SmallDoge/MiniCorpus · Datasets at Hugging Face

text stringlengths 37 1.41M
import sys readline = sys.stdin.buffer.readline def even(n): return 1 if n%2==0 else 0 n = int(readline()) dic1 = { 4:8, 6:7, 8:6, 10:5, 12:4, 14:3, 16:2, 18:1, } for i in range(4,19,2): if i100 <= n < (i+2)100: print(dic1[i])
#入力 lst = input().split() #整数値化 for i in range(len(lst)): lst[i] = int(lst[i]) #ソート lst.sort() #出力 if lst == [5, 5, 7]: print('YES') else: print('NO')
abc = input() num_abc = abc.split() a = int(num_abc[0]) b = int(num_abc[1]) c = int(num_abc[2]) if a < b < c: print('Yes') else: print('No')
lst = [int(a) for a in input().split()] if [5,5,7] == sorted(lst): print("YES") else: print("NO")
def main(): S = input() from collections import deque S = deque(S) ans = 0 while S: if S[0] == S[-1]: S.popleft() if S: S.pop() elif S[0] != "x" and S[-1] != "x": return print(-1) elif S[0] == "x": S.append("x") ...
S = input() i = 0 n = len(S) while i <= n-5: if S[i:i+5] == "dream": i += 5 if S[i:i+2] == "er" and S[i:i+5] != "erase": i += 2 elif S[i:i+5] == "erase": i += 5 if S[i:i+1] == "r": i += 1 else: break if i != len(S): print("NO") else: pr...
def divisor(n): i = 1 table = [] while i * i <= n: if n % i == 0: table.append(i) table.append(n//i) i += 1 table = list(set(table)) return table A, B, K = map(int, input().split(" ")) a_divisor = divisor(A) b_divisor = divisor(B) print(sorted(list(set(a_d...
#coding:UTF-8 def LoT(List): List2=sorted(List) for i in range(3): print(List2[len(List)-1-i]) if __name__=="__main__": List=[] for i in range(10): List.append(int(input())) LoT(List)
A,B,C = map (int, input (). split ()) if A==B!=C or A!=B==C or A==C!=B: print ('Yes') else: print ('No')
def f(i): if i == 2:return 1 return pow(2, i-1, i) == 1 print(sum(1 for n in range(int(input())) if f(int(input()))))
num = int(input()) item_prices = [] for i in range(num): price = int(input()) item_prices.append(price) highest_price = max(item_prices) item_prices[item_prices.index(highest_price)] = highest_price // 2 total_price = sum(item_prices) print(total_price)
x = int(input()) answer = 0 answer = (x//500)1000 x = x%500 answer += (x//5)5 print(answer)
n = int(input()) a = list(input().split()) # aの中に黄色Yが含まれていればFourと出力 if "Y" in a: print("Four") # aの中に黄色Yが含まれてなけれはThreeと出力 else: print("Three")
from math import gcd K = int(input()) goukei = 0 for a in range(1,K+1): for b in range(1,K+1): G = gcd(a,b) for c in range(1,K+1): goukei += gcd(G,c) print(goukei)
a, b = input().split() print('>' if a > b else '<' if a < b else '=')
a, b = map(int, input().split()) x = a * b z = x % 2 if z == 0 : print("Even") else : print("Odd")
S=input() x=int(S[:2]) y=int(S[2:]) if 0<x<13 and 0<y<13:print("AMBIGUOUS") elif 0<x<13:print("MMYY") elif 0<y<13:print("YYMM") else:print("NA")
n = int(input()) ans = n while(1): if ans%2==0 and ans%n==0: break ans += n print(ans)
# 最小公倍数(mathは3.5以降) #参考　https://note.nkmk.me/python-gcd-lcm/ from functools import reduce import math #(2020-0405 fractions→math) def lcm_base(x, y): return (x * y) // math.gcd(x, y) # 「//」はフロートにせずにintにする def lcm(*numbers): # a,b,cなど return reduce(lcm_base, numbers, 1) def lcm_list(numbers): #リスト return ...
from math import pi r=float(raw_input()) print ("%f %f" %(pir2, 2pi*r))
print('Yes') if len(set(input().split(' '))) == 1 else print('No')
import sys def gcd(a, b): return gcd(b, a % b) if a % b else b def lcm(a, b): return a * b / gcd(a, b) for line in sys.stdin: data = map(int, line.split()) a, b = data print "%d %d" % (gcd(a, b), lcm(a, b))
N = int(input()) flag = True for i in range(N): n = int(input()) if n % 2 == 1: flag = False if flag: print('second') else: print('first')
S = input() L = len(S) for i in range(L): print("x",end='')
args = input().split() stack = [] def cal_with_operator(b, a, operator): return eval('{} {} {}'.format(a, operator, b)) for s in args: if s == '+': stack.append(cal_with_operator(stack.pop(), stack.pop(), '+')) elif s == '-': stack.append(cal_with_operator(stack.pop(), stack.pop(), '-')) elif s == '*'...
def main(): s = input() for i in range(len(s) - 1): if s[i:i + 2] == 'AC': print('Yes') exit() print('No') if __name__ == '__main__': main()
k = int(input()) x = 7%k cnt = 0 if k%2 ==0: print('-1') else: while True: cnt += 1 if x == 0: print(cnt) break elif cnt == k: print('-1') break else: x = (x*10+7)%k
from math import pi n=int(input()) print(2npi)
koman = int(input()) if koman==7 or koman==5 or koman==3: print("YES") else : print("NO")
def main(): stop = list(input()) a, b = 0, 0 for i in stop: if 'A' == i: a+=1 else: b+=1 if a > 0 and b > 0: print('Yes') else: print('No') main()
p=input().rstrip().split(' ') if int(p[0])==int(p[1]): print(1) elif int(p[1])>int(p[0]): print(0) else: print(int(p[0])-int(p[1])+1)
n = int(input()) a = list(map(int, input().split())) M = max(a) biggest_prime = [0] * (M+10) for i in range(2, M+10): if biggest_prime[i] == 0: biggest_prime[i] = i for j in range(i*i, M+1, i): biggest_prime[j] = i def fact(n): arr=[] while n>1: now=n cnt=0 ...
memo = [1, 1] def fib(n): if (n < len(memo)): return memo[n] memo.append(fib(n-1) + fib(n-2)) return memo[n] N = int(input()) print(fib(N))
a = [input() for i in range(2)] sp = "".join(sorted(list(a[0]))) tmp = list(a[1]) tmp.sort() tmp.reverse() tp = "".join(tmp) if sp < tp: print("Yes") else: print("No")
x, a, b = input().split() x = int(x) a = int(a) b = int(b) x_a = (x - a) 2 x_b = (x - b) 2 if x_a > x_b: print("B") else: print("A")
s = list(input()) count = 0 maxcount = 0 for i in range(3): if s[i] == 'R': count += 1 maxcount = count else: count = 0 print(maxcount)
def merge(A, left, mid, right): inf = float("inf") L, R = A[left:mid]+[inf], A[mid:right]+[inf] i = j = 0 for k in range(left, right): if L[i] <= R[j]: A[k] = L[i] i += 1 else: A[k] = R[j] j += 1 return right - left def merge_sort(A...
inter = list(input()) flag = 0 for i in range(0, len(inter)): if inter[i] == "7": flag = 1 if flag == 1: print("Yes") else: print("No")
n = int(input()) i = 1 for i in range(1, n + 1): if i % 3 == 0: print(' {0}'.format(i), end = '') else: st = str(i) for x in range(0, len(st)): if st[x] == '3': print(' {0}'.format(i), end = '') break print()
import math x1, y1, x2, y2 = [float(i) for i in input().split()] print(math.sqrt((x1 - x2) 2 + (y1 - y2) 2))
def prime_list(): p_lis = [True] * (2 * 10*5 + 1) p_lis[0], p_lis[1] = False, False for i in range(2, 2 10*5 + 1): if p_lis[i]: j = 2 while j i <= 2 * 10*5: p_lis[ji] = False j += 1 return p_lis x = int(input()) p_lis = prime_list() j = 0 while True: if p_lis[x+j]: ...
import math a,b,x = map(int,input().split()) if x <= aab//2: theta = (math.pi/2) - math.atan((2x)/(abb)) else: theta = math.atan(2(aab-x)/(aaa)) degree = math.degrees(theta) print(degree)
#愚直な判定 def JudgeStable(inC, outC, N): for i in range(N): for j in range(i+1, N): for a in range(N): for b in range(a+1, N): if inC[i][1] == inC[j][1] and inC[i] == outC[b] and inC[j] == outC[a]: return False return True def PrintJu...
from decimal import Decimal X=int(input()) c =Decimal(100) C=0 while c<X: c=Decimal(c)*(Decimal(101))//Decimal(100) C+=1 print(C)
import math X = int(input()) gcd = math.gcd(X, 360) lcm = X * 360 / gcd print(int(lcm/X))
n = input().count('7') if n == 0: ans = 'No' else: ans = 'Yes' print(ans)
S = input() l = len(S) T = ''.join(list(reversed(S))) a = S[:(l-1)//2] a1 = ''.join(list(reversed(a))) b = S[(l+3)//2-1:l] b1 = ''.join(list(reversed(b))) if S == T: if a == a1 and b == b1: print('Yes') if a != a1 or b != b1: print('No') if S != T: print('No')
import math N = int(input()) def lcm(x, y): return (x*y) // math.gcd(x, y) ans = 1 for _ in range(N): T = int(input()) ans = lcm(ans, T) print(ans)
def Reverse(str, A, B): a = int(A) b = int(B) if a == 0: str = str[0:a] + str[b::-1] + str[b + 1:] else: str = str[0:a] + str[b:a - 1:-1] + str[b + 1:] return str def Replace(str, a, b, c): str2 = '' Str = list(str) for i in range(int(b) - int(a) + 1): Str[i + in...
class UnionFind: __slots__ = ["_data_size", "_roots"] def __init__(self, data_size: int) -> None: self._data_size = data_size self._roots = [-1] * data_size def __getitem__(self, x: int) -> int: while self._roots[x] >= 0: x = self._roots[x] return x def ...
n = int(input()) def func(n): if n==1: return 1 return n + func(n-1) print(func(n))
X,Y = map(str, input().split()) l = ['A','B','C','D','E','F'] if l.index(X)>l.index(Y): print('>') elif l.index(X)<l.index(Y): print('<') else: print('=')
h = -1 w = -1 while True: input = map(int, raw_input().split(" ")) h = input[0] w = input[1] if (h == 0 and w == 0): break i = 1 j = 0 inner_line = "#" outer_line = "" while j < w: outer_line += "#" if (j != 0 and j != w - 1): inner_line += "." j += 1 inner_line += "#" pr...
s = input() kouho = ["dream", "dreamer", "erase", "eraser"] s = s.replace(kouho[3], "").replace(kouho[2], "").replace(kouho[1], "").replace(kouho[0], "") if s == "": print("YES") else: print("NO")
counter = 0 while 1: i = int(input()) if i == 0: break counter += 1 print("Case {0}: {1}".format(counter, i))
#!/usr/bin/env python3 def right_triangle(edge): # a < b < c return (edge[0] 2 + edge[1] 2 == edge[2] ** 2) n = int(input()) for i in range(n): edge = sorted([int(x) for x in input().split()]) if right_triangle(edge): print("YES") else: print("NO")
import math def insert_sort(A, n, g): cnt = 0 for i in range(g, n): j = i - g v = A[i] while j >= 0 and A[j] > v: A[j+g] = A[j] j -= g cnt += 1 A[j+g] = v return cnt def shell_sort(A, n): cnt = 0 G = [] h = 1 while h ...
n = int(input()) s = input() res = 'Yes' if s[0:n//2] == s[n//2:] else 'No' print(res)
n= list(input()) make = 0 for i in range(len(n)): if n[i] == "x": make += 1 if make >= 8: print("NO") else: print("YES")
n = int(input()) l = [2, 1] if n == 1: print(1) else: for i in range(n): l.append(l[i+1]+l[i]) print(l[n])
N = input() a = int(N[-1]) if a == 3: ans = "bon" elif a == 0 or a == 1 or a == 6 or a == 8: ans = "pon" else: ans = "hon" print(ans)
def input_from_console(): n, k = map(int, input().split()) return n, k def nCr(n,r): f = math.factorial return f(n) / f(r) / f(n-r) def main(): n, k = input_from_console() print(n-k+1) if __name__ == "__main__": main()
import math r = float(input()) print("{0:5f}".format(r*2math.pi) , end = " ") print("{0:5f}".format(2rmath.pi))
def main(): N, A, B = (int(i) for i in input().split()) H = [int(input()) for i in range(N)] def is_ok(x): y = 0 # 中心爆破必要回数 for i, h in enumerate(H): if h - xB <= 0: continue le = 0 ri = 10*9 + 1 while ri - le > 1: ...
N = int(input()) A = list(map(int, input().split())) even = [i for i in A if i % 2 == 0] if all([i % 3 == 0 or i % 5 == 0 for i in even]) == True: print("APPROVED") else: print("DENIED")
n = int(input()) ans = 0 for i in range(n): x,n = input().split() x = float(x) if n == "BTC": x *= 380000.0 ans += x print(ans)
N = int(input()) A = list(map(int, input().split())) A_even = [num for num in A if num%2 == 0] A_odd = [num for num in A if num%2 != 0] e = len(A_even) o = len(A_odd) if(o%2 == 0): print("YES") else: print("NO")
import sys count = 0 def insertionSort(A, n, g): global count for i in range(n): v = A[i] j = i - g while j >= 0 and A[j] > v: A[j+g] = A[j] j = j - g count += 1 A[j+g] = v return A def shellSort(A, n): for i in range(m): inse...
x,y=input().split(' ') mydec= {'A':1,'B':2,'C':3,'D':4,'E':5,'F':6} if x < y: print('<') elif x > y: print('>') else: print('=')
class Node: def __init__(self,v): self.v = v self.next = None class Queue: def __init__(self): self.head = None self.tail = None self.size = 0 def enqueue(self,v): self.size += 1 n = Node(v) if self.tail == None: self.tail = n ...
α=input() if α.isupper(): print('A') elif α.islower(): print('a')
# Connect Cities # Union Findデータ構造（素集合データ構造） #入力:N,M(int:整数) def input2(): return map(int,input().split()) #入力:[n1,n2,...nk](int:整数配列) def input_array(): return list(map(int,input().split())) class UnionFind(): """docstring for UnionFind""" def __init__(self, n): self.parents = [-1]*n def find(self,x): ...
X = int(input()) # A>=0で考えられる div_list = [] for a in range(1, int(X0.5)+1): if X % a == 0: div_list.append((a, X//a)) #print(div_list) for x, y in div_list: for a in range(int(X0.5)+1): b = a - x #print(a, b) y_hat = a*4 + ba3 + b2a2 + b3a + b**4 #print(y...
import copy def BubbleSort(C, n): flag = 1 while flag: flag = 0 for i in range(n-1, 0, -1): if int(C[i][1]) < int(C[i - 1][1]): C[i], C[i-1] = C[i-1], C[i] flag = 1 return C def SelectionSort(C, n): for i in range(n-1): minj = i ...
def isPrime(x): if x == 2: return True elif (x < 2) or (x % 2 == 0): return False else: i = 3 while i <= float(x) ** 0.5: if x % i == 0: return False i += 2 return True t = 0 for i in range(int(input())): if isPrime(int(in...
d = input() s = 0 for i in range(len(d)): s += int(d[i]) if (s%9) == 0: print("Yes") else: print("No")
n = int(input()) l = [2, 1] for i in range(2, n+1): a = l[i-2] + l[i-1] l.append(a) print(l[n])
def collatz(n): c = 1 check = [n] while(True): c += 1 if n & 1 == 0: n = n // 2 if n in check: break check.append(n) else: n = (n * 3) + 1 if n in check: break check.append(n) return c n = int(input()) print(collatz(n))
cnt=0 def merge_sort(S): l=len(S) mid=int(l/2) Left=S[0:mid] Right=S[(mid):l] global cnt if l>=2: merge_sort(Left) and merge_sort(Right) Left.append(float('inf')) Right.append(float('inf')) p=0 q=0 for i in range(l): if Left[p]<Right[q]: ...
#!/usr/bin/env python3 c1 = list(map(int, input().split())) c2 = list(map(int, input().split())) c3 = list(map(int, input().split())) if (c1[1]-c1[0] == c2[1]-c2[0] == c3[1]-c3[0]) and \ (c2[2]-c2[1] == c2[2]-c2[1] == c3[2]-c3[1]) and \ (c2[0]-c1[0] == c2[1]-c1[1] == c2[2]-c1[2]) and \ (c3[0]-c2[0] == c3[1]-...
a, b, c = input().strip().split(' ') a, b, c = [int(a), int(b), int(c)] if (a < c and b < c) or (a>c and b > c): ans = "No" else: ans = "Yes" print(ans)
s=input();a="";b=input() for i in range(len(s)): a+=s if b in a: print("Yes") else: print("No")
import sys if sys.platform =='ios': sys.stdin=open('input.txt') l = list(map(int,input().split())) l.sort() #print(''.join(list(map(str, l)))) if ''.join(list(map(str, l)))=='1479': print('YES') else: print('NO')
import sys from math import factorial input = sys.stdin.readline def log(args): print(args, file=sys.stderr) def main(): x, y = map(int, input().rstrip().split()) # 全部 i + 1, j + 2が最初だったとする # a + 2b = x, 2a + b = y # => # a = x - 2b # b = y - 2a # => # b = y - 2x + 4b # 3b ...
N=int(input()) res=1 for i in range(1,N+1): res=resi res=res%(10*9+7) print(res)
N = int(input()) A = list(map(int, input().split())) flag = True for n in A: if n % 2 == 0 and (n % 3 != 0 and n % 5 != 0): flag = False print("APPROVED" if flag else "DENIED")
# coding: utf-8 ring = input() pattern = input() ring *= 2 if pattern in ring: print('Yes') else: print('No')
#!/usr/bin/env python3 import sys import math import decimal import itertools from itertools import product from functools import reduce INF = 10*19 def input(): return sys.stdin.readline()[:-1] def sort_zip(a:list, b:list): z = zip(a, b) z = sorted(z) a, b = zip(z) a = list(a) b = list(b) ...
def BubbleSort(A): for i in range(len(A)): for j in range(len(A)-1,i,-1): if A[j][1] < A[j-1][1]: # リストの要素の文字列は2次元配列として記憶される A[j],A[j-1] = A[j-1],A[j] return A def SelectionSort(A): for i in range(len(A)): mini = i for j in ...
import sys input = sys.stdin.readline from collections import * def judge(x): cnt = 0 for hi in h: cnt += max(0, (hi-Bx+A-B-1)//(A-B)) return cnt<=x def binary_search(): l, r = 0, 10*10 while l<=r: m = (l+r)//2 if judge(m): r = m-1 ...
#Macで実行する時 import sys import os if sys.platform=="darwin": base = os.path.dirname(os.path.abspath(__file__)) name = os.path.normpath(os.path.join(base, '../atcoder/input.txt')) #print(name) sys.stdin = open(name) from math import factorial def combinations_count(n,r): if n < r: return 0 else: ...
n = int(input()) if n == 2: print(1) quit() elif n == 3: print(2) quit() def factorization(n): arr = [] temp = n for i in range(2, int(-(-n**0.5//1))+1): if temp%i==0: cnt=0 while temp%i==0: cnt+=1 temp //= i arr.append([i, cnt]) if temp!=1: arr.append([temp, 1]...
def main(): parking_hour, fee_par_hour, flat_fee = map(int, input().split()) print(min(parking_hour * fee_par_hour, flat_fee)) if __name__ == '__main__': main()
class Dice: def __init__(self, num_list): self.faces = num_list def find_rf(self, top, front): tf = str(self.faces.index(top)) + str(self.faces.index(front)) if tf in '12431': return self.faces[0] elif tf in '03520': return self.faces[1] elif tf i...
(a, b) = map(int, input().split()) print('a', end=' ') print('<' if a < b else '==' if a==b else '>', end=' ') print('b')
a,b=map(int,input().split()) list=[2,3,4,5,6,7,8,9,10,11,12,13,1] # print(list.index()) a_val=list.index(a) b_val=list.index(b) if a_val>b_val:print('Alice') elif a_val<b_val:print('Bob') else:print('Draw')
s = list(input()) moji = [] if len(s)%2 == 0: for i in range(len(s)//2): moji.append(s[2i]) else: for i in range((len(s)+1)//2): moji.append(s[2i]) print("".join(moji))
class Dice(): state = [0 for _ in range(6)] def __init__(self, dice_list): self.state[0] = dice_list[0] self.state[1] = dice_list[1] self.state[2] = dice_list[2] self.state[3] = dice_list[3] self.state[4] = dice_list[4] self.state[5] = dice_list[5] def ...
from math import sqrt n = int(input()) p = 0 for i in range(n): x = int(input()) if x == 2: p += 1 elif x%2 == 1: j=3 f = 0 while j < (int(sqrt(x))+1): if x%j == 0: f = 1 break else: j += 2 if f ...
a=int(input()) b=int(input()) if a>b: print("GREATER"); elif a==b: print("EQUAL"); elif a<b: print("LESS");

import sys readline = sys.stdin.buffer.readline def even(n): return 1 if n%2==0 else 0 n = int(readline()) dic1 = { 4:8, 6:7, 8:6, 10:5, 12:4, 14:3, 16:2, 18:1, } for i in range(4,19,2): if i*100 <= n < (i+2)*100: print(dic1[i])

#入力 lst = input().split() #整数値化 for i in range(len(lst)): lst[i] = int(lst[i]) #ソート lst.sort() #出力 if lst == [5, 5, 7]: print('YES') else: print('NO')

abc = input() num_abc = abc.split() a = int(num_abc[0]) b = int(num_abc[1]) c = int(num_abc[2]) if a < b < c: print('Yes') else: print('No')

lst = [int(a) for a in input().split()] if [5,5,7] == sorted(lst): print("YES") else: print("NO")

def main(): S = input() from collections import deque S = deque(S) ans = 0 while S: if S[0] == S[-1]: S.popleft() if S: S.pop() elif S[0] != "x" and S[-1] != "x": return print(-1) elif S[0] == "x": S.append("x") ...

S = input() i = 0 n = len(S) while i <= n-5: if S[i:i+5] == "dream": i += 5 if S[i:i+2] == "er" and S[i:i+5] != "erase": i += 2 elif S[i:i+5] == "erase": i += 5 if S[i:i+1] == "r": i += 1 else: break if i != len(S): print("NO") else: pr...

def divisor(n): i = 1 table = [] while i * i <= n: if n % i == 0: table.append(i) table.append(n//i) i += 1 table = list(set(table)) return table A, B, K = map(int, input().split(" ")) a_divisor = divisor(A) b_divisor = divisor(B) print(sorted(list(set(a_d...

#coding:UTF-8 def LoT(List): List2=sorted(List) for i in range(3): print(List2[len(List)-1-i]) if __name__=="__main__": List=[] for i in range(10): List.append(int(input())) LoT(List)

A,B,C = map (int, input (). split ()) if A==B!=C or A!=B==C or A==C!=B: print ('Yes') else: print ('No')

def f(i): if i == 2:return 1 return pow(2, i-1, i) == 1 print(sum(1 for n in range(int(input())) if f(int(input()))))

num = int(input()) item_prices = [] for i in range(num): price = int(input()) item_prices.append(price) highest_price = max(item_prices) item_prices[item_prices.index(highest_price)] = highest_price // 2 total_price = sum(item_prices) print(total_price)

x = int(input()) answer = 0 answer = (x//500)*1000 x = x%500 answer += (x//5)*5 print(answer)

n = int(input()) a = list(input().split()) # aの中に黄色Yが含まれていればFourと出力 if "Y" in a: print("Four") # aの中に黄色Yが含まれてなけれはThreeと出力 else: print("Three")

from math import gcd K = int(input()) goukei = 0 for a in range(1,K+1): for b in range(1,K+1): G = gcd(a,b) for c in range(1,K+1): goukei += gcd(G,c) print(goukei)

a, b = input().split() print('>' if a > b else '<' if a < b else '=')

a, b = map(int, input().split()) x = a * b z = x % 2 if z == 0 : print("Even") else : print("Odd")

S=input() x=int(S[:2]) y=int(S[2:]) if 0<x<13 and 0<y<13:print("AMBIGUOUS") elif 0<x<13:print("MMYY") elif 0<y<13:print("YYMM") else:print("NA")

n = int(input()) ans = n while(1): if ans%2==0 and ans%n==0: break ans += n print(ans)

# 最小公倍数(mathは3.5以降) #参考　https://note.nkmk.me/python-gcd-lcm/ from functools import reduce import math #(2020-0405 fractions→math) def lcm_base(x, y): return (x * y) // math.gcd(x, y) # 「//」はフロートにせずにintにする def lcm(*numbers): # a,b,cなど return reduce(lcm_base, numbers, 1) def lcm_list(numbers): #リスト return ...

from math import pi r=float(raw_input()) print ("%f %f" %(pi*r**2, 2*pi*r))

print('Yes') if len(set(input().split(' '))) == 1 else print('No')

import sys def gcd(a, b): return gcd(b, a % b) if a % b else b def lcm(a, b): return a * b / gcd(a, b) for line in sys.stdin: data = map(int, line.split()) a, b = data print "%d %d" % (gcd(a, b), lcm(a, b))

N = int(input()) flag = True for i in range(N): n = int(input()) if n % 2 == 1: flag = False if flag: print('second') else: print('first')

S = input() L = len(S) for i in range(L): print("x",end='')

args = input().split() stack = [] def cal_with_operator(b, a, operator): return eval('{} {} {}'.format(a, operator, b)) for s in args: if s == '+': stack.append(cal_with_operator(stack.pop(), stack.pop(), '+')) elif s == '-': stack.append(cal_with_operator(stack.pop(), stack.pop(), '-')) elif s == '*'...

def main(): s = input() for i in range(len(s) - 1): if s[i:i + 2] == 'AC': print('Yes') exit() print('No') if __name__ == '__main__': main()

k = int(input()) x = 7%k cnt = 0 if k%2 ==0: print('-1') else: while True: cnt += 1 if x == 0: print(cnt) break elif cnt == k: print('-1') break else: x = (x*10+7)%k

from math import pi n=int(input()) print(2*n*pi)

koman = int(input()) if koman==7 or koman==5 or koman==3: print("YES") else : print("NO")

def main(): stop = list(input()) a, b = 0, 0 for i in stop: if 'A' == i: a+=1 else: b+=1 if a > 0 and b > 0: print('Yes') else: print('No') main()

p=input().rstrip().split(' ') if int(p[0])==int(p[1]): print(1) elif int(p[1])>int(p[0]): print(0) else: print(int(p[0])-int(p[1])+1)

n = int(input()) a = list(map(int, input().split())) M = max(a) biggest_prime = [0] * (M+10) for i in range(2, M+10): if biggest_prime[i] == 0: biggest_prime[i] = i for j in range(i*i, M+1, i): biggest_prime[j] = i def fact(n): arr=[] while n>1: now=n cnt=0 ...

memo = [1, 1] def fib(n): if (n < len(memo)): return memo[n] memo.append(fib(n-1) + fib(n-2)) return memo[n] N = int(input()) print(fib(N))

a = [input() for i in range(2)] sp = "".join(sorted(list(a[0]))) tmp = list(a[1]) tmp.sort() tmp.reverse() tp = "".join(tmp) if sp < tp: print("Yes") else: print("No")

x, a, b = input().split() x = int(x) a = int(a) b = int(b) x_a = (x - a) ** 2 x_b = (x - b) ** 2 if x_a > x_b: print("B") else: print("A")

s = list(input()) count = 0 maxcount = 0 for i in range(3): if s[i] == 'R': count += 1 maxcount = count else: count = 0 print(maxcount)

def merge(A, left, mid, right): inf = float("inf") L, R = A[left:mid]+[inf], A[mid:right]+[inf] i = j = 0 for k in range(left, right): if L[i] <= R[j]: A[k] = L[i] i += 1 else: A[k] = R[j] j += 1 return right - left def merge_sort(A...

inter = list(input()) flag = 0 for i in range(0, len(inter)): if inter[i] == "7": flag = 1 if flag == 1: print("Yes") else: print("No")

n = int(input()) i = 1 for i in range(1, n + 1): if i % 3 == 0: print(' {0}'.format(i), end = '') else: st = str(i) for x in range(0, len(st)): if st[x] == '3': print(' {0}'.format(i), end = '') break print()

import math x1, y1, x2, y2 = [float(i) for i in input().split()] print(math.sqrt((x1 - x2) ** 2 + (y1 - y2) ** 2))

def prime_list(): p_lis = [True] * (2 * 10**5 + 1) p_lis[0], p_lis[1] = False, False for i in range(2, 2 * 10**5 + 1): if p_lis[i]: j = 2 while j * i <= 2 * 10**5: p_lis[j*i] = False j += 1 return p_lis x = int(input()) p_lis = prime_list() j = 0 while True: if p_lis[x+j]: ...

import math a,b,x = map(int,input().split()) if x <= a*a*b//2: theta = (math.pi/2) - math.atan((2*x)/(a*b*b)) else: theta = math.atan(2*(a*a*b-x)/(a*a*a)) degree = math.degrees(theta) print(degree)

#愚直な判定 def JudgeStable(inC, outC, N): for i in range(N): for j in range(i+1, N): for a in range(N): for b in range(a+1, N): if inC[i][1] == inC[j][1] and inC[i] == outC[b] and inC[j] == outC[a]: return False return True def PrintJu...

from decimal import Decimal X=int(input()) c =Decimal(100) C=0 while c<X: c=Decimal(c)*(Decimal(101))//Decimal(100) C+=1 print(C)

import math X = int(input()) gcd = math.gcd(X, 360) lcm = X * 360 / gcd print(int(lcm/X))

n = input().count('7') if n == 0: ans = 'No' else: ans = 'Yes' print(ans)

S = input() l = len(S) T = ''.join(list(reversed(S))) a = S[:(l-1)//2] a1 = ''.join(list(reversed(a))) b = S[(l+3)//2-1:l] b1 = ''.join(list(reversed(b))) if S == T: if a == a1 and b == b1: print('Yes') if a != a1 or b != b1: print('No') if S != T: print('No')

import math N = int(input()) def lcm(x, y): return (x*y) // math.gcd(x, y) ans = 1 for _ in range(N): T = int(input()) ans = lcm(ans, T) print(ans)

def Reverse(str, A, B): a = int(A) b = int(B) if a == 0: str = str[0:a] + str[b::-1] + str[b + 1:] else: str = str[0:a] + str[b:a - 1:-1] + str[b + 1:] return str def Replace(str, a, b, c): str2 = '' Str = list(str) for i in range(int(b) - int(a) + 1): Str[i + in...

class UnionFind: __slots__ = ["_data_size", "_roots"] def __init__(self, data_size: int) -> None: self._data_size = data_size self._roots = [-1] * data_size def __getitem__(self, x: int) -> int: while self._roots[x] >= 0: x = self._roots[x] return x def ...

n = int(input()) def func(n): if n==1: return 1 return n + func(n-1) print(func(n))

X,Y = map(str, input().split()) l = ['A','B','C','D','E','F'] if l.index(X)>l.index(Y): print('>') elif l.index(X)<l.index(Y): print('<') else: print('=')

h = -1 w = -1 while True: input = map(int, raw_input().split(" ")) h = input[0] w = input[1] if (h == 0 and w == 0): break i = 1 j = 0 inner_line = "#" outer_line = "" while j < w: outer_line += "#" if (j != 0 and j != w - 1): inner_line += "." j += 1 inner_line += "#" pr...

s = input() kouho = ["dream", "dreamer", "erase", "eraser"] s = s.replace(kouho[3], "").replace(kouho[2], "").replace(kouho[1], "").replace(kouho[0], "") if s == "": print("YES") else: print("NO")

counter = 0 while 1: i = int(input()) if i == 0: break counter += 1 print("Case {0}: {1}".format(counter, i))

#!/usr/bin/env python3 def right_triangle(edge): # a < b < c return (edge[0] ** 2 + edge[1] ** 2 == edge[2] ** 2) n = int(input()) for i in range(n): edge = sorted([int(x) for x in input().split()]) if right_triangle(edge): print("YES") else: print("NO")

import math def insert_sort(A, n, g): cnt = 0 for i in range(g, n): j = i - g v = A[i] while j >= 0 and A[j] > v: A[j+g] = A[j] j -= g cnt += 1 A[j+g] = v return cnt def shell_sort(A, n): cnt = 0 G = [] h = 1 while h ...

n = int(input()) s = input() res = 'Yes' if s[0:n//2] == s[n//2:] else 'No' print(res)

n= list(input()) make = 0 for i in range(len(n)): if n[i] == "x": make += 1 if make >= 8: print("NO") else: print("YES")

n = int(input()) l = [2, 1] if n == 1: print(1) else: for i in range(n): l.append(l[i+1]+l[i]) print(l[n])

N = input() a = int(N[-1]) if a == 3: ans = "bon" elif a == 0 or a == 1 or a == 6 or a == 8: ans = "pon" else: ans = "hon" print(ans)

def input_from_console(): n, k = map(int, input().split()) return n, k def nCr(n,r): f = math.factorial return f(n) / f(r) / f(n-r) def main(): n, k = input_from_console() print(n-k+1) if __name__ == "__main__": main()

import math r = float(input()) print("{0:5f}".format(r**2*math.pi) , end = " ") print("{0:5f}".format(2*r*math.pi))

def main(): N, A, B = (int(i) for i in input().split()) H = [int(input()) for i in range(N)] def is_ok(x): y = 0 # 中心爆破必要回数 for i, h in enumerate(H): if h - x*B <= 0: continue le = 0 ri = 10**9 + 1 while ri - le > 1: ...

N = int(input()) A = list(map(int, input().split())) even = [i for i in A if i % 2 == 0] if all([i % 3 == 0 or i % 5 == 0 for i in even]) == True: print("APPROVED") else: print("DENIED")

n = int(input()) ans = 0 for i in range(n): x,n = input().split() x = float(x) if n == "BTC": x *= 380000.0 ans += x print(ans)

N = int(input()) A = list(map(int, input().split())) A_even = [num for num in A if num%2 == 0] A_odd = [num for num in A if num%2 != 0] e = len(A_even) o = len(A_odd) if(o%2 == 0): print("YES") else: print("NO")

import sys count = 0 def insertionSort(A, n, g): global count for i in range(n): v = A[i] j = i - g while j >= 0 and A[j] > v: A[j+g] = A[j] j = j - g count += 1 A[j+g] = v return A def shellSort(A, n): for i in range(m): inse...

x,y=input().split(' ') mydec= {'A':1,'B':2,'C':3,'D':4,'E':5,'F':6} if x < y: print('<') elif x > y: print('>') else: print('=')

class Node: def __init__(self,v): self.v = v self.next = None class Queue: def __init__(self): self.head = None self.tail = None self.size = 0 def enqueue(self,v): self.size += 1 n = Node(v) if self.tail == None: self.tail = n ...

α=input() if α.isupper(): print('A') elif α.islower(): print('a')

# Connect Cities # Union Findデータ構造（素集合データ構造） #入力:N,M(int:整数) def input2(): return map(int,input().split()) #入力:[n1,n2,...nk](int:整数配列) def input_array(): return list(map(int,input().split())) class UnionFind(): """docstring for UnionFind""" def __init__(self, n): self.parents = [-1]*n def find(self,x): ...

X = int(input()) # A>=0で考えられる div_list = [] for a in range(1, int(X**0.5)+1): if X % a == 0: div_list.append((a, X//a)) #print(div_list) for x, y in div_list: for a in range(int(X**0.5)+1): b = a - x #print(a, b) y_hat = a**4 + b*a**3 + b**2*a**2 + b**3*a + b**4 #print(y...

import copy def BubbleSort(C, n): flag = 1 while flag: flag = 0 for i in range(n-1, 0, -1): if int(C[i][1]) < int(C[i - 1][1]): C[i], C[i-1] = C[i-1], C[i] flag = 1 return C def SelectionSort(C, n): for i in range(n-1): minj = i ...

def isPrime(x): if x == 2: return True elif (x < 2) or (x % 2 == 0): return False else: i = 3 while i <= float(x) ** 0.5: if x % i == 0: return False i += 2 return True t = 0 for i in range(int(input())): if isPrime(int(in...

d = input() s = 0 for i in range(len(d)): s += int(d[i]) if (s%9) == 0: print("Yes") else: print("No")

n = int(input()) l = [2, 1] for i in range(2, n+1): a = l[i-2] + l[i-1] l.append(a) print(l[n])

def collatz(n): c = 1 check = [n] while(True): c += 1 if n & 1 == 0: n = n // 2 if n in check: break check.append(n) else: n = (n * 3) + 1 if n in check: break check.append(n) return c n = int(input()) print(collatz(n))

cnt=0 def merge_sort(S): l=len(S) mid=int(l/2) Left=S[0:mid] Right=S[(mid):l] global cnt if l>=2: merge_sort(Left) and merge_sort(Right) Left.append(float('inf')) Right.append(float('inf')) p=0 q=0 for i in range(l): if Left[p]<Right[q]: ...

#!/usr/bin/env python3 c1 = list(map(int, input().split())) c2 = list(map(int, input().split())) c3 = list(map(int, input().split())) if (c1[1]-c1[0] == c2[1]-c2[0] == c3[1]-c3[0]) and \ (c2[2]-c2[1] == c2[2]-c2[1] == c3[2]-c3[1]) and \ (c2[0]-c1[0] == c2[1]-c1[1] == c2[2]-c1[2]) and \ (c3[0]-c2[0] == c3[1]-...

a, b, c = input().strip().split(' ') a, b, c = [int(a), int(b), int(c)] if (a < c and b < c) or (a>c and b > c): ans = "No" else: ans = "Yes" print(ans)

s=input();a="";b=input() for i in range(len(s)): a+=s if b in a: print("Yes") else: print("No")

import sys if sys.platform =='ios': sys.stdin=open('input.txt') l = list(map(int,input().split())) l.sort() #print(''.join(list(map(str, l)))) if ''.join(list(map(str, l)))=='1479': print('YES') else: print('NO')

import sys from math import factorial input = sys.stdin.readline def log(*args): print(*args, file=sys.stderr) def main(): x, y = map(int, input().rstrip().split()) # 全部 i + 1, j + 2が最初だったとする # a + 2b = x, 2a + b = y # => # a = x - 2b # b = y - 2a # => # b = y - 2x + 4b # 3b ...

N=int(input()) res=1 for i in range(1,N+1): res=res*i res=res%(10**9+7) print(res)

N = int(input()) A = list(map(int, input().split())) flag = True for n in A: if n % 2 == 0 and (n % 3 != 0 and n % 5 != 0): flag = False print("APPROVED" if flag else "DENIED")

# coding: utf-8 ring = input() pattern = input() ring *= 2 if pattern in ring: print('Yes') else: print('No')

#!/usr/bin/env python3 import sys import math import decimal import itertools from itertools import product from functools import reduce INF = 10**19 def input(): return sys.stdin.readline()[:-1] def sort_zip(a:list, b:list): z = zip(a, b) z = sorted(z) a, b = zip(*z) a = list(a) b = list(b) ...

def BubbleSort(A): for i in range(len(A)): for j in range(len(A)-1,i,-1): if A[j][1] < A[j-1][1]: # リストの要素の文字列は2次元配列として記憶される A[j],A[j-1] = A[j-1],A[j] return A def SelectionSort(A): for i in range(len(A)): mini = i for j in ...

import sys input = sys.stdin.readline from collections import * def judge(x): cnt = 0 for hi in h: cnt += max(0, (hi-B*x+A-B-1)//(A-B)) return cnt<=x def binary_search(): l, r = 0, 10**10 while l<=r: m = (l+r)//2 if judge(m): r = m-1 ...

#Macで実行する時 import sys import os if sys.platform=="darwin": base = os.path.dirname(os.path.abspath(__file__)) name = os.path.normpath(os.path.join(base, '../atcoder/input.txt')) #print(name) sys.stdin = open(name) from math import factorial def combinations_count(n,r): if n < r: return 0 else: ...

n = int(input()) if n == 2: print(1) quit() elif n == 3: print(2) quit() def factorization(n): arr = [] temp = n for i in range(2, int(-(-n**0.5//1))+1): if temp%i==0: cnt=0 while temp%i==0: cnt+=1 temp //= i arr.append([i, cnt]) if temp!=1: arr.append([temp, 1]...

def main(): parking_hour, fee_par_hour, flat_fee = map(int, input().split()) print(min(parking_hour * fee_par_hour, flat_fee)) if __name__ == '__main__': main()

class Dice: def __init__(self, num_list): self.faces = num_list def find_rf(self, top, front): tf = str(self.faces.index(top)) + str(self.faces.index(front)) if tf in '12431': return self.faces[0] elif tf in '03520': return self.faces[1] elif tf i...

(a, b) = map(int, input().split()) print('a', end=' ') print('<' if a < b else '==' if a==b else '>', end=' ') print('b')

a,b=map(int,input().split()) list=[2,3,4,5,6,7,8,9,10,11,12,13,1] # print(list.index()) a_val=list.index(a) b_val=list.index(b) if a_val>b_val:print('Alice') elif a_val<b_val:print('Bob') else:print('Draw')

s = list(input()) moji = [] if len(s)%2 == 0: for i in range(len(s)//2): moji.append(s[2*i]) else: for i in range((len(s)+1)//2): moji.append(s[2*i]) print("".join(moji))

class Dice(): state = [0 for _ in range(6)] def __init__(self, dice_list): self.state[0] = dice_list[0] self.state[1] = dice_list[1] self.state[2] = dice_list[2] self.state[3] = dice_list[3] self.state[4] = dice_list[4] self.state[5] = dice_list[5] def ...

from math import sqrt n = int(input()) p = 0 for i in range(n): x = int(input()) if x == 2: p += 1 elif x%2 == 1: j=3 f = 0 while j < (int(sqrt(x))+1): if x%j == 0: f = 1 break else: j += 2 if f ...

a=int(input()) b=int(input()) if a>b: print("GREATER"); elif a==b: print("EQUAL"); elif a<b: print("LESS");