A.sort() for a in A: print(a, end=' ') """

dice = list(map(int,input().split())) kaisuu = int(input()) lastlist = [] frlist = [] for i in range(kaisuu): up,front = list(map(int,input().split())) if up == dice[0] : frlist = [1,2,4,3,1] if up == dice[1]: frlist = [0,3,5,2,0] if up == dice[2]: frlist = [0,1,5,4,0] if up == dice[3]: frlist = [0,4,5,1,0] if up == dice[4]: frlist = [0,2,5,3,0] if up == dice[5] : frlist = [1,3,4,2,1] k = dice.index(int(front)) for n in frlist[0:4] : if n == k : l = frlist.index(int(n)) m = l + 1 lastlist.append(dice[frlist[m]]) for g in lastlist : print(g)

s = input() n = int(input()) for _ in range(n): in_s= input().split() command = str(in_s[0]) a, b = int(in_s[1]), int(in_s[2]) if(command == "print"): print(s[a:b+1]) elif(command == "reverse"): s = s[:a] + s[a:b+1][::-1] + s[b+1:] else: p = str(in_s[3]) s = s[:a] + p + s[b+1:]

teki, hissatsu = list(map(int, input().split(' '))) l = sorted(list(map(int, input().split(' '))))[:max(0, teki-hissatsu)] print(sum(l))

S =input() T = input() n = len(S)-len(T)+1 count = [] for i in range(n): c =0 for p in range(len(T)): if S[i+p] != T[p]: c += 1 count.append(c) print(min(count))

n,k=list(map(int, input("").split())) d=[] a=[] t=[] for i in range(k): d.append(int(input())) a.append(list(map(int, input("").split()))) for i in range(n): t.append(True) for i in range(k): for j in a[i]: if t[j-1]: t[j-1]=False out=0 for i in t: if i: out+=1 print(out)

N = int(input()) A_list = list(map(int, input().split())) MOD = 10**9 + 7 zeros = [0] * 61 ones = [0] * 61 for a in A_list: for i, b in enumerate([1 if (a >> j & 1) else 0 for j in range(61)]): if b == 1: ones[i] += 1 else: zeros[i] += 1 res = 0 for a in A_list: twice = 1 for i, b in enumerate([1 if (a >> j & 1) else 0 for j in range(61)]): if b == 1: cnt = zeros[i] ones[i] -= 1 else: cnt = ones[i] zeros[i] -= 1 res += twice * cnt twice *= 2 res %= MOD print(res)

n=int(input()) p=10**9+7 A=list(map(int,input().split())) binA=[] for i in range(n): binA.append(format(A[i],"060b")) exp=[1] for i in range(60): exp.append((exp[i]*2)%p) ans=0 for i in range(60): num0=0 num1=0 for j in range(n): if binA[j][i]=="0": num0+=1 else: num1+=1 ans=(ans+num0*num1*exp[59-i])%p print(ans)

n = int(input()) a = 10 - n // 200 print(a)

def main(): x = int(input()) grade = 0 for i in range(8): if (400 + 200 * i) <= x < (400 + 200 * (i + 1)): grade = 8 - i print(grade) if __name__ == "__main__": main()

n,k=map(int,input().split()) ar=list(map(int,input().split())) for i in range(k,n): print("Yes" if ar[i]>ar[i-k] else "No")

def main(): n, k = [int(x) for x in input().split()] scores = [int(x) for x in input().split()] for old, new in zip(scores, scores[k:]): if old < new: print('Yes') else: print('No') if __name__ == '__main__': main()

N = int(input()) X = int(N/1.08) for i in [-1, 0, 1]: X_ = int((X+i)*1.08) if(X_ == N): print(X+i) exit() print(':(')

N = int(input()) X = input() def f(x): ret = 0 c = bin(x).count("1") while c > 0: x %= c c = bin(x).count("1") ret += 1 return ret MOD = 10 ** 9 + 7 origin_pop = X.count("1") one_pop = origin_pop - 1 zero_pop = origin_pop + 1 one_mod = 0 zero_mod = 0 for i in X: if one_pop > 0: one_mod = one_mod * 2 + int(i) one_mod %= one_pop zero_mod = zero_mod * 2 + int(i) zero_mod %= zero_pop for i, x in enumerate(X): if x == "0": tmp = zero_mod + pow(2, N-1-i, zero_pop) tmp %= zero_pop print(f(tmp)+1) else: if one_pop == 0: print(0) else: tmp = one_mod - pow(2, N-1-i, one_pop) tmp = (tmp + one_pop) % one_pop print(f(tmp)+1)

a = [2, 4, 5, 7, 9] b = [0, 1, 6, 8] n = input() if int(n[-1]) in a: print("hon") elif int(n[-1]) in b: print("pon") else: print("bon")

def main(): n = input() m = int(n[-1]) hon = [2, 4, 5, 7, 9] pon = [0, 1, 6, 8] if m in hon: print('hon') elif m in pon: print('pon') else: print('bon') if __name__ == '__main__': main()

H, W = map(int, input().split()) if H > 1 and W > 1: if H*W % 2 == 0: s = (H * W) // 2 elif H*W % 2 != 0: s = (H * W + 1) // 2 elif H == 1 or W == 1: s = 1 print(s)

H, W = map(int, input().split()) ans = 0 x = H * W if H == 1 or W == 1: ans = 1 elif x % 2 == 0: ans = x // 2 else: ans = (x // 2) + 1 print(ans)

k = int(input()) mod = 7 % k counter = 1 memo = 1 mod_map = set() mod_map.add(mod) while mod != 0: mod = ((mod * 10) % k + 7) % k if mod not in mod_map: mod_map.add(mod) else: counter = -1 break counter += 1 if mod == 0: break print(counter)

def main(): K = int(input()) v = 7 % K for i in range(K+5): if v == 0: print(i+1) return v = v * 10 + 7 v %= K print(-1) if __name__ == '__main__': main()

import itertools import math n = int(input()) p = tuple(map(int, input().split())) q = tuple(map(int, input().split())) arr = [i for i in itertools.permutations([i for i in range(1, n+1)])] a = arr.index(p) b = arr.index(q) print(abs(a-b))

import heapq H, N = map(int, input().split()) A = [] #W B = [] #V for i in range(N): ai, bi = map(int, input().split()) A += [ai] B += [bi] maxA = max(A) dp = [[0 for j in range(H+maxA+1)]for i in range(N+1)] for j in range(1, H+maxA+1): dp[0][j] = float('inf') for i in range(N): for j in range(H+maxA+1): if j - A[i] < 0: dp[i+1][j] = dp[i][j] else: dp[i+1][j] = min(dp[i][j], dp[i+1][j-A[i]] + B[i]) ans = float('inf') for j in range(H, H+maxA+1): ans = min(ans, dp[N][j]) print(ans)

from itertools import accumulate n=int(input()) d=list(map(int,input().split())) ans=0 for i in range(n): ans+=(list(accumulate(d))[-1]-d[i])*d[i] print(ans//2)

X = int(input()) answer = (X // 500) * 1000 X %= 500 answer += (X // 5) * 5 print(answer)

import sys x,k,d=map(int,input().split()) x=abs(x) a=x//d if a>=k: ans=x-k*d elif (k-a)%2==0: ans=x-d*a else: ans=x-d*a-d print(abs(ans))

x, k, d = map(int, input().split()) # k回　dだけ変化 n=abs(x)//d if k>=n: k=k-n else: n=k k=0 if k%2 == 0: x=abs(x)-d*n else: x=abs(x)-d*(n+1) print(abs(x))

import math import collections import itertools def YesNo(Bool): if(Bool): print("Yes") else: print("No") return def resolve(): N=int(input()) L=list(map(int,input().split())) cnt=0 for i in range(N): for j in range(i+1,N): for k in range(j+1,N): if((L[i]!=L[j] and L[i]!=L[k] and L[j]!=L[k] )and (L[i]<L[j]+L[k])and (L[j]<L[i]+L[k])and (L[k]<L[j]+L[i])): cnt+=1 print(cnt) resolve()

import sys inp = [int(x) for x in sys.stdin.read().split()]; ii = 0 class SegmentTree: def __init__(self, data, default=0, func=max): """initialize the segment tree with data""" self._default = default self._func = func self._len = len(data) self._size = _size = 1 << (self._len - 1).bit_length() self.data = [default] * (2 * _size) self.data[_size:_size + self._len] = data for i in reversed(range(_size)): self.data[i] = func(self.data[i + i], self.data[i + i + 1]) def __delitem__(self, idx): self[idx] = self._default def __getitem__(self, idx): return self.data[idx + self._size] def __setitem__(self, idx, value): idx += self._size self.data[idx] = value idx >>= 1 while idx: self.data[idx] = self._func(self.data[2 * idx], self.data[2 * idx + 1]) idx >>= 1 def __len__(self): return self._len def query(self, start, stop): """func of data[start, stop)""" start += self._size stop += self._size res_left = res_right = self._default while start < stop: if start & 1: res_left = self._func(res_left, self.data[start]) start += 1 if stop & 1: stop -= 1 res_right = self._func(self.data[stop], res_right) start >>= 1 stop >>= 1 return self._func(res_left, res_right) def __repr__(self): return "SegmentTree({0})".format(self.data) shift = int(10**9 + 1) rows, cols, k = inp[ii:ii+3]; ii += 3 items = [[] for _ in range(rows+1)] best = [0]*(cols+1) for _ in range(k): r, c, v = inp[ii:ii+3]; ii += 3 items[r].append(c*shift+v) for i in range(rows+1): items[i].sort() S = SegmentTree(best) ans = 0 for r in range(1, rows+1): dp = [] best1, best2 = 0, 0 Row = items[r] for X in Row: c, v = X//shift, X%shift v1 = S.query(1, c+1) + v v2 = best1 + v v3 = best2 + v V = v1 if V < v2: V = v2 if V < v3: V = v3 dp.append(V) if v1 > best1: best1 = v1 if v2 > best2: best2 = v2 if ans < V: ans = V for j in range(len(dp)): c = Row[j]//shift if S[c] < dp[j]: S[c] = dp[j] print(ans)

H, N = map(int, input().split(' ')) A_ls = map(int, input().split(' ')) if sum(A_ls) >= H: print('Yes') else: print('No')

H, N = map(int, input().split()) lst = list(map(int, input().split())) for i in range (0, N): H -= lst[i] if H <= 0: print("Yes") else: print("No")

N = int(input()) S = input() R = set() G = set() B = set() for i, s in enumerate(S): if s == 'R': R.add(i) elif s == 'G': G.add(i) elif s == 'B': B.add(i) ans = 0 for r in R: for g in G: ans += len(B) d = abs(r-g) if (r+g) % 2 == 0 and (r+g)//2 in B: ans -= 1 if r+d in B or g+d in B: ans -= 1 if r-d in B or g-d in B: ans -= 1 print(ans)

[n, m] = [int(x) for x in raw_input().split()] A = [] counter = 0 while counter < n: A.append([int(x) for x in raw_input().split()]) counter += 1 B = [int(raw_input()) for j in range(m)] counter = 0 while counter < n: result = 0 for j in range(m): result += A[counter][j] * B[j] print(result) counter += 1

N, K = map(int, input().split()) R, S, P = map(int, input().split()) T = input() scores = {'r': P, 's': R, 'p': S, 'default': 0} win_flag = [False]*(N+1) ans = 0 # Kの剰余で別々に考えていい for i_k in range(K): prev = 'default' for i_n in range(i_k, N, K): # K個前と違う手 もしくは K個前で勝たないことにした 場合 # => 点がもらえる if (T[i_n] != prev) or (not win_flag[i_n-K]): win_flag[i_n] = True ans += scores[T[i_n]] prev = T[i_n] print(ans)

import sys N = int(sys.stdin.readline().rstrip()) sec = [] for _ in range(N): x, l = map(int, sys.stdin.readline().rstrip().split()) sec.append((x - l, x + l)) sec = sorted(sec, key=lambda x: x[1]) r = -float("inf") ans = 0 for s, t in sec: if r <= s: ans += 1 r = t print(ans)

X = int(input()) price = 100 year = 0 while price<X: price += price//100 year += 1 print(year)

x = int(input()) cnt = 0 dep = 100 while True: dep = dep * 101 // 100 cnt+= 1 if dep >= x: print(cnt) break

import sys, math from collections import defaultdict, deque, Counter from bisect import bisect_left, bisect_right from itertools import combinations, permutations, product from heapq import heappush, heappop from functools import lru_cache input = sys.stdin.readline rs = lambda: input().strip() ri = lambda: int(input()) rl = lambda: list(map(int, input().split())) mat = lambda x, y, v: [[v]*y for _ in range(x)] ten = lambda x, y, z, v: [mat(y, z, v) for _ in range(x)] mod = 1000000007 sys.setrecursionlimit(1000000) mod = 998244353 N, K = rl() lr = [] for i in range(K): l, r = rl() lr.append((l,r)) lr.sort() dp = [0] * (N+1) dp[1] = 1 dp[2] = -1 ans = 0 s = 0 flags = [1] * K for i in range(1, N+1): s += dp[i] s %= mod for k in range(K): if flags[k] == 0: break l, r = lr[k] if i+l <= N: dp[i+l] += s if i+r+1 <= N: dp[i+r+1] -= s else: ans += s ans %= mod break else: flags[k] = 0 break print(ans)

n, k = map(int, input().split()) s = [list(map(int, input().split())) for _ in range(k)] dp = [0]*(n+1) dp[1] = 1 mod = 998244353 dpsum = [0]*(n+1) dpsum[1] = 1 for i in range(2, n+1): for j in range(k): li = max(i-s[j][1], 1) ri = i-s[j][0] if ri < 0: continue dp[i] += dpsum[ri]-dpsum[li-1] dp[i] %= mod dpsum[i] = dpsum[i-1]+dp[i] print(dp[n])

N,M=map(int,input().split()) a=M//2 b=M-a c=1 d=2*a+1 for i in range(a): print(c,d) c+=1 d-=1 e=2*a+2 f=2*M+1 for i in range(b): print(e,f) e+=1 f-=1

H, W = map(int, input().split()) S = [[i for i in input()] for j in range(H)] dp = [[0 for i in range(W)] for j in range(H)] if S[0][0] == "#": dp[0][0] = 1 for i in range(1, H): if S[i-1][0] == "." and S[i][0] == "#": dp[i][0] = dp[i-1][0] + 1 else: dp[i][0] = dp[i-1][0] for j in range(1, W): if S[0][j-1] == "." and S[0][j] == "#": dp[0][j] = dp[0][j-1] + 1 else: dp[0][j] = dp[0][j-1] for h in range(1, H): for w in range(1, W): if S[h][w] == "#": if S[h-1][w] == ".": c1 = dp[h-1][w] + 1 else: c1 = dp[h-1][w] if S[h][w-1] == ".": c2 = dp[h][w-1] + 1 else: c2 = dp[h][w-1] dp[h][w] = min(c1, c2) else: dp[h][w] = min(dp[h-1][w], dp[h][w-1]) print(dp[H-1][W-1])

# coding=UTF-8 from collections import deque from operator import itemgetter from bisect import bisect_left, bisect import itertools import sys import math import numpy as np import time sys.setrecursionlimit(10**6) input = sys.stdin.readline def ev(n): return 0.5*(n+1) def main(): n, k = map(int, input().split()) p = list(map(int, input().split())) p_ev = list(map(ev, p)) s = np.cumsum(p_ev) s = np.insert(s, 0, 0) ans = [] for i in range(n - k+1): ans.append(s[i + k] - s[i]) print(max(ans)) if __name__ == '__main__': main()

import sys input = sys.stdin.readline (n, k), s, res, sm = map(int, input().split()), list(map(lambda x: (int(x) + 1) / 2, input().split())), 0, 0 for i in range(n): if i < k: sm += s[i] else: sm += s[i]; sm -= s[i-k] res = max(res, sm) print(f'{res:.10f}') # print(f'{max([sum(s[i:i+k]) for i in range(n - k + 1)]):.10f}')

a = [int(s) for s in input().split()] N = a[0] bks = a[1] bd = a[2] s = [input().split() for i in range(N)] anslist = [] for i in range(2**N): templist = [] for t in range(bks+1): templist.append(int(0)) for j in range(N): if (i >> j) & 1 == 1: for k in range(bks + 1): templist[k] += int(s[j][k]) anslist.append(templist) ans = int(-1) flag = int(0) for i in range(2**N): flag = 0 for j in range(1, bks+1): if anslist[i][j] < bd: flag = 1 break else: pass if flag == 0: if anslist[i][0] < ans or ans == -1: ans = anslist[i][0] print(ans)

import numpy as np N, M, X = map(int, input().split()) C = [list(map(int, input().split())) for _ in range(N)] cost = float("inf") for i in range(2**N): tmp = np.array([0 for _ in range(M+1)]) for j in range(N): if (i>>j) & 1: tmp += np.array(C[j]) if min(tmp[1:]) >= X: cost = min(cost, tmp[0]) print(-1 if cost == float("inf") else cost)

S = input() l_s = len(S) cnt = 0 for i in range(0,l_s//2): if S[i] != S[-i-1]: cnt += 1 print(cnt)

l = raw_input() print l.swapcase()

import itertools n = int(input()) p = list(map(int, input().split())) q = list(map(int, input().split())) l = [] for i in range(1, n+1): l.append(i) m = [] for j in itertools.permutations(l, n): m.append(list(j)) for a in range(9*8*7*6*5*4*3*2): if p == m[a]: x = a break for b in range(9*8*7*6*5*4*3*2): if q == m[b]: y = b break print(abs(x-y))

x,y,z,k=map(int,input().split()) s=min(k,x) k=k-s if(k>0): k=k-min(k,y) if(k>0): f=min(k,z) s=s-f print(s)

n = int(input()) p = n % 2 + n // 2 print(p)

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

import sys l = sys.stdin.readlines() for i in l: if "?" in i: break else: str = i.replace('/','//') print(eval(str))

while 1 : a,op,b=raw_input().split() ai=int(a) bi=int(b) if op=='?':break elif op=='+':print ai+bi elif op=='-':print ai-bi elif op=='*':print ai*bi elif op=='/':print ai/bi

N = int(input()) if N % 2 == 1: print(0) else: n = 0 i = 1 while True: if N < 2*5**i: break n += (N // 5**i // 2) i += 1 print(n)

input();print(input().count('ABC'))

K = int(input()) A, B = map(int, input().split()) print("NOGK"[-(-A//K)*K <= B::2])

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

N, K = map(int, input().split()) A = list(map(int, input().split())) F = list(map(int, input().split())) A.sort() F.sort(reverse=True) def check(mid): cnt = 0 for i in range(N): tmp = mid // F[i] cnt += max(A[i] - tmp, 0) return cnt <= K check(2) l, r = -1, 10**30 while r-l > 1: mid = (l+r)//2 if check(mid): r = mid else: l = mid print(r)

a = int(input()) if a == 1: print("ACL") elif a == 2: print("ACLACL") elif a == 3: print("ACLACLACL") elif a == 4: print("ACLACLACLACL") else: print("ACLACLACLACLACL")

H, W, K = map(int, input().split()) S = [list(map(int, list(input()))) for _ in range(H)] ans = H*W def countWhite(ytop, ybottom, xleft, xright): ret = sum([sum(s[xleft:xright]) for s in S[ytop:ybottom]]) return ret for h_div in range(1 << H-1): count = 0 cut = [0] for i in range(H): if h_div >> i & 1: cut.append(i+1) count += 1 cut.append(H) if count > ans: continue left = 0 # ここどんなふうに縦に切っても条件を満たさない場合がある for right in range(1, W+1): white = 0 for i in range(len(cut)-1): white = max(white, countWhite(cut[i], cut[i+1], left, right)) if white > K: if left == right - 1: # 条件を満たす縦の切り方がなかった場合 break left = right - 1 count += 1 if count > ans: break else: if count < ans: ans = count print(ans)

# coding: utf-8 n = int(input()) x = [float(i) for i in input().split()] y = [float(i) for i in input().split()] dl = [abs(i - j) for (i,j) in zip(x,y)] for p in range(1,4): d = sum([i ** p for i in dl]) ** (1/p) print("{:.8f}".format(d)) print("{:.8f}".format(max(dl)))

N = int(input()) A = list(map(int,input().split())) x = True for i in range(N): if A[i] % 2 != 0: continue if not (A[i]%3==0 or A[i]%5==0): x = False if x: print("APPROVED") else: print("DENIED")

n = int(input()) A = list(map(int, input().split())) ans = 'APPROVED' for a in A: if a%2 == 0: if a%3 != 0 and a%5 != 0: ans = 'DENIED' print(ans)

W = raw_input().upper() T = [] while True: txt = raw_input() if txt == "END_OF_TEXT": break T += txt.upper().split() print T.count(W)

W = input() cnt = 0 while True: t = input() if t == 'END_OF_TEXT': break else: cnt += t.lower().split().count(W) print(cnt)

import math x_1, y_1, x_2, y_2 = map(float, input().split()) l = math.sqrt((x_1 - x_2)**2 + (y_1 - y_2)**2) print(l)

poi = [0,0] for mak in range(int(input())) : tem = input().split() if tem[0] == tem[1] : poi[0] += 1 poi[1] += 1 else : che = sorted(tem) if tem[0] != che[0] : poi[0] += 3 else : poi[1] += 3 print(poi[0],poi[1])

def solve(n,s): cnt = 0 for i in range(len(s)-2): if "ABC" == s[i:i+3]: cnt+=1 return cnt n = int(input()) s = input() ans = solve(n,s) print(ans)

def resolve(): import sys input = sys.stdin.readline # 整数 1 つ n = int(input()) s = input() # 整数複数個 # a, b = map(int, input().split()) # 整数 N 個 (改行区切り) # N = [int(input()) for i in range(N)] # 整数 N 個 (スペース区切り) # N = list(map(int, input().split())) # 整数 (縦 H 横 W の行列) # A = [list(map(int, input().split())) for i in range(H)] cnt = 0 for i in range(n-2): if s[i]+s[i+1]+s[i+2] == "ABC": cnt += 1 print(cnt) resolve()

N, X, T = map(int, input().split()) times = N // X if N % X != 0: times += 1 print(T * times)

import sys read = sys.stdin.read #readlines = sys.stdin.readlines from math import ceil def main(): n, x, t = map(int, input().split()) print(ceil(n / x) * t) if __name__ == '__main__': main()

K = int(input()) for _ in range(K): print("ACL", end = "") print()

K=int(input()) ans=[] for i in range(K): ans.extend("ACL") print("".join(ans))

N,M=map(int,input().split()) sc=[] for i in range(M): sc.append(list(map(int,input().split()))) ans=-1 cnt=10**(N-1) if cnt==1:cnt-=1 while True: if len(str(cnt))>N:break if len(str(cnt))!=N:continue ret=True for i in range(M): if str(cnt)[sc[i][0]-1]!=str(sc[i][1]): ret=False break if ret: ans=cnt break cnt+=1 print(ans)

# C - Guess The Number N, M = map(int, input().split()) SC = [list(map(int, input().split())) for _ in range(M)] ans = [0,0,0] # 条件だけで不適がわかるものは弾く for i in range(M): for j in range(i+1,M): if (SC[i][0] == SC[j][0]) and (SC[i][1] != SC[j][1]): print(-1) quit() # 各桁を指定をする for k in range(M): ans[SC[k][0]-(N-2)] = str(SC[k][1]) # 頭の桁が0で指定されると不適(str型かどうかで判定する) if (ans[3-N] == "0") and (N == 1): print(0) quit() elif ans[3-N] == "0": print(-1) quit() # N桁の文字列にする ans = [str(ans[i]) for i in range(3)] res = "".join(ans) res = res[(3-N):4] # 頭の桁が指定無しの0だったら1に変える if (res[0] == "0") and (N == 1): res = "0" elif res[0] == "0": ref = list(res) ref[0] = "1" res = "".join(ref) print(res)

n=int(input()) adj=[] for i in range(n): adj.append(list(map(int, input().split()))) edge=[[0 for i2 in range(n)]for i1 in range(n)] #??£??\??????????????? for i in range(n): for j in range(adj[i][1]): edge[i][adj[i][j+2]-1]=1 time=1 discover=[0 for i in range(n)] final=[0 for i in range(n)] stack=[] def dfs(id,time): for i in range(n): c=0 if edge[id][i]==1 and discover[i]==0: stack.append(id) discover[i]=time c+=1 #print(discover,final,i,stack) dfs(i,time+1) else: pass if c==0: if len(stack)>0: if final[id]==0: final[id] = time #print("back",discover,final,id,stack) dfs(stack.pop(), time + 1) else: #print("back", discover, final, id, stack) dfs(stack.pop(),time) discover[0]=time stack.append(0) dfs(0,time+1) for i in range(n): if discover[i]==0: discover[i]=final[0]+1 stack.append(i) dfs(i,final[0]+2) break for i in range(n): print(i+1,discover[i],final[i])

N = int(input()) G = [[0] * N for _ in range(N)] time = 0 times = [{'s': 0, 'f': 0} for _ in range(N)] for _ in range(N): u, n, *K = map(int, input().split()) for k in K: G[u - 1][k - 1] = 1 def dfs(u): global time time += 1 times[u]['s'] = time for i in range(N): if G[u][i] == 1 and times[i]['s'] == 0: dfs(i) else: time += 1 times[u]['f'] = time for i in range(N): if times[i]['s'] == 0: dfs(i) for i, time in enumerate(times): print(i + 1, *time.values())

for j in range(1,10,1): for k in range(1,10,1): print("{}x{}={}".format(j,k,j*k))

n,k=list(map(int,input().split())) mod=10**9+7 def modinv(x): return pow(x,mod-2,mod) ans=1 comb1=1 comb2=1 for i in range(1,min(n-1,k)+1): comb1*=(n-i+1)*modinv(i) comb2*=(n-i)*modinv(i) comb1%=mod comb2%=mod ans+=comb1*comb2 ans%=mod print(ans)

n = input() maxv = - 1 * pow(10, 9) minv = input() for _ in xrange(1, n): Rj = input() maxv = max(maxv, Rj - minv) minv = min(minv, Rj) print maxv

from collections import deque import sys deq = deque() q = int(input()) for _ in range(q): s = input() if s == 'deleteFirst': deq.popleft() elif s == 'deleteLast': deq.pop() else: ss, num = s.split() if ss == 'insert': deq.appendleft(num) else: try: deq.remove(num) except: pass print(" ".join(deq))

in_sec = int(raw_input()) sec = in_sec%60 in_sec = (in_sec-sec)/60 min = in_sec%60 h = (in_sec-min)/60 print str(h) + ":" + str(min) + ":" + str(sec)

i = count = 0 a = b = c = '' line = input() while line[i] != ' ': a = a + line[i] i += 1 i += 1 while line[i] != ' ': b = b + line[i] i += 1 i += 1 while i < len(line): c = c + line[i] i += 1 a = int(a) b = int(b) c = int(c) while a <= b: if c%a == 0: count += 1 a += 1 print(count)

import sys N, K = map(int, sys.stdin.readline().rstrip().split()) P = [int(x) for x in sys.stdin.readline().rstrip().split()] # 目が 1 ... p のときの期待値 def kitaichi(p): return (p + 1) / 2 goukei = 0 for i in range(K): goukei += kitaichi(P[i]) gmax = goukei for i in range(N - K): goukei = goukei + kitaichi(P[K + i]) - kitaichi(P[i]) # 次の区間の合計 gmax = max(goukei, gmax) print(gmax)

import math H,W,N = [int(input()) for i in range(3)] print(min(math.ceil(N/H),math.ceil(N/W)))

n = int(input()) s = input() if n%2==1: print("No") else: s1 = "" s2 = "" for i in range(0, n//2): s1+=s[i] s2+=s[n//2 + i] if(s1 == s2): print("Yes") else: print("No")

n = int(input()) s = input() if n % 2 == 1: print('No') else: head = s[:n // 2] tail = s[n // 2:] if head == tail: print('Yes') else: print('No')

num = map(int, raw_input().split()) for i in range(0,2): for j in range(0,2): if num[j] > num[j+1]: tmp_box = num[j] num[j] = num[j+1] num[j+1] = tmp_box sort = map(str, num) print sort[0] + " " + sort[1] + " " + sort[2]

a = list(map(int, input().split())) for i in range(1,len(a)): v = a[i] j = i - 1 while j >= 0 and a[j] > v: a[j+1] = a[j] j -= 1 a[j+1] = v print("{} {} {}".format(a[0],a[1],a[2]))

while True: try: a=input().split() except: break b=int(a[0])+int(a[1]) print(len(str(b)))

N, M, K = map(int, input().split()) A = list(map(int, input().split())) B = list(map(int, input().split())) max_num = 0 j = 0 j_max = M A_sums=[0] B_sums=[0] for i in range(N): A_sums.append(A_sums[i]+A[i]) for i in range(M): B_sums.append(B_sums[i]+B[i]) for i in range(N + 1): j = 0 if A_sums[i]>K: break while A_sums[i]+B_sums[j_max] > K: j_max -=1 max_num = max(max_num, i + j_max) print(max_num)

n, k = map(int, input().split()) arr = list(map(int, input().split())) expected = [] cumsum = [] for x in arr: sum = (x * (x + 1)) // 2 ex = sum / x expected.append(ex) sum = 0 maxi = 0 taken = 0 bad = 0 for x in expected: sum += x taken += 1 if taken == k: maxi = max(maxi, sum) elif taken > k: sum -= expected[bad] bad += 1 maxi = max(maxi, sum) print(maxi)

s = input() if(s == 'hi'): print('Yes') elif(s == 'hihi'): print('Yes') elif(s == 'hihihi'): print('Yes') elif(s == 'hihihihi'): print('Yes') elif(s == 'hihihihihi'): print('Yes') else: print('No')

N = int(input()) P = list(map(int, input().split())) temp = P[0] res = 1 for i in range(1,N): if P[i] <= temp: temp = P[i] res += 1 print(res)

print('Yes' if '7' in input() else 'No')