problem_id stringlengths 6 6 | user_id stringlengths 10 10 | time_limit float64 1k 8k | memory_limit float64 262k 1.05M | problem_description stringlengths 48 1.55k | codes stringlengths 35 98.9k | status stringlengths 28 1.7k | submission_ids stringlengths 28 1.41k | memories stringlengths 13 808 | cpu_times stringlengths 11 610 | code_sizes stringlengths 7 505 |
|---|---|---|---|---|---|---|---|---|---|---|
p02658 | u933140383 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import sys\nN=int(input())\na=list(map(int, input().split()))\ns=1\nif 0 in a:\n print(0)\n sys.exit()\nelse:\n for i in a:\n if s>10**18:\n s*=i\n if s>10**18:\n print(-1)\n sys.exit()\n print(s)', 'import sys\nN=int(input())\nif N>10**5 or N<2:\n sys.exit(1)\ns=1\nf... | ['Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Accepted'] | ['s478064485', 's734017859', 's777370187', 's594335975'] | [21580.0, 12660.0, 19432.0, 21700.0] | [52.0, 31.0, 2206.0, 52.0] | [229, 168, 196, 300] |
p02658 | u934788990 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list(map(int,input().split()))\n\ncnt = 1\n\nif a in 0:\n print(-1)\nelse:\n for i in range(n):\n cnt = cnt * a[i]\n\n if cnt > 10**18:\n print(-1)\n else:\n print(cnt)', 'def main():\n N = int(input())\n A = list(map(int,input().split()))\n\n if 0 in A:... | ['Runtime Error', 'Accepted'] | ['s042751921', 's568696905'] | [21576.0, 21664.0] | [52.0, 57.0] | [209, 274] |
p02658 | u935642171 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = list(map(int,input().split()))\n\nif 0 in A:\n print(0)\nelse:\n prod = 0\n for i in A:\n prod *= i\n if prod>10**18:\n print(-1)\n break', 'N = int(input())\nA = list(map(int,input().split()))\nF = True\n\nif 0 in A:\n print(0)\nelse:\n prod = 1\n for i in A:\n prod *= ... | ['Wrong Answer', 'Accepted'] | ['s366661157', 's186333930'] | [21456.0, 21544.0] | [75.0, 66.0] | [167, 215] |
p02658 | u936050991 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ["from itertools import accumulate\nfrom operator import add, mul\nimport sys \ninput = sys.stdin.readline\n\n\nn = int(input())\n\na= list(map(int,input().split())) \n\n\nb = accumulate(a, mul)\n\nc = list(b)\n\n\n# b=1\n\n# b *= a[i]\n \nif c[n-1]-1 > 10**18:\n print('-1')\nelse:\n # print(b)\n print(... | ['Wrong Answer', 'Accepted'] | ['s331353575', 's303956275'] | [2394212.0, 21776.0] | [2273.0, 51.0] | [324, 336] |
p02658 | u936493337 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['a= input()\n\nlist1 = [ a for items in list1 list1[items]=input() ]\n\n', '# a= int(input())\n# list1 =[]\n\nn = int(input())\na = list(map(int,input().split()))\n# print(a)\n# a.sort(reverse=True)\n# print(a)\nif 0 in a :\n ans = 0\n print(ans)\nelse :\n ans = 1\n for i in range(n):\n ans *= a[i]... | ['Runtime Error', 'Accepted'] | ['s768207038', 's986671174'] | [8952.0, 21580.0] | [23.0, 54.0] | [67, 343] |
p02658 | u938051273 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n=int(input())\na=list(map(int,input().split()))\nw=pow(10,18)\np=1\na.sort()\nif a[0]==0:\n print(0)\nelse:\n for k in range(n):\n p*=a[k]\n if p>w:\n break\n print(p) if p<w else print(-1)', 'n=int(input())\na=list(map(int,input().split()))\nw=pow(10,18)\np=1\nfor k in range(n):\n p*=a[k]\nprint(p) i... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s601224029', 's780118636', 's609999144'] | [21644.0, 21784.0, 21780.0] | [80.0, 2206.0, 74.0] | [192, 124, 199] |
p02658 | u938933689 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N=int(input())\ns=input().split()\nresult=1\nfor i in range (N):\n result=result*int(s[i])\n if result>= 10**18:\n print(-1)\n break\n elif i==N-1 :\n print(result)\n\n', "N=int(input())\ns=input().split()\nresult=1\nif '0' in s:\n print(0)\nelse:\n for i in range (N):\n result=result*int(s[i])\n ... | ['Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Runtime Error', 'Accepted'] | ['s069857724', 's141371542', 's215768688', 's638691032', 's649602103', 's658703277', 's930074393'] | [19384.0, 19352.0, 19312.0, 19364.0, 19372.0, 9112.0, 19484.0] | [52.0, 53.0, 53.0, 49.0, 54.0, 22.0, 56.0] | [169, 231, 234, 150, 185, 102, 230] |
p02658 | u939026953 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['def demon():\n N = int(input())\n A = list(map(int,input().split()))\n A = sort(A)\n if A[0] == 0:\n print(0)\n return\n\n X = 1\n for i in A:\n X *= A\n if X > 10 ** 18:\n print("-1")\n return\n\n print(X)\n\ndemon()', 'def demon():\n N = int(input())\n A = list(map(int,input().split()... | ['Runtime Error', 'Accepted'] | ['s423162467', 's833461332'] | [21632.0, 21672.0] | [53.0, 79.0] | [229, 226] |
p02658 | u940569542 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import sys\ninput = sys.stdin.readline\nN = int(input())\nx = sorted(list(map(int, input().split())))\nprint(x)\nt = 1\nfor num in x:\n t = t * num\n if t > 10 ** 18:\n print(-1)\n sys.exit()\n\nif (t > 10 ** 18): \n print(-1)\nelse:\n print(t)\n', 'import sys\ninput = sys.stdin.readline\nN ... | ['Wrong Answer', 'Accepted'] | ['s075272122', 's224701799'] | [21604.0, 21564.0] | [108.0, 93.0] | [256, 247] |
p02658 | u941438707 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n,*a=map(int,open(0).read().split())\na.sort()\nans=1\nfor i in a:\n ans*=i\n if ans>=1e18:\n print(-1)\n exit()\nprint(ans)', 'n,*a=map(int,open(0).read().split())\na.sort()\nans=1\nfor i in a:\n ans*=i\n if ans>1e18:\n print(-1)\n exit()\nprint(ans) '] | ['Wrong Answer', 'Accepted'] | ['s972562880', 's587294860'] | [21464.0, 21632.0] | [87.0, 92.0] | [136, 137] |
p02658 | u942356554 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['p=int(input())\nk=list(map(int,input().split()))\nt=1\nfor e in k:\n t = t*e\n if t>10**8:\n break\nif t>10**8:\n print(-1)\nelse:\n print(t)', 'p=int(input())\nk=list(map(int,input().split()))\n\nt=1\nfor e in k:\n t = t*e\n\nif t>10**8:\n print(-1)\nelse:\n print(t)', 'p=int(input())\nk=... | ['Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s233468140', 's298417273', 's685111999', 's806217426', 's884342108', 's960378851', 's712394506'] | [21472.0, 21648.0, 21704.0, 21680.0, 21708.0, 21776.0, 21608.0] | [50.0, 2206.0, 48.0, 51.0, 2206.0, 2206.0, 48.0] | [150, 122, 240, 241, 207, 146, 242] |
p02658 | u942982705 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['A,B=input().split()\nprint(int(A)*int(B.replace(".", ""))//100)', 'from sys import stdin\nN = stdin.readline().rstrip()\nAn = [int(x) for x in stdin.readline().rstrip().split()]\nW = 1\nif any([A == 0 for A in An]):\n print(0)\n exit()\nfor A in An:\n W = W * A\n if 1000000000000000000 < W:\n print... | ['Runtime Error', 'Accepted'] | ['s375728898', 's175635484'] | [9112.0, 21620.0] | [23.0, 56.0] | [62, 269] |
p02658 | u943786281 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n=int(input())\na = 1\nflg = False\nfor i in map(int,input().split()):\n\ta *= i\n\tif a>10e12:\n\t\tflg = True\n\t\tbreak\n\nif flg:\n\tprint(-1)\nelse:\n\tprint(a)', 'from math import floor\n \na,b = list(map(float,input().split()))\nprint(floor(a*b))', 'n=int(input())\na = 1\nfor i in map(int,input().split()):\n\t... | ['Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Accepted'] | ['s393344885', 's565719391', 's690895857', 's222917017'] | [19456.0, 9116.0, 19368.0, 21588.0] | [44.0, 24.0, 2207.0, 50.0] | [145, 81, 103, 199] |
p02658 | u943981124 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input()); s= 1\nlis = list(map(int,input().split()))\nif 0 in lis: print(0)\nelse:\n for i in range(n):\n s = s*lis[i]\n s = str(s)\n if len(s)>18: print(-1)\n else: print(s)', 'n = int(input()); s= 1\nlis = list(map(int,input().split()))\nfor i in range(n):\n s = s*lis[i]\ns = str(s)\ni... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s304663109', 's458917136', 's902110265'] | [21780.0, 21580.0, 21568.0] | [2206.0, 2206.0, 57.0] | [193, 145, 196] |
p02658 | u944545272 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\nmx = 10**18\na = list(map(int, input().split()))\nfor x in a:\n if x == 0:\n print(0)\n exit(0)\nans = 1\nfor x in a:\n ans *= a\n if ans > mx:\n print(-1)\n exit(0)\nprint(ans)', 'n = int(input())\nmx = 10**18\na = list(map(int, input().split()))\nfor x in a:\n ... | ['Runtime Error', 'Runtime Error', 'Accepted'] | ['s104413188', 's321398891', 's631508680'] | [21764.0, 21716.0, 21780.0] | [53.0, 55.0, 50.0] | [219, 219, 219] |
p02658 | u944886577 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n=int(input())\nx=list(map(int,input().split()))\nans=1\nfor i in x:\n if x.count(0)>=0:\n print(0)\n break\n else:\n for i in x:\n ans=ans*i\n if ans>10**18:\n ans=-1\n break\nprint(ans)', 'n=int(input())\nx=list(map(int,input().split()))\nans=1\nfor i in x:\n ans=ans*i\n if ans>10**18:\n ... | ['Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Runtime Error', 'Runtime Error', 'Runtime Error', 'Wrong Answer', 'Accepted'] | ['s106975850', 's265548165', 's446893404', 's670871087', 's868099126', 's943775937', 's998786383', 's671097616'] | [21728.0, 8872.0, 21556.0, 8960.0, 21456.0, 9024.0, 21588.0, 21600.0] | [58.0, 26.0, 58.0, 29.0, 57.0, 22.0, 2206.0, 58.0] | [191, 159, 177, 135, 161, 158, 158, 182] |
p02658 | u945359338 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N=int(input())\nA=[map(int,input().split())]\nsorted(A)\nif A[0] == 0:\n print(0)\n exit(0)\n\nans = 1\nfor i in range(N):\n ans*=A[i]\n if(ans>1000000000000000000):\n print(-1)\n exit(0)\nprint(ans)', 'N=int(input())\nA=list(map(int, input().split()))\nA=sorted(A,reverse=True)\nif A[N-1] == 0:\n print(0)\... | ['Runtime Error', 'Accepted'] | ['s107473377', 's375249907'] | [19360.0, 21772.0] | [38.0, 79.0] | [196, 218] |
p02658 | u945375934 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['def main ():\n N = int(input())\n A = list(map(int,input(). split ()))\n \n if 0 in A:\n print(0)\n return\n \n prod = 1\n \n for a in A:\n prod *= a\n if prod > 1000000000000000000:\n print(-1)\n return\n print(prod)\n \nmain ()\n', 'def main ():\n N = int(input())\n A... | ['Wrong Answer', 'Accepted'] | ['s284202620', 's261011402'] | [21392.0, 21640.0] | [67.0, 50.0] | [259, 257] |
p02658 | u945405878 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nlist_num = [int(_) for _ in input().split(" ")]\n\nproduct = 1\n\nif 0 in list_num:\n print(0)\nelse:\n checker = True\n for i, num in enumerate(list_num):\n product *= num\n if len(str(product)) >= 18:\n checker = False\n break\n \n if checker:... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s328650222', 's517540824', 's374360612'] | [21644.0, 21640.0, 21584.0] | [71.0, 73.0, 51.0] | [354, 272, 347] |
p02658 | u946404093 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = input().split()\nresult = 1\nline = pow(10,18)\n\nfor i in range(N):\n result *= int(A[i])\n if result >= line:\n result = -1\n break\n\nprint(result)', 'N = int(input())\nA = input().split()\nresult = 1\nline = pow(10,18)\n\nfor i in range(N):\n result *= int(A[i])\nif result >= line:\... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s341971127', 's779071340', 's691655414'] | [19196.0, 19440.0, 19500.0] | [51.0, 2206.0, 50.0] | [169, 155, 211] |
p02658 | u946648678 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\narr = [int(x) for x in input().split()]\nn = 1\nflag = True\nfor i in range(n):\n n *= arr[i]\n if n > 10**18:\n flag = False\n break\nif flag:\n print(n)\nelse:\n print(-1)', 't = int(input())\narr = [int(x) for x in input().split()]\nn = 1\nflag = True\nif 0 in arr:\n print(0)\nelse:\... | ['Wrong Answer', 'Accepted'] | ['s836543919', 's498391141'] | [21640.0, 21636.0] | [64.0, 60.0] | [189, 274] |
p02658 | u948165355 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import sys\n\nnum_data = sys.stdin.readlines()\nnum_list = num_data[1].split()\nans = 1\nfor i in range(int(num_data[0])):\n ans *= int(num_list[i])\n\nif ans >= pow(10, 18):\n print("-1")\nelse:\n print(ans)', 'import sys\n\nnum_data = sys.stdin.readlines()\nnum_list = num_data[1].split()\nans = 1\nflag = True\nf... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s026199860', 's375911522', 's713246945'] | [20252.0, 19300.0, 42456.0] | [2206.0, 71.0, 161.0] | [200, 249, 306] |
p02658 | u948875995 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = list(map(int,input().split()))\nif 0 in A:\n print(0)\n quit()\nelse:\n for i in range(N):\n output = 1\n output *= A[i]\n if output> 10**18:\n print(-1)\n quit()\n print(output)\n ', 'N = int(input())\nA = list(map(int,input().split()))\nfor i in ra... | ['Wrong Answer', 'Runtime Error', 'Runtime Error', 'Runtime Error', 'Accepted'] | ['s051278191', 's610095352', 's762105182', 's956531617', 's860724323'] | [21572.0, 21588.0, 21652.0, 21636.0, 21716.0] | [62.0, 47.0, 47.0, 46.0, 49.0] | [236, 176, 200, 209, 224] |
p02658 | u950052018 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import numpy as np\n\na = int(input())\n\nlist = list(map(int,input().split()))\nlist.sort\n\na = 1\n\nfor i in list:\n a *= a * i\n if a > 10 ** 18:\n a = -1\n break\n \nprint(a)', 'import numpy as np\n\na = int(input())\n\nlist = list(map(int,input().split()))\n\nlp = np.prod(list)\n\nprint(lp if lp > 1000... | ['Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s072553692', 's266458209', 's347065160', 's656984195'] | [40212.0, 40060.0, 40236.0, 21640.0] | [131.0, 142.0, 136.0, 90.0] | [173, 144, 133, 155] |
p02658 | u951947571 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\nAs = [int(num) for num in input().split()]\nflag = False\nres = 1\n\nAs_sorted = sorted(As, reverse=True)\nif As_sorted[-1] == 0:\n print(0)\nelse:\n for num in As_sorted:\n res *= num\n if res > 10^18:\n flag = True\n break \n if flag:\n ... | ['Wrong Answer', 'Accepted'] | ['s094837635', 's490832081'] | [21452.0, 21708.0] | [88.0, 89.0] | [362, 352] |
p02658 | u951985579 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\narr = list(map(int, input().split()))\nresult = 1\nif 0 in arr:\n result = 0\nelse:\n for i in a:\n result *= i\n if result > 10**18:\n result = -1\n break\nprint(result)', 'N = int(input())\narr = list(map(int, input().split()))\nresult = 1\nif 0 in arr:\n ... | ['Runtime Error', 'Accepted'] | ['s666004991', 's330008476'] | [21532.0, 21644.0] | [56.0, 58.0] | [219, 221] |
p02658 | u952708174 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = [int(i) for i in input().split()]\nans = reduce(mul, A)\nprint(ans if ans <= 10**18 else -1)', 'N = int(input())\nA = sorted([int(i) for i in input().split()])\nans = 1\nfor a in A:\n if a == 0:\n ans = 0\n break\n ans *= a\n if ans > 10**18:\n ans = -1\n bre... | ['Runtime Error', 'Accepted'] | ['s197470281', 's371270473'] | [21784.0, 21784.0] | [58.0, 78.0] | [111, 203] |
p02658 | u953655640 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list(map(int, input().split()))\ntotal = 1\nfor i in a:\n total *= i\n \nif len(str(total)) >18:\n print(-1)\nelse:\n print(total)', 'n = int(input())\na = list(map(int, input().split()))\n\n \ntotal = 1\nh = 0\nif 0 in a:\n print(0)\nelse:\n for i in a:\n total *= i\... | ['Wrong Answer', 'Accepted'] | ['s009237018', 's745573456'] | [21780.0, 21796.0] | [2206.0, 46.0] | [155, 257] |
p02658 | u954954040 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N=int(input())\nA = list(map(int,input().rstrip().split(" ")))\nans=1\nfor i in range(N):\n ans*=A[i]\nif ans>=10**18:\n print(-1)\nelse:\n print(ans)', 'N=int(input())\nA = list(map(int,input().split(" ")))\na=sorted(A)\n#print(a)\nans=1\nfor i in range(N):\n ans*=a[i-1]\n if ans>10**18:\n prin... | ['Wrong Answer', 'Accepted'] | ['s680642663', 's371286420'] | [21628.0, 21544.0] | [2206.0, 93.0] | [151, 187] |
p02658 | u955865009 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nmylist = (input().split(" "))\nresult = 1\n\nif 0 in mylist:\n result = 0\n\nelse:\n for i in mylist:\n \n if result > 10 ** 18:\n result = -1\n break\n else:\n result *= i\nprint(result)', 'N = int(input())\nmylist = list(map(int , input()... | ['Runtime Error', 'Accepted'] | ['s609523025', 's214832631'] | [19432.0, 21648.0] | [40.0, 59.0] | [250, 282] |
p02658 | u956910277 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list( map( int , input().split() ))\nprod =1\n\nif 0 in a:\n\tprint(0)\n\texit(0)\n \nfor i in a :\n print(prod)\n if i * prod > 1e18:\n print(-1)\n exit(0)\n else:\n prod = prod * i\n \nprint(prod)', 'a = list( map( int , input().split() ))\nprod =1\n\nfor i in a :\n if i * prod... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s494015245', 's911281428', 's623042675'] | [21636.0, 9180.0, 21656.0] | [83.0, 23.0, 52.0] | [216, 145, 336] |
p02658 | u956931202 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\nA = map(int,input().split())\n \nans = 1\nfor num in A:\n\tans*=num\n \nif (ans > 10^18):\n ans = -1\nprint(ans)', '\nn = int(input())\nA = map(int,input().split())\n \nans = 1\nfor num in A:\n ans*=num\n if (ans >= 10**18):\n ans = -1\n break\n \nprint(ans)', 'n = input()\... | ['Wrong Answer', 'Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Runtime Error', 'Accepted'] | ['s171400988', 's233056443', 's588987034', 's595075323', 's604804464', 's725759800'] | [19484.0, 19488.0, 9020.0, 19404.0, 9028.0, 19412.0] | [2206.0, 42.0, 24.0, 42.0, 23.0, 44.0] | [126, 151, 83, 148, 134, 173] |
p02658 | u957098479 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['#import \n#=input()\nn=int(input())\n#=map(int,input().split())\na=list(map(int,input().split()))\n#=[list(map(int,input().split())) for _ in range()]\n\nif 0 in set(a):\n ans = 0\nelse:\n ans = 1\n for i in range(n):\n ans *= a[i]\n if ans >= 10 ** 18:\n ans = -1\n break\... | ['Wrong Answer', 'Accepted'] | ['s023902952', 's800369400'] | [21464.0, 21644.0] | [65.0, 65.0] | [313, 312] |
p02658 | u957198490 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = list(map(int,input().split()))\nans = 1\nif 0 in A:\n print(0)\n exit()\n\nfor i in range(N):\n ans *= A[i]\n if ans > 10**18:\n print(-1)\n else:\n print(ans)', 'N = int(input())\nA = list(map(int, input().split()))\nans = 1\nif 0 in A:\n print(0)\nelse:\n for... | ['Wrong Answer', 'Accepted'] | ['s152128249', 's325612401'] | [21532.0, 21568.0] | [2206.0, 50.0] | [198, 214] |
p02658 | u957390897 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\n\naList = list(map(int, input().split()))\n\nresult = aList[0]\n\nfor i in range(n):\n if i == 0:\n continue\n result = result * aList[i]\n\nenemy = 10 ** 18\n\nif result < enemy:\n print(result)\nelse:\n print(-1)', 'n = int(input())\n\naList = list(map(int, input().split()))\n\nresult = aLi... | ['Wrong Answer', 'Wrong Answer', 'Runtime Error', 'Runtime Error', 'Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Wrong Answer', 'Runtime Error', 'Accepted'] | ['s115430459', 's117290895', 's122934411', 's189707764', 's608995778', 's839427742', 's859465209', 's864518180', 's977974453', 's206949873'] | [21528.0, 21796.0, 9116.0, 21588.0, 21712.0, 21644.0, 21648.0, 21784.0, 9012.0, 21472.0] | [2206.0, 2206.0, 25.0, 51.0, 2206.0, 48.0, 2206.0, 2206.0, 23.0, 50.0] | [223, 225, 203, 254, 238, 244, 240, 240, 251, 217] |
p02658 | u957799665 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = list(map(int, input().split()))\nans = 1\nfor i in A:\n ans *= i\nprint(ans)\n\n\nif ans > 10**18:\n ans = -1\nelif min(A) == 0:\n ans = 0\n\nprint(ans)', 'import numpy as np\n\nN = int(input())\nA = list(map(int, input().split()))\nans = np.prod(A)\n\nif ans >= 10**18:\n print("-1")... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s404404133', 's419278599', 's640724321'] | [21636.0, 39896.0, 21680.0] | [2206.0, 144.0, 62.0] | [170, 145, 193] |
p02658 | u958506960 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list(map(int, input().split()))\nx = 10**18\nans = 1\nfor i in range(n):\n ans = ans * a[i]\n\nprint(ans if ans < x else -1)', 'n = int(input())\na = list(map(int, input().split()))\nx = 10**18\nans = 1\n\nif 0 in a:\n print(0)\n exit()\n\nfor i in range(n):\n ans = ans * a[i]\n i... | ['Wrong Answer', 'Accepted'] | ['s748858194', 's216797605'] | [21480.0, 21632.0] | [2206.0, 52.0] | [142, 209] |
p02658 | u958820283 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n= int(input())\nl =list(map(int,input().split()))\nans= 1\n\nif 0 in l:\n print("0")\nelse:\n for i in range(n):\n ans*= l[i]\n if ans>= 10**18:\n break\n if ans>= 10**18:\n print("-1")\n else:\n print(ans)', 'n= int(input())\na= list(map(int,input().split()))\nans=... | ['Wrong Answer', 'Accepted'] | ['s359559789', 's849225721'] | [21632.0, 21468.0] | [50.0, 77.0] | [244, 205] |
p02658 | u959340534 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\nan = list(map(int, input().split()))\ns = 1\nflg = False\nfor a in an:\n s = s * a\n if s > 10**8 or s< 0:\n flg = True\n break\nif flg:\n print(-1)\nelse:\n print(s)', 'n = int(input())\nan = list(map(int, input().split()))\ns = 1\nflg = False\nfor a in an:\n s = s * a\n if s > 10**18 o... | ['Wrong Answer', 'Runtime Error', 'Accepted'] | ['s229295234', 's777286801', 's339336913'] | [21640.0, 21648.0, 21660.0] | [51.0, 53.0, 48.0] | [182, 207, 209] |
p02658 | u960201620 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['def main ():\nN = int(input())\nA = list(map(int,input().split()))\n\nprod = 1 \nfor a in A:\n prod *= a\n if prod > 1000000000000000000:\n print(-1)\n else:\n print(prod) \n\nmain ()', 'def main ():\n N = int(input())\n A = list(map(int,input().split()))\n prod = 1 \n \n for a in A:\n prod *= a\n ... | ['Runtime Error', 'Runtime Error', 'Wrong Answer', 'Wrong Answer', 'Runtime Error', 'Runtime Error', 'Wrong Answer', 'Runtime Error', 'Accepted'] | ['s020721604', 's154873046', 's331661377', 's383511871', 's491573808', 's494625552', 's561175029', 's664772072', 's853632661'] | [8912.0, 8956.0, 21600.0, 21584.0, 8968.0, 9032.0, 21520.0, 8976.0, 21584.0] | [22.0, 21.0, 68.0, 67.0, 22.0, 24.0, 2206.0, 25.0, 84.0] | [180, 219, 243, 233, 198, 191, 230, 187, 210] |
p02658 | u961059809 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\nlim = 10**18\nans,exc = 1,False\na = map(int,input().split())\nif 0 in a:\n print(0)\nelse:\n for x in a:\n ans *= int(x)\n if ans > lim:\n exc = True\n print("-1")\n break\n if not exc:\n print(ans)\n', 'n = int(input())\na = list(map(int,input().split()))\nres = 1\nexc =... | ['Wrong Answer', 'Runtime Error', 'Accepted'] | ['s139993098', 's202756244', 's912722268'] | [19364.0, 9028.0, 21780.0] | [42.0, 26.0, 53.0] | [231, 169, 242] |
p02658 | u961288441 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n, *l = map(int, open(0).read.split())\n\na = 1\nfor i in l:\n\ta *= i\n\tif a > 1e18:\n\t\ta =-1\n\t\tbreak\nprint(a)\n\t', 'n = int(input())\nl = list(map(int, input().split()))\nl.sort()\na = 1\nfor i in l:\n\ta *= i\n\tif a > 10**18:\n\t\ta = -1\n\t\tbreak\nprint(a)'] | ['Runtime Error', 'Accepted'] | ['s046393114', 's178626284'] | [9092.0, 21636.0] | [24.0, 85.0] | [106, 129] |
p02658 | u961358555 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list(map(int,input().split()))\nsuma = sum(a)\nif(suma > 10**18): suma = -1\nprint(suma)', 'n = int(input())\na = list(map(int,input().split()))\nlim = 10**18\nans = 1\nif(0 in a):\n ans = 0\nelse:\n for i in a:\n ans *= i\n if(ans > lim):\n ans = -1\n break\nprint(ans)'] | ['Wrong Answer', 'Accepted'] | ['s212644220', 's087547929'] | [21616.0, 21760.0] | [63.0, 57.0] | [106, 184] |
p02658 | u961674365 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list(map(int,input().split()))\nans = 1\ninf = 10 ** 18\nif 0 in a:\n print(0)\n exit()\nfor x in a:\n ans *= x\n if ans >= inf:\n print(-1)\n exit()\nprint(ans)', 'n = int(input())\na = list(map(int,input().split()))\nans = 1\nif 0 in a:\n print(0)\n exit()\nfor ... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s718324424', 's769752255', 's713541751'] | [21648.0, 21644.0, 21652.0] | [49.0, 55.0, 48.0] | [197, 187, 201] |
p02658 | u962330718 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N=int(input())\nA=list(map(int,input().split()))\ncnt=1\nfor i in range(N):\n cnt*=A[i]\npritn(cnt)', 'N=int(input())\nA=list(map(int,input().split()))\nA=sorted(A)\ncnt=1\nfor i in range(N):\n cnt*=A[i]\n if cnt>10**18:\n cnt=-1\n break\nprint(cnt)'] | ['Runtime Error', 'Accepted'] | ['s429752612', 's704522533'] | [21472.0, 21640.0] | [2206.0, 95.0] | [97, 157] |
p02658 | u964521959 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['\nN = int(input())\n\nA_list = list(map(int, input().split()))\n\nif((0 in A_list) ==True):\n print("0")\n exit()\n \nans = 1\nfor i in range(N):\n if(ans<10**18):\n ans = ans * A_list[i]\n else:\n print("-1")\n exit()\n \nif(ans<10**18):\n print(ans)\nelse:\n print("-1")', '\nN = int(input())\n\... | ['Wrong Answer', 'Accepted'] | ['s754758859', 's524463868'] | [21580.0, 21780.0] | [47.0, 49.0] | [338, 340] |
p02658 | u964763428 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import numpy as np\n\nn = int(input())\na = np.array(list(map(int, input().split())), dtype=np.uint64)\n\n\nans = np.prod(a)\n\nif ans >= pow(10, 18):\n print(-1)\nelse:\n print(ans)\n', 'n = int(input())\na = list(map(int, input().split()))\na.sort()\nans = 1\n\nfor b in a:\n if b:\n ans *= b\n ... | ['Wrong Answer', 'Accepted'] | ['s490509632', 's794226711'] | [40260.0, 21792.0] | [149.0, 80.0] | [178, 231] |
p02658 | u965397031 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list(map(int, input().split()))\nans = 1\n\nfor i in range(n):\n ans *= a[i]\n\nprint(ans if ans / (10 ** 18) < 1 else -1)', 'n = int(input())\na = list(map(int, input().split()))\nans = 1\n\nif 0 in a:\n ans = 0\nelse:\n for i in range(n):\n ans *= a[i]\n if ans > 10**18:... | ['Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s028016511', 's089238794', 's348380352', 's748160627', 's717393327'] | [21516.0, 21612.0, 21636.0, 21704.0, 21660.0] | [2206.0, 65.0, 51.0, 58.0, 59.0] | [140, 205, 205, 209, 209] |
p02658 | u965669098 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['def main():\n n = int(stdin.readline())\n a = list(map(int,stdin.readline().split()))\n f = 1\n flag=0\n a = sorted(a)\n for i in range(n):\n f = f*a[i]\n if f>10**18:\n flag=1\n break\n if flag:\n print("-1")\n else:\n print(f)\n\nmain()', 'fr... | ['Runtime Error', 'Accepted'] | ['s724835389', 's993469324'] | [9124.0, 22588.0] | [24.0, 90.0] | [296, 363] |
p02658 | u966207392 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import numpy as np\n \nN = input()\ns = input().split()\nk = [int(_) for _ in s]\np = np.prod(k)\nif 0 in k:\n print(0)\n \nif p < 10**18:\n print(p)\nelse:\n print(-1)', 'import numpy as np\n\nN = input()\ns = input().split()\nk = [int(_) for _ in s]\np = np.prod(k)\n\nif p < 10**18:\n print(p)\nelse:\n ... | ['Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s296368058', 's343963289', 's366504355', 's459099915', 's523621433', 's614196278', 's717737017', 's788275425', 's822008075', 's632262743'] | [40956.0, 40872.0, 21604.0, 40948.0, 41128.0, 21696.0, 21716.0, 41032.0, 40956.0, 21552.0] | [149.0, 142.0, 64.0, 156.0, 137.0, 56.0, 54.0, 137.0, 145.0, 60.0] | [165, 139, 195, 141, 144, 214, 194, 146, 167, 215] |
p02658 | u966695411 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['#! /usr/bin/env python3\ninput()\nl = 10**18\na = 1\nfor i in map(int, input()):\n a *= i\n if a > l:\n a = -1\n break\nprint(a)', '#! /usr/bin/env python3\ninput()\nl = 10**18\na = 1\n*b, = map(int, input().split())\nif 0 in b:\n a = 0\nelse:\n for i in b:\n a *= i\n if a > l:... | ['Runtime Error', 'Accepted'] | ['s267629115', 's420792296'] | [12572.0, 21732.0] | [25.0, 51.0] | [139, 202] |
p02658 | u966836999 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['#B\nN = int(input())\nA = list(map(int, input().split()))\nresult = 1\nfor i in range(len(A)):\n result *= A[i]\nif result >=10**18:\n print(-1)\nelse:\n print(result)', '#B\nunti()\n\ndef unti():\n N = int(input())\n A = list(map(int, input().split()))\n result = 1\n if 0 in A:\n print(0)... | ['Wrong Answer', 'Runtime Error', 'Accepted'] | ['s077920479', 's679811713', 's713532267'] | [21652.0, 9044.0, 21676.0] | [2206.0, 25.0, 50.0] | [167, 312, 275] |
p02658 | u967484343 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = list(map(int, input().split()))\nans = 1\nfor i in range(N):\n if A[i] == 0:\n ans = 0\n break\n else:\n ans *= A[i]\n \nif ans < 1000000000000000000:\n print(ans)\nelse:\n print(-1)', 'N = int(input())\nA = list(map(int, input().split()))\nans = 1\n\nif 0 in A:... | ['Wrong Answer', 'Accepted'] | ['s222871922', 's998936567'] | [21676.0, 21548.0] | [2206.0, 58.0] | [225, 211] |
p02658 | u967822229 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA=list(map(int, input().split()))\n \nans=1\nc=0\n \nwhile c<N:\n if A[c]==0:\n ans=0\n elif ans>10000000000000000/A[c]:\n ans=10000000000000001\n else :\n ans=ans*A[c]\n \n c+=1\n \nif ans>10000000000000000: print(-1)\nelse: print(ans)', 'N = int(input())\nA=l... | ['Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Accepted'] | ['s456600037', 's531524537', 's719892856', 's749334749', 's850510761', 's663803870'] | [21644.0, 9028.0, 21656.0, 9032.0, 21652.0, 21776.0] | [96.0, 22.0, 2206.0, 24.0, 74.0, 75.0] | [276, 284, 157, 268, 276, 282] |
p02658 | u967864815 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['a = list(map(int, input().split()))\nsum_a = 1\n\nfor e in a:\n sum_a *= e\n\nif sum_a > 10e18:\n sum_a = -1\n\nprint(sum_a)\n', 'a = list(map(int, input().split()))\nsum_a = sum(a)\nif sum_a > 10e18:\n sum_a = -1\n\nprint(sum_a)', 'import sys\n\nn = input()\na = list(map(int, input().split()))\nsum_a = 1\n\... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s151158937', 's312271486', 's841296370'] | [9084.0, 9164.0, 21600.0] | [23.0, 24.0, 99.0] | [122, 97, 242] |
p02658 | u968404618 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import collections\n\nn = int(input())\nA = list(map(int, input().split()))\n\nif 0 in A:\n print(0)\n exit()\n\ncounter = collections.Counter(A)\nans = 1\nfor k, v in counter.items():\n ans *= k * v\nif ans > 10**18:\n print(-1)\nelse:\n print(ans)', 'import collections\n\nn = int(input())\nA = list(map(int, in... | ['Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Runtime Error', 'Accepted'] | ['s119677726', 's125548086', 's143951498', 's192860949', 's356875692', 's534150238', 's015515309'] | [22352.0, 22352.0, 22528.0, 22920.0, 40160.0, 9112.0, 21636.0] | [2206.0, 53.0, 57.0, 2206.0, 136.0, 23.0, 48.0] | [238, 238, 238, 178, 141, 69, 521] |
p02658 | u969080040 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N=int(input())\nA=list(map(int,input().split()))\nS=1\nfor i in range(N):\n S*=A[i]\nif S>10*18:\n print(-1)\nelse:\n print(S)', 'N=int(input())\nA=list(map(int,input().split()))\ns=1\nif 0 in A:\n print(0)\nelse:\n for i in range(N):\n s*=A[i]\n if s>10**18:\n print(-1)\n break\n if s<=10**18:\... | ['Wrong Answer', 'Accepted'] | ['s994370632', 's562401648'] | [21516.0, 21576.0] | [2206.0, 52.0] | [121, 186] |
p02658 | u969081133 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n=int(input())\narray=list(map(int,input().split()))\nans=1\nif 0 in array:\n ans=0\nelse:\n for i in range(n):\n if ans>10**18:\n break\n else:\n ans=ans*array[i]\nif ans>10**18:\n print(-1)\nelse:\n print(ans)', 'n=int(input())\narray=list(map(int,input().split()))\nans=1\nif 0 in array:\n ans=0\nelse:... | ['Runtime Error', 'Accepted'] | ['s146219989', 's207138854'] | [8872.0, 21668.0] | [28.0, 58.0] | [209, 217] |
p02658 | u970198631 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nMM = input().split()\ntotal = 1\nfor i in MM:\n total = total*int(i)\n print(total)\n if total > 10**18:\n break\nif total > 10**18:\n print(-1)\nelse:\n print(total)', 'N = int(input())\nMM = input().split()\ntotal = 1\nfor i in MM:\n total = total*int(i)\n\n if total > 10**18:\n break... | ['Wrong Answer', 'Accepted'] | ['s090702285', 's151349378'] | [19304.0, 19376.0] | [79.0, 72.0] | [181, 215] |
p02658 | u971091945 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list(map(int, input().split()))\nans = 1\n\nfor i in range(n):\n ans = ans * a[i]\n if len(str(ans))>18:\n print(-1)\n exit()\n\nprint(ans)', 'n = int(input())\na = list(map(int, input().split()))\nans = 1\n\nif 0 in a:\n print(0)\n exit()\n\nfor i in range(n):\n ans... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s172534872', 's959554464', 's742108463'] | [21764.0, 21644.0, 21604.0] | [65.0, 66.0, 50.0] | [171, 207, 201] |
p02658 | u974485376 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nm,k = input().split()\nresult=int(m)*int(k)\nprint("%d"%result)\nif result>=10**18:\n print("-1")\n\n\n\n', 'N = int(input())\nm,k = input().split()\nresult=int(m)*int(k)\nprint("%d"%result)\nif result>=10**18:\n print("-1")\n\n\n\n', 'A= int(input())\nB = list(map(int, input().split()))\nresu... | ['Runtime Error', 'Runtime Error', 'Accepted'] | ['s244500586', 's667545991', 's225204534'] | [19316.0, 19476.0, 21780.0] | [39.0, 37.0, 55.0] | [117, 117, 203] |
p02658 | u975771310 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['def main():\n N = int(input())\n A = list(map(int, input().split()))\n ans = 1\n\n for i in range(N):\n ans = ans*A[i]\n if ans>10**18:\n ans = -1\n break\n\n return ans', 'def main():\n N = int(input... | ['Wrong Answer', 'Accepted'] | ['s446254841', 's846812356'] | [9108.0, 21648.0] | [21.0, 50.0] | [269, 433] |
p02658 | u978789527 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import itertools\nimport operator\n\nn = int(input())\nms = list(map(int, input().split()))\n\nif 0 in ms:\n r = 0\nelse:\n r = itertools.reduce(operator.mul, li)\nif r > 10 ** 18:\n r = -1\nprint(r)', 'n = int(input())\nms = list(map(int, input().split()))\niter_ms = iter(ms) \nr = 1\nif 0 in ms:\n r = 0\nelse:\... | ['Runtime Error', 'Accepted'] | ['s713858919', 's874183285'] | [22676.0, 21736.0] | [55.0, 65.0] | [190, 249] |
p02658 | u979605701 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['def solve():\n n = int(input())\n a = list(map(int, input().split()))\n if 0 in A:\n print(0)\n return\n x = 1\n for tmp in a:\n x *= tmp\n if x > 1000000000000000000:\n print(-1)\n return\n print(x)\n\nsolve()', 'def solve():\n n = int(input())\n... | ['Runtime Error', 'Accepted'] | ['s054323396', 's243260764'] | [21592.0, 21740.0] | [55.0, 50.0] | [264, 264] |
p02658 | u980932400 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n=int(input())\na=list(map(int,input().split()))\nres=-1\n\nz=10**18\nfor i in a:\n if(i > z/res):\n res=-1\n break\n res*=i\n if(i>z):\n res=-1\n break\nprint(res)', 'n=int(input())\na=list(map(int,input().split()))\nres=1\n\nz=10**18\nfor i in a:\n if(i > z/res):\n res=-1\n ... | ['Wrong Answer', 'Wrong Answer', 'Runtime Error', 'Accepted'] | ['s169470507', 's384293859', 's950126949', 's454700683'] | [21588.0, 21556.0, 21568.0, 21452.0] | [46.0, 76.0, 74.0, 128.0] | [188, 179, 280, 325] |
p02658 | u981884699 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['import numpy as np\nimport functools\nimport operator\n\nprod2 = functools.partial(functools.reduce, operator.mul)\n\nn = int(input())\nnums = list(map(int, input().split()))\nprint(nums)\n\nval = prod2(nums)\n\nif val > 1e18:\n val = -1\n\nprint(val)\n', 'import numpy as np\nimport functools\nimport operator\n\np... | ['Wrong Answer', 'Accepted'] | ['s049940682', 's585412756'] | [39912.0, 39920.0] | [2207.0, 134.0] | [240, 351] |
p02658 | u984529214 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['a, b = map(float,input().split())\nprint(int((a*b)//1))', 'n = int(input())\na = list(map(int,input().split()))\nans = 1\nfor i in range(n):\n if a[i] == 0:\n print(0)\n exit()\nfor i in range(n):\n ans *= a[i]\n if ans > 1e18:\n print(-1)\n exit()\nif ans > 1e18:\n print(-1)\n... | ['Runtime Error', 'Accepted'] | ['s932932143', 's821013420'] | [9088.0, 21688.0] | [23.0, 60.0] | [54, 266] |
p02658 | u984592063 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na=list(map(int,input().split()))\nresult = 1\nfor i in range(n):\n result *= a[i]\nif result>100000000000000000:\n result = -1\nprint(result)\n', 'n = int(input())\na=list(map(int,input().split()))\nif 0 in a:\n result=0\nelse:\n result = 1\n for i in range(n):\n result *= a[i]... | ['Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s332380360', 's401704254', 's835279225', 's302467870'] | [21780.0, 21780.0, 21692.0, 21784.0] | [2206.0, 81.0, 2234.0, 51.0] | [159, 258, 232, 237] |
p02658 | u988975120 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int()\na = list(map(int, input().split()))\ns = 1\nfor i in a:\n s*= i\nif s > pow(10, 18):\n print(-1)\nelse:\n print(s)\n', 'n = input()\na = list(map(int, input().split()))\n\ns = 1\nmod = pow(10, 18)\nfor i in a:\n s = s*i\n if s < mod:\n print(-1)\n exit()\nelse:\n print(s)\n'... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s199505143', 's546734143', 's224211215'] | [9068.0, 21640.0, 21632.0] | [23.0, 53.0, 50.0] | [127, 165, 202] |
p02658 | u990339766 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['\nusing namespace std;\n\nint main ()\n{\n\tlong n, a;\n\tlong ret = 1;\n\tbool flag = true;\n\n\tcin >> n;\n\n\tfor (int i=0; i<n; i++) {\n\t\tcin >> a;\n\t\tif (a == 0) {\n\t\t\tcout << 0 << endl;\n\t\t\treturn 0;\n\t\t}\n\t\tret *= a;\n\t\tif (ret <= 0 || 1000000000000000000 < ret) {\n\t\t\tflag = false;\n\t\t}\n\... | ['Runtime Error', 'Accepted'] | ['s719715543', 's390158777'] | [9012.0, 21700.0] | [23.0, 51.0] | [387, 221] |
p02658 | u993622994 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ["N = int(input())\nA = input().split()\nans = 1\n\nif '0' in A:\n ans = 0\n print(ans)\n exit()\n\nfor i in range(N):\n num = int(A[i])\n ans *= num\n if ans >= 10**18:\n ans = -1\n break\n\nprint(ans)\n", 'N = int(input())\nA = list(map(int, input().split()))\nA.sort()\nans = 1\n\nfor ... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s178641374', 's795675702', 's595953384'] | [19500.0, 21652.0, 21660.0] | [51.0, 79.0, 76.0] | [217, 203, 232] |
p02658 | u994865749 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ["N=int(input)\ns=list(map(int,input().split()))\nans=1\nfor i in s:\n ans*=i\n if ans>10e18:\n print('-1')\n break\nprint(ans)", "N=int(input)\ns=list(map(input().split()))\nans=1\nfor i in s:\n ans*=i\n if ans>10e18:\n print('-1')\n break\nprint(ans)", "N=int(input())\ns=list(map(int,input().split()))... | ['Runtime Error', 'Runtime Error', 'Accepted'] | ['s557820029', 's723706116', 's666022193'] | [9000.0, 9036.0, 21648.0] | [26.0, 26.0, 54.0] | [125, 121, 182] |
p02658 | u995062424 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = list(map(int, input().split()))\n\nans = 1\nfor i in range(len(A)):\n if(len(str(ans)) >= 18):\n ans = -1\n break\n ans *= A[i]\nif(len(str(ans)) >= 18):\n print(-1)\nelse:\n print(ans)', 'import decimal\nN = int(input())\nA = list(input().split())\n\nans = 1\nfor i in ... | ['Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Accepted'] | ['s410201730', 's499846479', 's560000483', 's766053574'] | [21544.0, 21040.0, 21640.0, 21576.0] | [65.0, 84.0, 94.0, 80.0] | [221, 188, 301, 287] |
p02658 | u995163736 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\nA = sorted(map(int,input().split()), reverse = True)\nprint(A)\nif 0 in A:\n print(0)\nelse:\n ans = 1\n for i in A:\n ans *= i\n if ans >10**18:\n print(-1)\n else:\n print(ans)', 'n = int(input())\nA = sorted(map(int,input().split()), reverse = True)\n\n... | ['Wrong Answer', 'Accepted'] | ['s990255708', 's520181694'] | [21516.0, 21672.0] | [2208.0, 80.0] | [228, 238] |
p02658 | u996480565 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nvals = [int(v) for v in input().split()]\n\nrslt = 1\n\nfor v in vals:\n rslt = rslt * v\n \n if rslt > 10 ** 18:\n print(-1)\n\timport sys\n sys.exit()\n \nprint(rslt)\n \n', 'N = int(input())\nvals = [int(v) for v in input().split()]\n\nrslt = 1\n\nif 0 in vals:\n rslt = 0\n\nfor v... | ['Runtime Error', 'Accepted'] | ['s800181384', 's453268695'] | [8968.0, 21788.0] | [22.0, 60.0] | [190, 195] |
p02658 | u998008108 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['from __future__ import division, print_function\nimport os,sys\nfrom io import BytesIO, IOBase\nif sys.version_info[0] < 3:\n from __builtin__ import xrange as range\n from future_builtins import ascii, filter, hex, map, oct, zip\ndef dmain():\n sys.setrecursionlimit(1000000)\n threading.stack_size(102400... | ['Wrong Answer', 'Accepted'] | ['s561181067', 's309160858'] | [24236.0, 24112.0] | [62.0, 59.0] | [4490, 4539] |
p02658 | u998867748 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ["n = int(input())\n\na = list(map(int,input().split())\n\ns = 1\nfor i in a:\n s = s*i\nif s > 10**18:\n print('-1')\nelse:\n print(s)", "n = int(input())\n\na = list(map(int,input()split())\n\ns = 1\nfor i in a:\n s = s*i\nif s > 10**18:\n print('-1')\nelse:\n print(s)", "n = int(input())\n\na = lis... | ['Runtime Error', 'Runtime Error', 'Accepted'] | ['s036171986', 's900531786', 's304296647'] | [8948.0, 9012.0, 21684.0] | [22.0, 24.0, 76.0] | [132, 131, 160] |
p02658 | u999287037 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['N = int(input())\nA = list(map(int,input().split()))\n\nans = 1\nfor i in A:\n ans *= i\n\nif ans > 1000000000000000000:\n print(-1) \nelif ans < 1000000000000000000:\n print(ans)', 'def main():\n N = int(input())\n A = list(map(int,input().split()))\n if 0 in A:\n print(0)\n return... | ['Wrong Answer', 'Accepted'] | ['s863839066', 's097916303'] | [21776.0, 21508.0] | [2206.0, 48.0] | [181, 265] |
p02658 | u999503965 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(inut())\nx = [input() for i in range(n)]\n\nans = 1\nfor i in x:\n ans = ans*i\n \nprint(ans)\n', 'from functools import reduce\nfrom operator import add, mul\n \nn=int(input())\nx=list(map(int, input().split()))\n \nans=reduce(mul, x)\n \nif ans>=1000000000000000000:\n ans=-1\nprint(ans)\n', 'n=int(input... | ['Runtime Error', 'Wrong Answer', 'Runtime Error', 'Runtime Error', 'Runtime Error', 'Runtime Error', 'Wrong Answer', 'Runtime Error', 'Wrong Answer', 'Runtime Error', 'Runtime Error', 'Accepted'] | ['s003072922', 's080023983', 's085454209', 's085472963', 's183129320', 's239124105', 's264782158', 's715600900', 's761984847', 's868219216', 's876465177', 's685317646'] | [9096.0, 22952.0, 9016.0, 12592.0, 9112.0, 19428.0, 21632.0, 12740.0, 21476.0, 12700.0, 9036.0, 21780.0] | [22.0, 2206.0, 22.0, 33.0, 24.0, 31.0, 46.0, 32.0, 48.0, 27.0, 22.0, 50.0] | [97, 183, 134, 136, 164, 152, 163, 145, 176, 139, 90, 164] |
p02658 | u999529302 | 2,000 | 1,048,576 | Given N integers A_1, ..., A_N, compute A_1 \times ... \times A_N. However, if the result exceeds 10^{18}, print `-1` instead. | ['n = int(input())\na = list(map(int, input().split()))\nresult = 1\n\nfor i in a:\n result = i * result\n \nif result >= 1000000000000000000:\n result = -1\n\nprint(result)\n', 'N = int(input())\nA = list(map(int,input().split()))\nA = sorted(A)\ncount = 1\nfor i in A:\n count *= i\n if count > 10**18... | ['Wrong Answer', 'Accepted'] | ['s948498754', 's631392194'] | [21648.0, 21468.0] | [2206.0, 91.0] | [165, 178] |
p02660 | u000037600 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['import math\na=int(input())\nb=[]\nans=0\nfor i in range(1,int(math.sqrt(a)),1):\n if a%i==0:\n b=b+[i]+[int(a/i)]\nb.remove(1)\nfor i in b:\n cnt=0\n if a%i==0:\n while a%i==0:\n cnt+=1\n a=a/i\n ans+=(math.sqrt(2*cnt+0.25)-0.5)//1\nprint(int(ans))', 'import math\na=int(input())\nans=0\nfor i i... | ['Runtime Error', 'Accepted'] | ['s721875462', 's569415023'] | [9208.0, 9244.0] | [150.0, 147.0] | [256, 247] |
p02660 | u000085263 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['from functools import reduce\ndef divgame(n): \n r=set(reduce(list.__add__, \n ([i, n//i] for i in range(1, int(n**0.5) + 1) if n % i == 0)))\n r=len(r)\n if r%2==0:\n return r/2\n else:\n return (r-1)/2\ninp=int(input())\nprint(int(divgame(inp)))', 'import math \ndef prime... | ['Wrong Answer', 'Accepted'] | ['s399339228', 's747862901'] | [9960.0, 9092.0] | [118.0, 123.0] | [281, 602] |
p02660 | u010178026 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['n = int(input())\nb = n\ndef pf(n):\n a = []\n while n % 2 == 0:\n a.append(2)\n n //= 2\n f = 3\n while f * f <= n:\n if n % f == 0:\n a.append(f)\n n //= f\n else:\n f += 2\n if n != 1:\n a.append(n)\n return a\nl = list(set(pf(n)... | ['Runtime Error', 'Accepted'] | ['s999812646', 's699858568'] | [9256.0, 9224.0] | [92.0, 90.0] | [488, 464] |
p02660 | u013864607 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['import os\n\nN = int(input())\n\ndef prime_fact(value):\n \n import math\n prime_list = {}\n prime = 2\n loop_num = 0\n while 1:\n loop_num+=1\n if math.sqrt(value)<loop_num:\n prime_list[int(value)] = 1\n break\n if value%prime==0:\n value/=prim... | ['Wrong Answer', 'Accepted'] | ['s745128151', 's662160837'] | [9224.0, 9292.0] | [270.0, 355.0] | [1551, 1560] |
p02660 | u014958112 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['def factorization(n):\n arr = []\n temp = n\n for i in range(2, int(-(-n**0.5//1))+1):\n if temp%i==0:\n cnt=0\n while temp%i==0:\n cnt+=1\n temp //= i\n arr.append([i, cnt])\n \n if temp!=1:\n arr.append([temp, 1])\n \n if ar... | ['Time Limit Exceeded', 'Runtime Error', 'Runtime Error', 'Wrong Answer', 'Accepted'] | ['s488740730', 's833358470', 's839868572', 's955194046', 's672860103'] | [9432.0, 9204.0, 9196.0, 9532.0, 9472.0] | [2206.0, 25.0, 22.0, 111.0, 111.0] | [822, 384, 483, 872, 854] |
p02660 | u018168283 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['n = int(input())\nans = 0\ni = 2\n\nwhile n>1 and i*i<=n:\n if n % i == 0:\n c = 0\n while n % i == 0:\n n = n / i\n c += 1\n Y=1\n U=2\n while c>=Y:\n ans=ans+1\n Y=Y+U\n U=U+1\n\n i = i + 1\n \n \nif n > 1:\n ans = 1\n\nprint(ans)', 'n = int(input())\nans = 0\ni = ... | ['Wrong Answer', 'Wrong Answer', 'Wrong Answer', 'Runtime Error', 'Accepted'] | ['s067500754', 's413947531', 's450499851', 's785494551', 's551745287'] | [9080.0, 9268.0, 9180.0, 9200.0, 9460.0] | [253.0, 268.0, 187.0, 297.0, 146.0] | [260, 263, 140, 266, 254] |
p02660 | u020472025 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['N = int(input())\n\ndef factorization(n):\n arr = []\n temp = n\n for i in range(2, int(-(-n**0.5//1))+1):\n if temp%i==0:\n cnt=0\n while temp%i==0:\n cnt+=1\n temp //= i\n arr.append([i, cnt])\n\n if temp!=1:\n arr.append([temp... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s025493113', 's582135655', 's875569882'] | [9528.0, 9476.0, 9496.0] | [112.0, 110.0, 114.0] | [630, 641, 712] |
p02660 | u021387650 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['from decimal import Decimal\nA,B = map(str,input().split())\nA = Decimal(A)\nB = Decimal(B)\nprint(int(A*B))', '# ABC169 D Div Game\n\nn = int(input())\n\ndef factorization(n):\n arr = []\n if n == 1:\n return arr\n temp = n\n for i in range(2, int(-(-n**0.5//1))+1):\n if temp%i==0:\n ... | ['Runtime Error', 'Accepted'] | ['s091329652', 's012174398'] | [9852.0, 9472.0] | [27.0, 109.0] | [104, 618] |
p02660 | u022215787 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['n = int(input())\narr = []\ntemp = n\nfor i in range(2, int(-(-n**0.5//1))+1):\n if temp%i==0:\n cnt=0\n while temp%i==0:\n cnt+=1\n temp //= i\n arr.append([i, cnt])\nif temp!=1:\n arr.append([temp, 1])\nif arr==[]:\n arr.append([n, 1])\nz = []\nfor i in arr:\n ... | ['Wrong Answer', 'Accepted'] | ['s616804261', 's522238519'] | [9496.0, 9504.0] | [150.0, 140.0] | [474, 573] |
p02660 | u022979415 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ["from math import log, floor, sqrt\n\n\ndef main():\n n = int(input())\n prime = [2]\n i = 3\n while i * i <= pow(10, 9) + 10:\n if all(i % pp != 0 for pp in prime):\n prime.append(i)\n i += 1\n ans = 1\n is_one = n == 1\n for p in prime:\n if n % p == 0:\n ... | ['Wrong Answer', 'Accepted'] | ['s202930631', 's859859495'] | [9288.0, 9436.0] | [519.0, 96.0] | [570, 691] |
p02660 | u023762741 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['\nimport collections\n\ndef prime_factorize(n):\n a = []\n while n % 2 == 0:\n a.append(2)\n n //= 2\n f = 3\n while f * f <= n:\n if n % f == 0:\n a.append(f)\n n //= f\n else:\n f += 2\n if n != 1:\n a.append(n)\n return a\nc = co... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s165766835', 's493374260', 's181994901'] | [9468.0, 9472.0, 9468.0] | [96.0, 94.0, 98.0] | [682, 682, 685] |
p02660 | u026788530 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['n=int(input())\n_n=n\nans=0\nfor i in range(2,1000002):\n if n%i==0:\n ans+=1\n n/=i\n # print(i,ans)\n if n==1:\n break\n\nif n==_n:\n ans+=1\nif n==1:\n ans-=1\nprint(ans)', 'n=int(input())\n_n=n\nif n==1:\n print(0)\n exit()\nans=0\nfor i in range(2,10**6+9):\n c=i\... | ['Wrong Answer', 'Accepted'] | ['s936606726', 's289028554'] | [9240.0, 9200.0] | [198.0, 287.0] | [198, 244] |
p02660 | u029056424 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['Number=int(input())\n\ntimes=0\n\ndef factorization(n):\n arr = []\n temp = n\n for i in range(2, int(-(-n**0.5//1))+1):\n if temp%i==0:\n cnt=0\n while temp%i==0:\n cnt+=1\n temp //= i\n arr.append([i, cnt])\n\n if temp!=1:\n ar... | ['Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s193783431', 's607937335', 's945958247'] | [9312.0, 9476.0, 9408.0] | [116.0, 117.0, 115.0] | [527, 700, 680] |
p02660 | u036514535 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['import math\nN = int(input())\nif N == 1:\n print(0)\n exit()\nans = 0\nfor i in range(2, int(math.sqrt(N))+1):\n if N % i == 0:\n N = N // i\n print(N,i)\n ans += 1\n if N == 1:\n break\nprint(ans)\n', 'import math\nN = int(input())\nif N == 1:\n print(0)\n exit()\ndiv =... | ['Wrong Answer', 'Accepted'] | ['s052348078', 's217701957'] | [8948.0, 9204.0] | [170.0, 169.0] | [226, 408] |
p02660 | u044220565 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['# coding: utf-8\nimport sys\n\n# from operator import itemgetter\nsysread = sys.stdin.readline\nread = sys.stdin.read\n#from heapq import heappop, heappush\n#from collections import defaultdict\n\nsys.setrecursionlimit(10 ** 7)\n# import math\n# from itertools import product, accumulate, combinations, product\n\n#imp... | ['Time Limit Exceeded', 'Accepted'] | ['s982401719', 's710545308'] | [20552.0, 20536.0] | [2206.0, 1132.0] | [1359, 1360] |
p02660 | u049979154 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['import math\nn = int(input())\n\nans = 0\n\nfor i in range(2, math.floor(math.sqrt(n + 1))):\n if n == 1:\n break\n if n % i == 0:\n n = n // i\n ans += 1\n\nif n == 1:\n print(0)\nelif ans == 0:\n print(1)\nelse:\n print(ans)', 'import collections\n\ndef prime_factorize(n):\n a... | ['Wrong Answer', 'Accepted'] | ['s734361597', 's463533361'] | [9188.0, 9464.0] | [172.0, 93.0] | [245, 516] |
p02660 | u050584166 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['\ndef factorization(n):\n arr = []\n temp = n\n for i in range(2, int(-(-n**0.5//1))+1):\n if temp%i==0:\n cnt=0\n while temp%i==0:\n cnt+=1\n temp //= i\n arr.append([i, cnt])\n if temp!=1:\n arr.append([temp, 1])\n if arr==[... | ['Wrong Answer', 'Accepted'] | ['s114270357', 's570756079'] | [9480.0, 9436.0] | [109.0, 112.0] | [595, 582] |
p02660 | u053035261 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['import collections\n\ndef prime_factorize(n):\n a = []\n while n % 2 == 0:\n a.append(2)\n n //= 2\n f = 3\n while f * f <= n:\n if n % f == 0:\n a.append(f)\n n //= f\n else:\n f += 2\n if n != 1:\n a.append(n)\n return a\n\n\nn = ... | ['Wrong Answer', 'Accepted'] | ['s872518189', 's680242409'] | [9468.0, 9472.0] | [95.0, 95.0] | [705, 672] |
p02660 | u056358163 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['N = int(input())\n\nans = 0\ntemp = N\nfact = []\n\nif N == 1:\n print(0)\n exit()\nfor i in range(2, int(N ** 0.5 + 2)):\n if temp % i == 0:\n n = 0\n while temp % i == 0:\n temp //= i\n n += 1\n fact.append(n)\nif temp != 1:\n fact.append(1)\nprint(fact)\n\nans... | ['Wrong Answer', 'Accepted'] | ['s807716750', 's870151154'] | [9364.0, 9264.0] | [153.0, 148.0] | [456, 444] |
p02660 | u057668615 | 2,000 | 1,048,576 | Given is a positive integer N. Consider repeatedly applying the operation below on N: * First, choose a positive integer z satisfying all of the conditions below: * z can be represented as z=p^e, where p is a prime number and e is a positive integer; * z divides N; * z is different from all integers chos... | ['def p_facto(n):\n ret = []\n nc = n\n for i in range(2, nc):\n if i*i > nc:\n break\n if n % i == 0:\n ex = 0\n while n % i == 0:\n ex += 1\n n //= i\n ret.append([i, ex])\n if n != 1:\n ret.append([n, 1])\n ... | ['Runtime Error', 'Wrong Answer', 'Wrong Answer', 'Accepted'] | ['s560345736', 's721928383', 's781621619', 's046643448'] | [9220.0, 31628.0, 31720.0, 9116.0] | [156.0, 1403.0, 1365.0, 153.0] | [653, 995, 967, 653] |
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