s_id stringlengths 10 10 | p_id stringlengths 6 6 | u_id stringlengths 10 10 | date stringlengths 10 10 | language stringclasses 1
value | original_language stringclasses 11
values | filename_ext stringclasses 1
value | status stringclasses 1
value | cpu_time stringlengths 1 5 | memory stringlengths 1 7 | code_size stringlengths 1 6 | code stringlengths 1 539k |
|---|---|---|---|---|---|---|---|---|---|---|---|
s755097651 | p02277 | u313994256 | 1442583732 | Python | Python | py | Runtime Error | 0 | 0 | 1519 | def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", 1000000000000000000000000000000000000000000000000]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if int(L[i][-1]) <= int(R[j][-1]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
# kannsei
def partition(A, p, r):
x = int(A[r-1][2])
i = p - 1
for j in range(p, r-1):
if int(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r-1]=A[r-1], A[i+1]
return i+1
def quicksort(A, p, r):
if p < r-1:
q = partition(A, p, r)
quicksort(A, p, q)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list))
mergesort(num_list1, 0, len(num_list1))
if num_list == num_list1:
print ("Stable")
else:
print ("NOt stable")
print " \n".join(num_list) |
s960104671 | p02277 | u313994256 | 1442584006 | Python | Python | py | Runtime Error | 0 | 0 | 1491 | def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", 100000000000000000000]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if int(L[i][-1]) <= int(R[j][-1]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
# kannsei
def partition(A, p, r):
x = int(A[r-1][2])
i = p - 1
for j in range(p, r-1):
if int(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r-1]=A[r-1], A[i+1]
return i+1
def quicksort(A, p, r):
if p < r-1:
q = partition(A, p, r)
quicksort(A, p, q)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list))
mergesort(num_list1, 0, len(num_list1))
if num_list == num_list1:
print ("Stable")
else:
print ("NOt stable")
print " \n".join(num_list) |
s076138227 | p02277 | u313994256 | 1442584101 | Python | Python | py | Runtime Error | 0 | 0 | 1490 | def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", 100000000000000000000]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if int(L[i][-1]) <= int(R[j][-1]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
# kannsei
def partition(A, p, r):
x = int(A[r-1][2])
i = p - 1
for j in range(p, r-1):
if int(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r-1]=A[r-1], A[i+1]
return i+1
def quicksort(A, p, r):
if p < r-1:
q = partition(A, p, r)
quicksort(A, p, q)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list))
mergesort(num_list1, 0, len(num_list1))
if num_list == num_list1:
print ("Stable")
else:
print ("Not stable")
print "\n".join(num_list) |
s761710190 | p02277 | u313994256 | 1442755215 | Python | Python | py | Runtime Error | 0 | 0 | 1531 | def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", 100000000000000000000000000000000]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if int(L[i][-1]) <= int(R[j][-1]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
# kannsei
def partition(A, p, r):
x = int(A[r-1][2])
i = p - 1
for j in range(p, r-1):
if int(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r-1]=A[r-1], A[i+1]
retu
rn i+1
def quicksort(A, p, r):
if p < r-1:
q = partition(A, p, r)
quicksort(A, p, q)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list))
print " \n".join(num_list)
mergesort(num_list1, 0, len(num_list1))
print "\n".join(num_list1)
if num_list == num_list1:
print ("Stable")
else:c
print ("NOt stable") |
s239685672 | p02277 | u313994256 | 1442755272 | Python | Python | py | Runtime Error | 0 | 0 | 1531 | def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", 100000000000000000000000000000000]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if int(L[i][-1]) <= int(R[j][-1]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
# kannsei
def partition(A, p, r):
x = int(A[r-1][2])
i = p - 1
for j in range(p, r-1):
if int(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r-1]=A[r-1], A[i+1]
retu
rn i+1
def quicksort(A, p, r):
if p < r-1:
q = partition(A, p, r)
quicksort(A, p, q)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list))
print " \n".join(num_list)
mergesort(num_list1, 0, len(num_list1))
print "\n".join(num_list1)
if num_list == num_list1:
print ("Stable")
else:c
print ("Not stable") |
s389442742 | p02277 | u313994256 | 1442755317 | Python | Python | py | Runtime Error | 0 | 0 | 1532 | def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", 100000000000000000000000000000000]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if int(L[i][-1]) <= int(R[j][-1]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
# kannsei
def partition(A, p, r):
x = int(A[r-1][2])
i = p - 1
for j in range(p, r-1):
if int(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r-1]=A[r-1], A[i+1]
retu
rn i+1
def quicksort(A, p, r):
if p < r-1:
q = partition(A, p, r)
quicksort(A, p, q)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list))
print " \n".join(num_list)
mergesort(num_list1, 0, len(num_list1))
if num_list == num_list1:
print ("Stable")
else:c
print ("Not stable")
print "\n".join(num_list1)
|
s508357251 | p02277 | u313994256 | 1442761751 | Python | Python | py | Runtime Error | 0 | 0 | 1499 | def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", float("inf")]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if float(L[i][-1]) <= float(R[j][-1]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
def partition(A, p, r):
x = float(A[r-1][2])
i = p - 1
for j in range(p, r):
if float(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r-1]=A[r-1], A[i+1]
return i+1
def quicksort(A, p, r):
if p < r-1:
q = partition(A, p, r)
quicksort(A, p, q)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list))
mergesort(num_list1, 0, len(num_list1))
if num_list == num_list1:
print ("Stable")
else:
print ("Not stable")
print "\n".join(num_list) |
s505383031 | p02277 | u313994256 | 1442762617 | Python | Python | py | Runtime Error | 0 | 0 | 1506 | #?????????
def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", float("inf")]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if float(L[i][-1]) <= float(R[j][-1]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
def partition(A, p, r):
x = float(A[r][2])
i = p - 1
for j in range(p, r):
if float(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r]=A[r], A[i+1]
return i+1
def quicksort(A, p, r):
if p < r:
q = partition(A, p, r)
quicksort(A, p, q-1)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list)-1)
mergesort(num_list1, 0, len(num_list1))
if num_list == num_list1:
print ("Stable")
else:
print ("Not stable")
print "\n".join(num_list) |
s452327356 | p02277 | u313994256 | 1442795581 | Python | Python | py | Runtime Error | 0 | 0 | 1498 | #?????????
def mergesort(A, left, right):
if left + 1 < right:
mid = (left + right)/2
mergesort(A, left, mid)
mergesort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid -left
n2 = right - mid
L = []
R = []
x = [" "," ", 10**10]
for i in range(0, n1):
L.append(A[left + i])
for i in range(0, n2):
R.append(A[mid + i])
L.append(x)
R.append(x)
i = 0
j = 0
for k in range(left, right):
if float(L[i]) <= float(R[j]):
A[k] = L[i]
i = i + 1
else:
A[k] = R[j]
j = j + 1
def partition(A, p, r):
x = float(A[r][2])
i = p - 1
for j in range(p, r):
if float(A[j][2]) <= x:
i = i + 1
A[i],A[j]=A[j], A[i]
A[i+1], A[r]=A[r], A[i+1]
return i+1
def quicksort(A, p, r):
if p < r:
q = partition(A, p, r)
quicksort(A, p, q-1)
quicksort(A, q+1, r)
if __name__ == "__main__":
num = int(raw_input())
num_list = []
num_list1 = []
for i in range(num):
num_list.append(raw_input())
num_list1 = list(num_list)
quicksort(num_list, 0, len(num_list)-1)
mergesort(num_list1, 0, len(num_list1))
if num_list == num_list1:
print ("Stable")
else:
print ("Not stable")
print "\n".join(num_list) |
s809966355 | p02277 | u731710433 | 1455975495 | Python | Python3 | py | Runtime Error | 20 | 7812 | 918 | def partition(A, p, r):
x = A[r][1]
i = p-1
for j in range(p, r):
if A[j][1] <= x:
i += 1
A[i], A[j] = A[j], A[i]
A[i + 1], A[r] = A[r], A[i + 1]
return i + 1
def quicksort(A, p, r):
if p < r:
q = partition(A, p, r)
quicksort(A, p, q-1)
quicksort(A, q+1, r)
def suitlist(cards):
suits = [[]]*len(cards)
for card in cards:
suits[int(card[1])].append(card[0])
return suits
def is_stable(before, after):
suits_b = suitlist(before)
suits_a = suitlist(after)
for a, b in zip(suits_b, suits_a):
if a != b:
return False
return True
n = int(input())
cards = []
origin = cards.copy()
for _ in range(n):
cards.append(input().split())
origin = cards.copy()
quicksort(cards, 0, n - 1)
print("Stable" if is_stable(origin, cards) else "Not stable")
for card in cards:
print(*card) |
s717670848 | p02277 | u742013327 | 1478604971 | Python | Python3 | py | Runtime Error | 0 | 0 | 1421 | #http://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=ALDS1_6_C&lang=jp
def partition(target_list, l, r):
x = int(target_list[r][1:])
i = l - 1
for j in range(l, r):
if int(target_list[j][1:]) <= x:
i = i + 1
tmp = target_list[i]
target_list[i] = target_list[j]
target_list[j] = tmp
tmp = target_list[r]
target_list[r] = target_list[i + 1]
target_list[i + 1] = tmp
return i + 1
def check_stable(origin_list, target_list):
for i, origin_v in enumerate(origin_list.split()):
for origin_v2 in origin_list[i+1:]:
if origin_v[1] == origin_v2[1]:
for j, target_v in enumerate(target_list.split()):
for target_v2 in target_list[j+1:]:
if origin_v == target_v2 and origin_v2 == target_v:
return "Not stable"
return "Stable"
def quick_sort(target_list, l, r):
if l < r:
c = partition(target_list, l, r)
quick_sort(target_list, l, c - 1)
quick_sort(target_list, c + 1, r)
if __name__ == "__main__":
n_list = int(input())
target_list = []
for i in range(n_list):
target_list.append(input())
origin_list = [a for a in target_list]
quick_sort(target_list, 0, n_list - 1)
print(check_stable(origin_list, target_list))
print("\n".join(target_list)) |
s433995968 | p02277 | u742013327 | 1478605012 | Python | Python3 | py | Runtime Error | 0 | 0 | 1437 | #http://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=ALDS1_6_C&lang=jp
def partition(target_list, l, r):
x = int(target_list[r][1:])
i = l - 1
for j in range(l, r):
if int(target_list[j][1:]) <= x:
i = i + 1
tmp = target_list[i]
target_list[i] = target_list[j]
target_list[j] = tmp
tmp = target_list[r]
target_list[r] = target_list[i + 1]
target_list[i + 1] = tmp
return i + 1
def check_stable(origin_list, target_list):
for i, origin_v in enumerate(origin_list.split()):
for origin_v2 in origin_list[i+1:].split():
if origin_v[1] == origin_v2[1]:
for j, target_v in enumerate(target_list.split()):
for target_v2 in target_list[j+1:].split():
if origin_v == target_v2 and origin_v2 == target_v:
return "Not stable"
return "Stable"
def quick_sort(target_list, l, r):
if l < r:
c = partition(target_list, l, r)
quick_sort(target_list, l, c - 1)
quick_sort(target_list, c + 1, r)
if __name__ == "__main__":
n_list = int(input())
target_list = []
for i in range(n_list):
target_list.append(input())
origin_list = [a for a in target_list]
quick_sort(target_list, 0, n_list - 1)
print(check_stable(origin_list, target_list))
print("\n".join(target_list)) |
s894782368 | p02277 | u022407960 | 1478848723 | Python | Python3 | py | Runtime Error | 0 | 0 | 1855 | #!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
Input:
6
D 3
H 2
D 1
S 3
D 2
C 1
Output:
Not stable / Stable
D 1
C 1
D 2
H 2
D 3
S 3
"""
import sys
import copy
def partition(array, start, end):
x = int(array[end][2:])
i = start - 1
assert start <= end
for j in range(start, end):
if int(array[j][2:]) <= x:
i += 1
array[i], array[j] = array[j], array[i]
array[i + 1], array[end] = array[end], array[i + 1]
return i + 1
def quick_sort(array, start, end):
if start + 1 < end:
cursor = partition(array, start, end)
quick_sort(array, start, cursor - 1)
quick_sort(array, cursor + 1, end)
return array
def merge(A, left, mid, right):
L = A[left:mid] + ['N ' + str(int(1e9 + 1))]
R = A[mid:right] + ['N ' + str(int(1e9 + 1))]
i, j = 0, 0
for k in range(left, right):
if int(L[i][2:]) <= int(R[j][2:]):
A[k] = L[i]
i += 1
else:
A[k] = R[j]
j += 1
return None
def merge_sort(A, left, right):
if left + 1 < right:
mid = (left + right) // 2
merge_sort(A, left, mid)
merge_sort(A, mid, right)
merge(A, left, mid, right)
return A
if __name__ == '__main__':
_input = sys.stdin.readlines()
array_length = int(_input[0])
array = list(map(lambda x: x.strip('\n'), _input[1:]))
assert len(array) == array_length
merge_array = copy.deepcopy(array)
# print('merge',merge_array)
merge_result = merge_sort(A=merge_array, left=0, right=array_length)
# print(*merge_result, sep='\n')
# print('quick',array)
quick_result = quick_sort(array=array, start=0, end=array_length)
if quick_result != merge_result:
print('Not stable')
else:
print('Stable')
print(*quick_result, sep='\n') |
s690557776 | p02277 | u811733736 | 1480892093 | Python | Python3 | py | Runtime Error | 20 | 7876 | 2044 | def merge_sort(A, left, right):
if left + 1 < right:
mid = (left + right) // 2
merge_sort(A, left, mid)
merge_sort(A, mid, right)
merge(A, left, mid, right)
def merge(A, left, mid, right):
n1 = mid - left
n2 = right - mid
L = A[left:mid]
R = A[mid:right]
L.append(('J', 99))
R.append(('J', 99))
i = 0 # L[]??¨?????????????????????
j = 0 # R[]??¨?????????????????????
for k in range(left, right):
if L[i][1] <= R[j][1]:
A[k] = L[i]
i += 1
else:
A[k] = R[j]
j += 1
def partition(A, p, r):
"""
???????????????????????????????????????A[r]?????°?????????????????????????????????????????????A[r-1]??¨?´??????????????????§??¨???
"""
x = A[r][1]
i = p - 1
for j in range(p, r):
if A[j][1] <= x:
i += 1
temp = A[i]
A[i] = A[j]
A[j] = temp
temp = A[i+1]
A[i+1] = A[r]
A[r] = temp
return i
def quick_sort(A, p, r):
if p < r:
q = partition(A, p, r)
quick_sort(A, p, q-1)
quick_sort(A, q+1, r)
if __name__ == '__main__':
# ??????????????\???
#cards = [('D', 3), ('H', 2), ('D', 1), ('S', 3), ('D', 2), ('C', 1)]
#comp_cards = cards[:]
num_of_cards = int(input())
cards = []
for i in range(num_of_cards):
suit, rank = input().split(' ')
cards.append((suit, int(rank)))
comp_cards = cards[:]
# ??????????????????
data_length = len(cards)
quick_sort(cards, 0, data_length-1)
merge_sort(comp_cards, 0, data_length) # ?????????????????????????????????????????¨
# ???????????????
stable = True # ?????????????????????????????????????????????
for x, y in zip(cards, comp_cards):
if x != y:
stable = False
print('Not stable')
break
if stable is True:
print('Stable')
for c in cards: # ??????????????¨???
print('{0} {1}'.format(c[0], c[1])) |
s537923096 | p02277 | u512342660 | 1484106313 | Python | Python | py | Runtime Error | 0 | 0 | 1747 | def partition(A,B,p,r):
x = A[r]
i = p-1
for j in xrange(p,r):
if A[j] <= x:
i += 1
tmp = A[i]
A[i] = A[j]
A[j] = tmp
tmp = B[i]
B[i] = B[j]
B[j] = tmp
tmp = A[i+1]
A[i+1] = A[r]
A[r] = tmp
tmp = B[i+1]
B[i+1] = B[r]
B[r] = tmp
return i+1
def quick_sort(A,B, p, r):
# q??????????????????p??¨r????????????????????°??????????????§???
# ?????????p?????????q-1???????????§???????????????????????????q+1???r????¶???????
# ?????§??????????????§????????????????????¨?????????
if p < r:
# ???????????£?????§?????????????°??????°?????????
q = partition(A,B,p,r)
quick_sort(A,B,p,q-1)
quick_sort(A,B,q+1,r)
def stable_check(sorted_values,sorted_suits,default_values,default_suits,n):
for i in xrange(1,10):
check_ss = []
check_ds = []
if i in sorted_values:
for x in xrange(n):
if i == sorted_values[x]:
check_ss.append(sorted_suits[x])
if i == default_values[x]:
check_ds.append(default_suits[x])
for x in xrange(len(check_ss)):
if check_ss[x]!=check_ds[x]:
return "Not stable"
return "Stable"
def main():
n = input()
A = []
B = []
for i in xrange(n):
b,a = raw_input().split()
A.append(int(a))
B.append(b)
cpA=list(A)
setA = set(A)
cpB=list(B)
quick_sort(A,B,0,n-1)
# Stable Check
print stable_check(A,B,cpA,cpB,n)
for i in xrange(n):
line = "%s %s"%(B[i],A[i])
print line
if __name__ == '__main__':
main() |
s604361014 | p02277 | u564398841 | 1486271349 | Python | Python3 | py | Runtime Error | 0 | 0 | 1269 | def mergesort(A, s, e):
if s + 1 < e:
m = (e + s) // 2
mergesort(A, s, m)
mergesort(A, m, e)
merge(A, s, m, e)
def merge(A, s, m, e):
L = A[s:m] + [('*', 1E10)]
R = A[m:e] + [('*', 1E10)]
ix_l = ix_r = 0
for ix in range(s, e):
if L[ix_l][1] < R[ix_r][1]:
A[ix] = L[ix_l]
ix_l += 1
else:
A[ix] = R[ix_r]
ix_r += 1
def partition(A, p, r):
x = A[r][1]
i = p - 1
for j in range(p, r):
if A[j][1] <= x:
i += 1
A[i], A[j] = A[j], A[i]
A[i + 1], A[r] = A[r], A[i + 1]
return i + 1
def quicksort(A, p, r):
if p < r:
i = partition(A, p, r)
quicksort(A, p, i - 1)
quicksort(A, i + 1, r)
fin = open('sample.txt')
input = fin.readline
if __name__ == '__main__':
N = int(input().strip())
AA = [0] * N
for i in range(N):
key, val = input().strip().split()
val = int(val)
AA[i] = (key, val)
AA2 = AA
quicksort(AA, 0, len(AA) - 1)
mergesort(AA2, 0, len(AA2))
if all([a == 2 for a, a2 in zip(AA, AA2)]):
print('Stable')
else:
print('Not stable')
for key, val in AA:
print('{} {}'.format(key, val)) |
s360806683 | p02277 | u564398841 | 1486271489 | Python | Python3 | py | Runtime Error | 0 | 0 | 1273 | def mergesort(A, s, e):
if s + 1 < e:
m = (e + s) // 2
mergesort(A, s, m)
mergesort(A, m, e)
merge(A, s, m, e)
def merge(A, s, m, e):
L = A[s:m] + [('*', 1E10)]
R = A[m:e] + [('*', 1E10)]
ix_l = ix_r = 0
for ix in range(s, e):
if L[ix_l][1] < R[ix_r][1]:
A[ix] = L[ix_l]
ix_l += 1
else:
A[ix] = R[ix_r]
ix_r += 1
def partition(A, p, r):
x = A[r][1]
i = p - 1
for j in range(p, r):
if A[j][1] <= x:
i += 1
A[i], A[j] = A[j], A[i]
A[i + 1], A[r] = A[r], A[i + 1]
return i + 1
def quicksort(A, p, r):
if p < r:
i = partition(A, p, r)
quicksort(A, p, i - 1)
quicksort(A, i + 1, r)
fin = open('sample.txt')
input = fin.readline
if __name__ == '__main__':
N = int(input().strip())
AA = [0] * N
for i in range(N):
key, val = input().strip().split()
val = int(val)
AA[i] = (key, val)
AA2 = AA[:]
quicksort(AA, 0, len(AA) - 1)
mergesort(AA2, 0, len(AA2))
if all([a == a2 for a, a2 in zip(AA, AA2)]):
print('Stable')
else:
print('Not stable')
for key, val in AA:
print('{} {}'.format(key, val)) |
s369710370 | p02277 | u918276501 | 1507982244 | Python | Python3 | py | Runtime Error | 0 | 0 | 937 | def swap(A,i,j):
A[i],A[j] = A[j],A[i]
return A
def isStable(A):
for i in range(1, len(A)):
if A[i][1] == A[i-1][1]:
if A[i][2] < A[i-1][2]:
return False
return True
def partition(A,p=0, r=None):
if r is None:
r = len(A)-1
x = A[r]
i = p-1
for j in range(p,r):
if A[j] <= x:
i += 1
swap(A,i,j)
swap(A,i+1,r)
return i+1
def quick(A,p=0,r=None):
if r is None:
r = len(A)-1
if p < r:
q = partition(A,p,r)
quick(A,p,q-1)
quick(A,q+1,r)
import sys
if __name__ == "__main__":
n = int(sys.stdin.readline())
A = []
for i in range(n):
card = sys.stdin.readline().split()
A.append(int(card[1]), [card[0], i])
quick(A,0,n-1)
if isStable(A):
print("Stable")
else:
print("Not stable")
for card in A:
print(card[1], card[0]) |
s906880370 | p02277 | u918276501 | 1507982262 | Python | Python3 | py | Runtime Error | 0 | 0 | 937 | def swap(A,i,j):
A[i],A[j] = A[j],A[i]
return A
def isStable(A):
for i in range(1, len(A)):
if A[i][1] == A[i-1][1]:
if A[i][2] < A[i-1][2]:
return False
return True
def partition(A,p=0, r=None):
if r is None:
r = len(A)-1
x = A[r]
i = p-1
for j in range(p,r):
if A[j] <= x:
i += 1
swap(A,i,j)
swap(A,i+1,r)
return i+1
def quick(A,p=0,r=None):
if r is None:
r = len(A)-1
if p < r:
q = partition(A,p,r)
quick(A,p,q-1)
quick(A,q+1,r)
import sys
if __name__ == "__main__":
n = int(sys.stdin.readline())
A = []
for i in range(n):
card = sys.stdin.readline().split()
A.append([int(card[1]), card[0], i])
quick(A,0,n-1)
if isStable(A):
print("Stable")
else:
print("Not stable")
for card in A:
print(card[1], card[0]) |
s184233842 | p02277 | u918276501 | 1507982383 | Python | Python3 | py | Runtime Error | 0 | 0 | 943 | def swap(A,i,j):
A[i],A[j] = A[j],A[i]
return A
def isStable(A):
for i in range(1, len(A)):
if A[i][1] == A[i-1][1]:
if A[i][2] < A[i-1][2]:
return False
return True
def partition(A,p=0, r=None):
if r is None:
r = len(A)-1
x = A[r]
i = p-1
for j in range(p,r):
if A[j][1] <= x[1]:
i += 1
swap(A,i,j)
swap(A,i+1,r)
return i+1
def quick(A,p=0,r=None):
if r is None:
r = len(A)-1
if p < r:
q = partition(A,p,r)
quick(A,p,q-1)
quick(A,q+1,r)
import sys
if __name__ == "__main__":
n = int(sys.stdin.readline())
A = []
for i in range(n):
card = sys.stdin.readline().split()
A.append([card[0], int(card[1]), i])
quick(A,0,n-1)
if isStable(A):
print("Stable")
else:
print("Not stable")
for card in A:
print(card[0], card[1]) |
s431487359 | p02277 | u426534722 | 1517237990 | Python | Python3 | py | Runtime Error | 0 | 0 | 775 | import sys
readline = sys.stdin.readline
def partition(A, p, r):
x = A[r][1]
i = p - 1
for j in range(p, r):
if A[j][1] <= x:
i += 1
A[i], A[j] = A[j], A[i]
A[i + 1], A[r] = A[r], A[i + 1]
return i + 1
def quicksort(A, p, r):
if p < r:
q = partition(A, p, r)
quicksort(A, p, q - 1)
quicksort(A, q + 1, r)
def isStable(A):
for i in range(0, len(A) - 1):
if A[i][1] == A[i + 1][1]:
if A[i][2] > A[i + 1][2]:
return False
return True
n = int(input())
f = lambda a: (a[0], int(a[1]))
A = [f(readline().split()) + (i) for i in range(n)]
quicksort(A, 0, n - 1)
print("Stable" if isStable(A) else "Not stable")
print("\n".join(f"{a} {b}" for a, b, c in A))
|
s957918720 | p02277 | u177808190 | 1518527491 | Python | Python3 | py | Runtime Error | 20 | 5620 | 1092 | def partition(hoge, p, r):
x = int(hoge[r-1][1])
i = p-1
for j in range(p, len(hoge)):
if int(hoge[j][1]) <= x:
i += 1
tmp = hoge[i]
hoge[i] = hoge[j]
hoge[j] = tmp
return i
def qSort(hoge, p, r):
if p < r:
q = partition(hoge, p, r)
qSort(hoge, p, q-1)
qSort(hoge, q+1, r)
def isStable(input_array, output_array):
N = len(input_array)
for i in range(1, N-1):
for j in range(i+1, N):
for a in range(1, N-1):
for b in range(a+1, N):
if input_array[i][1] == output_array[j][1] and input_array[i] == output_array[b] and input_array[j] == output_array[a]:
return 'Not stable'
return 'Stable'
if __name__ == '__main__':
num = int(input())
hoge = list()
for _ in range(num):
c, s = input().split()
hoge.append(c+s)
origin = hoge[:]
qSort(hoge, 0, len(hoge))
print(isStable(origin, hoge))
print('\n'.join(['{0[0]} {0[1]}'.format(x) for x in hoge]))
|
s598690782 | p02277 | u150984829 | 1518841310 | Python | Python3 | py | Runtime Error | 0 | 0 | 471 | import sys
def t(A,p,r):
x=A[r][1];i=p-1
for j in range(p,r):
if A[j][1]<=x:i+=1;A[i],A[j]=A[j],A[i]
A[i+1],A[r]=A[r],A[i+1]
return i+1
def k(A,p,r):
if p<r:q=t(A,p,r);k(A,p,q-1);k(A,q+1,r)
def s(A):
for i in range(n-1):
if A[i][1]==A[i+1][1]:
if A[i][2]>A[i+1][2]:return 0
return 1
n=int(input())
f=lambda x,i:(x[0],int(x[1]),i)
A=[f(sys.stdin.readline().split(),i))for i in range(n)]
k(A,0,n-1)
print(['Not s','S'][s(A)]+'table')
for e in A:print(*e[:2])
|
s130648760 | p02277 | u150984829 | 1518843458 | Python | Python3 | py | Runtime Error | 0 | 0 | 445 | import sys
def t(A,p,r):
x=A[r][1];i=p-1
for j in range(p,r):
if A[j][1]<=x:i+=1;A[i],A[j]=A[j],A[i]
A[i+1],A[r]=A[r],A[i+1]
return i+1
def k(A,p,r):
if p<r:q=t(A,p,r);k(A,p,q-1);k(A,q+1,r)
def s(A):
for i in range(n-1):
if A[i][1]==A[i+1][1]and A[i][2]>A[i+1][2]:return'Not s'
return'S'
n=int(input())
A=[(e[0],int(e[2:]),i)for i,e in enumerate(sys.stdin)]
k(A,0,n-1)
print(s(A)+'table')
print("\n".join(f"{a} {b}"for a,b in A[:2]))
|
s354904776 | p02277 | u150984829 | 1520051083 | Python | Python3 | py | Runtime Error | 0 | 0 | 484 | import sys
def t(A,p,r):
x=A[r][1];i=p-1
for j in range(p,r):
if A[j][1]<=x:i+=1;A[i],A[j]=A[j],A[i]
A[i+1],A[r]=A[r],A[i+1]
return i+1
def k(A,p,r):
if p<r:q=t(A,p,r);k(A,p,q-1);k(A,q+1,r)
def s(A):
for i in range(n-1):
if A[i][1]==A[i+1][1]and A[i][2]>A[i+1][2]:return'Not s'
return'S'
def m():
n=int(input())
A=[(e[0],int(e[2:]),i)for i,e in enumerate(sys.stdin)]
k(A,0,n-1)
print(s(A)+'table')
print('\n'.join(f'{a} {b}'for a,b,_ in A))
if'__main__'==__name__:m()
|
s668807896 | p02277 | u328199937 | 1524621695 | Python | Python3 | py | Runtime Error | 20 | 5612 | 1246 | def partition(A, left, right):
p = left
r = right
x = A[r][1]
i = p - 1
for j in range(p, r):
if A[j][1] <= x:
i += 1
key = A[i]
A[i] = A[j]
A[j] = key
key = A[i + 1]
A[i + 1] = A[r]
A[r] = key
if i + 1 - left <= 1:
if right - (i + 1) == 1:
return i + 1, A[left:right + 1]
else:
return i + 1, A[left:i + 2]
else:
return i + 1, A[i + 1:i + 2]
def quickSort(A, left, right):
list = []
if left < right:
Q = partition(A, left, right)
q = Q[0]
list.extend(quickSort(A, left, q - 1))
list.extend(Q[1])
list.extend(quickSort(A, q + 1, right))
return list
def bubleSort(a):
for i in range(len(a)):
for j in range(len(a)-1, i, -1):
if a[j][1] < a[j-1][1]:
a[j], a[j-1] = a[j-1], a[j]
return a
n = int(input())
T = [('0', 0)]
for i in range(n):
a, b = map(str, input().split())
x = int(b)
T.append((a, x))
T1 = T[1:]
T2 = quickSort(T, 1, n)
if T2 == bubleSort(T1):
print('Stable')
else:
print('Not stable')
for i in range(n):
a = str(T2[1])
print(T2[i][0] + ' ' + str((T2[i][1])))
|
s489620411 | p02277 | u328199937 | 1524623224 | Python | Python3 | py | Runtime Error | 20 | 5616 | 1245 | def partition(A, left, right):
p = left
r = right
x = A[r][1]
i = p - 1
for j in range(p, r):
if A[j][1] <= x:
i += 1
key = A[i]
A[i] = A[j]
A[j] = key
key = A[i + 1]
A[i + 1] = A[r]
A[r] = key
if i + 1 - left <= 1:
if right - (i + 1) == 1:
return i + 1, A[left:right + 1]
else:
return i + 1, A[left:i + 2]
else:
return i + 1, A[i + 1:i + 2]
def quickSort(A, left, right):
list = []
if left < right:
Q = partition(A, left, right)
q = Q[0]
list.extend(quickSort(A, left, q - 1))
list.extend(Q[1])
list.extend(quickSort(A, q + 1, right))
return list
def bubleSort(a):
for i in range(len(a)):
for j in range(len(a)-1, i, -1):
if a[j][1] < a[j-1][1]:
a[j], a[j-1] = a[j-1], a[j]
return a
n = int(input())
T = [('0', 0)]
for i in range(n):
a, b = map(str, input().split())
x = int(b)
T.append((a, x))
T1 = T[1:]
T2 = quickSort(T, 1, n)
if T2 == bubleSort(T1):
print('Stable')
else:
print('Not stable')
for i in range(n):
a = str(T2[1])
print(T2[i][0] + ' ' + str((T2[i][1])))
|
s793887808 | p02277 | u255317651 | 1525354073 | Python | Python3 | py | Runtime Error | 20 | 5620 | 1038 | # -*- coding: utf-8 -*-
"""
Created on Thu May 3 21:24:25 2018
ALDS1_6_C
@author: maezawa
"""
a = []
n = int(input())
for i in range(n):
s = input().split()
a.append([s[0], int(s[1])])
a_in = a.copy()
def is_stable(a, b):
s = True
for i, card in enumerate(b):
if b[i+1][1] == b[i][1]:
j = a.index(card)
k = a.index(b[i+1])
if j > k:
s = False
return s
return s
def partition(a, p, r):
x = a[r][1]
i = p - 1
for j in range(p, r):
if a[j][1] <= x:
i += 1
temp = a[i]
a[i] = a[j]
a[j] = temp
temp = a[i+1]
a[i+1] = a[r]
a[r] = temp
return i+1
def quick_sort(a, p, r):
if p < r:
q = partition(a, p, r)
quick_sort(a, p, q-1)
quick_sort(a, q+1, r)
quick_sort(a, 0, len(a)-1)
if is_stable(a_in, a):
print('Stable')
else:
print('Not stable')
for i in range(len(a)):
print('{} {}'.format(a[i][0],a[i][1]))
|
s634911755 | p02277 | u684241248 | 1527768019 | Python | Python3 | py | Runtime Error | 0 | 0 | 1426 | INF = 10**10
def partition(ary, p, r):
x = ary[r][1]
i = p - 1
for j in range(p, r):
if ary[j][1] <= x:
i += 1
ary[i], ary[j] = ary[j], ary[i]
ary[i + 1], ary[r] = ary[r], ary[i + 1]
return i + 1
def quick_sort(ary, p, r):
if p < r:
q = partition(ary, p, r)
quick_sort(ary, p, q - 1)
quick_sort(ary, q + 1, r)
def merge(ary, left, mid, right):
lry = ary[left:mid]
rry = ary[mid:right]
lry.append(INF)
rry.append(INF)
i = 0
j = 0
for k in range(left, right):
if lry[i][1] <= rry[j][1]:
ary[k] = lry[i]
i += 1
else:
ary[k] = rry[j]
j += 1
return right - left
def merge_sort(ary, left, right):
cnt = 0
if left + 1 < right:
mid = (left + right) // 2
cnt += merge_sort(ary, left, mid)
cnt += merge_sort(ary, mid, right)
cnt += merge(ary, left, mid, right)
return cnt
if __name__ == '__main__':
import sys
from copy import deepcopy
n = int(input())
ary = []
for line in sys.stdin:
_ = line.strip().split()
ary.append((_[0], int(_[1])))
qary = deepcopy(ary)
mary = deepcopy(ary)
quick_sort(qary, 0, n - 1)
merge_sort(mary, 0, n)
if qary == mary:
print('Stable')
else:
print('Not stable')
[print(*_) for _ in qary]
|
s348669463 | p02277 | u007270338 | 1528091966 | Python | Python3 | py | Runtime Error | 30 | 6348 | 1142 | #coding:utf-8
from copy import deepcopy
n = int(input())
A = []
for i in range(n):
ch, num = input().split()
A.append([ch, int(num)])
B = deepcopy(A)
def Merge(A, left, mid, right):
L = A[left:mid]
R = A[mid:right]
L.append(["S",20000000])
R.append(["S",20000000])
i,j = 0,0
for k in range(left,right):
if L[i][1] <= R[j][1]:
A[k] = L[i]
i += 1
else:
A[k] = R[j]
j += 1
def MergeSort(A, left, right):
if left+1 < right:
mid = (left + right)//2
MergeSort(A, left, mid)
MergeSort(A, mid, right)
Merge(A, left, mid, right)
def partition(A, p, r):
x = A[r-1][1]
i = p-1
for j in range(p, r):
if A[j][1] <= x:
i += 1
A[i], A[j] = A[j], A[i]
return i
def quickSort(A, p, r):
if p < r:
q = partition(A, p, r)
quickSort(A, p, q)
quickSort(A, q+1, r)
quickSort(A, 0, n)
MergeSort(B, 0, n)
if A == B:
print("Stable")
else:
print("Not stable")
for a in A:
a = " ".join([a[0],str(a[1])])
print(a)
|
s575819031 | p02277 | u424720817 | 1530591818 | Python | Python3 | py | Runtime Error | 0 | 0 | 399 | n = int(input())
numbers = list(map(int, input().split()))
def main() :
x = numbers[n - 1]
i = 0
for j in range(n) :
if numbers[j] <= x :
numbers[i], numbers[j] = numbers[j], numbers[i]
i += 1
[print(numbers[j] if j != i - 1 else '['+str(numbers[j])+']', end = ' ' if j != n - 1 else '\n') for j in range(n)]
if __name__ == '__main__':
main()
|
s325639292 | p02277 | u912237403 | 1371352726 | Python | Python | py | Runtime Error | 20 | 4272 | 831 | def partition(A, p, r):
x = A[r]/10
i = p-1
for j in range(p, r):
if A[j]/10 <= x:
i += 1
A[i], A[j] = A[j], A[i]
i += 1
A[i], A[r] = A[r], A[i]
return i
def quicksort(A, p, r):
if p<r:
q = partition(A, p, r)
quicksort(A, p, q-1)
quicksort(A, q+1, r)
return
def order(A):
x = [0 for i in range(len(A))]
xp = 0
for i in range(max(A)):
for e in A:
if e/10 == i:
x[xp] = e
xp += 1
return x
n = int(input())
x = [[] for i in range(n)]
for i in range(n):
a, b = raw_input().split()
x[i] = int(b)*10 + 'SHDC'.index(a)
x1 = x + []
quicksort(x1, 0, n-1)
if order(x) == order(x1):
print 'Stable'
else:
print 'Not stable'
for e in x1:
print 'SHDC'[e % 10], e/10 |
s624856791 | p02277 | u912237403 | 1371365342 | Python | Python | py | Runtime Error | 0 | 0 | 846 | def partition(A, p, r):
x = A[r]/10
i = p-1
for j in range(p, r):
if A[j]/10 <= x:
i += 1
A[i], A[j] = A[j], A[i]
i += 1
A[i], A[r] = A[r], A[i]
print A,i,r
return i
def quicksort(A, p, r):
if p<r:
q = partition(A, p, r)
quicksort(A, p, q-1)
quicksort(A, q+1, r)
return
def bubblesort(A):
for i in range(len(A)):
for j in range(i+1,len(A))[::-1]:
if A[j] < A[j-1]:
A[j],A[j-1] = A[j-1], A[j]
return
n = int(input())
x = [[] for i in range(n)]
for i in range(n):
a, b = raw_input().split()
x[i] = int(b)*10 + 'SHDC'.index(a)
x1 = x + []
quicksort(x1, 0, n-1)
x2 = x + []
bubblesort(x2, 0, n-1)
if x1 == x2:
print 'Stable'
else:
print 'Not stable'
for e in x1:
print 'SHDC'[e % 10], e/10 |
s862778680 | p02278 | u440050957 | 1454083178 | Python | Python | py | Runtime Error | 0 | 0 | 673 | def get_weights():
input()
return raw_input().split()
#weights: list
def minimam_cost_sort(weights):
lol = []
for i in weights:
if i !=0:
j = i
l = [j]
while weights[j - 1] != 0:
l.append(weights[j - 1])
j = weights[j - 1]
weights[j - 1] = 0
l.sort()
lol.append(l)
lol.sort()
s = 0
for l in lol:
s += get_wol(l)
print s
def get_wol(l):
sub = (l[0] - 1) * (len(l) - 1) - (l[0] + 1) * 2
s = sum(l) + (l[0] * (len(l) - 2))
if sub > 0:
return s - sub
return s
minimam_cost_sort(get_weights()) |
s550878983 | p02278 | u440050957 | 1454083967 | Python | Python | py | Runtime Error | 10 | 6408 | 766 | def get_weights():
raw_input()
return map(int, raw_input().split())
#weights: list
def minimam_cost_sort(weights):
lol = []
for i in range(len(weights)):
if weights[i] !=0:
j = weights[i]
weights[i] = 0
l = [j]
while weights[j - 1] != 0:
l.append(weights[j - 1])
k = j
j = weights[k - 1]
weights[k - 1] = 0
l.sort()
lol.append(l)
lol.sort()
s = 0
for l in lol:
s += get_wol(l)
print s
def get_wol(l):
sub = (l[0] - 1) * (len(l) - 1) - (l[0] + 1) * 2
s = sum(l) + (l[0] * (len(l) - 2))
if sub > 0:
return s - sub
return s
minimam_cost_sort(get_weights()) |
s327720666 | p02278 | u567281053 | 1459614983 | Python | Python | py | Runtime Error | 20 | 6548 | 686 | import sys
def minimumCostSort(A):
B = sorted(A)
V = [False] * len(A)
T = [0] * 10000
ans = 0
s = min(A)
for i in range(len(A)):
T[B[i]] = i
for i in range(len(A)):
if V[i]:
continue
S = an = 0
j = i
m = 10000
while True:
V[j] = True
an += 1
v = A[j]
m = min(m, v)
S += v
j = T[v]
if V[j]:
break
ans += min(S + (an - 2) * m, m + S + (an + 1) * s)
return ans
if __name__ == "__main__":
lines = sys.stdin.readlines()
A = map(int, lines[1].split())
print minimumCostSort(A) |
s374806663 | p02278 | u742013327 | 1478840293 | Python | Python3 | py | Runtime Error | 20 | 7912 | 2401 | #http://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=ALDS1_6_D
#????°???????????????????
def partition(target_list, l, r):
x = target_list[r]
i = l - 1
for j in range(l, r):
if target_list[j] <= x:
i = i + 1
tmp = target_list[i]
target_list[i] = target_list[j]
target_list[j] = tmp
tmp = target_list[r]
target_list[r] = target_list[i + 1]
target_list[i + 1] = tmp
return i + 1
def quick_sort(target_list, l, r):
if l < r:
c = partition(target_list, l, r)
quick_sort(target_list, l, c - 1)
quick_sort(target_list, c + 1, r)
def processA(target_list, correct_list, i):
cost = 0
while not correct_list[i] == target_list[i]:
min_i = target_list.index(correct_list[i])
change_i = target_list.index(correct_list[min_i])
cost += (target_list[min_i] + target_list[change_i])
target_list[min_i], target_list[change_i] = target_list[change_i], target_list[min_i]
#print("A", target_list)
return cost
def processB(target_list, correct_list, i):
minv = correct_list[0]
target = correct_list[i]
if minv == target:
return 10 ** 9
cost = (minv + target)
#print(minv, target)
mmi = target_list.index(minv)
smi = target_list.index(target)
target_list[mmi], target_list[smi] = target_list[smi], target_list[mmi]
while not correct_list[i] == target_list[i]:
min_i = target_list.index(minv)
change_i = target_list.index(correct_list[min_i])
cost += (target_list[min_i] + target_list[change_i])
target_list[min_i], target_list[change_i] = target_list[change_i], target_list[min_i]
#print("B",target_list)
return cost
def minimum_cost_sort(target_list):
correct_list = [a for a in target_list]
quick_sort(correct_list, 0, len(correct_list) - 1)
cost = 0
i = 0
while not correct_list == target_list:
cost_b = processB([a for a in target_list], correct_list, i)
cost_a = processA(target_list, correct_list, i)
cost += min(cost_a, cost_b)
#print(cost_a, cost_b)
#print(target_list)
i += 1
return cost
def main():
n_list = input()
target_list = [int(s) for s in input().split()]
print(minimum_cost_sort(target_list))
if __name__ == "__main__":
main() |
s618661055 | p02278 | u022407960 | 1479897472 | Python | Python3 | py | Runtime Error | 20 | 7744 | 1141 | #!/usr/bin/env python
# -*- coding: utf-8 -*-
import sys
MAX_VALUE = 1e4
def min_cost_sort():
ans = 0
for i in range(array_length):
if check_order[i]:
continue
current_index = i
_sum, min_value, circle_size = 0, MAX_VALUE, 0
while True:
check_order[current_index] = True
circle_size += 1
current_value = array[current_index]
min_value = min(min_value, current_value)
_sum += current_value
current_index = kv_reverse[current_value]
if check_order[current_index]:
break
ans += min(_sum + (circle_size - 2) * min_value, _sum + min_value + (circle_size + 1) * _sum)
return ans
if __name__ == '__main__':
_input = sys.stdin.readlines()
array_length = int(_input[0])
array = list(map(int, _input[1].split()))
# assert len(array) == array_length
check_order = [False] * array_length
kv_reverse = [-1] * (array_length + 1)
compare_ans = sorted(array)
for j in range(array_length):
kv_reverse[compare_ans[j]] = j
print(min_cost_sort()) |
s813406616 | p02278 | u918276501 | 1508063320 | Python | Python3 | py | Runtime Error | 0 | 0 | 767 | def swap(A,i,j):
A[i],A[j] = A[j],A[i]
return A
def mincost(A):
B = sorted(A)
cost = 0
for i, bi in enumerate(B):
t = 0
j = A.index(bi)
tmp_cost = 0
# swap in a cyclic group
while j != i:
t += 1
bj = B[j]
k = A.index(bj)
tmp_cost += bi + bj
swap(A,j,k)
j = k
# diff. to swap with min(B)
dec = t * (bj - B[0])
inc = 2 * (bj + B[0])
if dec < inc:
cost += tmp_cost
else:
cost += tmp_cost - dec + inc
return cost
if __name__ == "__main__":
input()
A = list(map(int, input().strip().split()))
cost = mincost(A)
print(cost) |
s019119332 | p02278 | u957470671 | 1511917819 | Python | Python3 | py | Runtime Error | 20 | 5600 | 550 | # line = "4 3 2 1"
# L = [int(x) for x in line.split()]
# n = len(L)
n = int(input())
line = input()
L = [int(x) for x in line.split()]
flags = [False] * n
loops = []
for i, x in enumerate(L):
k = x - 1
if flags[k]:
continue
if i == k:
flags[i] = True
continue
loop = []
while x not in loop:
flags[k] = True
loop.append(x)
x = L[k]
k = x - 1
loops.append(loop)
cost = 0
for loop in loops:
m = min(loop)
cost += m * (len(loop)-1) + sum(loop) - m
print(cost) |
s416905491 | p02278 | u957470671 | 1511917903 | Python | Python3 | py | Runtime Error | 20 | 5604 | 480 | n = int(input())
line = input()
L = [int(x) for x in line.split()]
flags = [False] * n
loops = []
for i, x in enumerate(L):
k = x - 1
if flags[k]:
continue
if i == k:
flags[i] = True
continue
loop = []
while x not in loop:
flags[k] = True
loop.append(x)
x = L[k]
k = x - 1
loops.append(loop)
cost = 0
for loop in loops:
m = min(loop)
cost += m * (len(loop)-1) + sum(loop) - m
print(cost) |
s466438584 | p02278 | u426534722 | 1517324830 | Python | Python3 | py | Runtime Error | 0 | 0 | 579 | n = int(input())
A = list(map(int, input().split()))
s = min(A)
def solve():
ans = 0
V = [False] * n
# B = sorted(A)
# T = {B[i]: i for i in range(n)}
T = {B: i for i, B in enumerate(sorted(A))}
for i in range(n):
if V[i]:
continue
cur = i
S = an = 0
m = 10000
while not V[cur]:
V[cur] = True
an += 1
v = A[cur]
m = min(m, v)
S += v
cur = T[v]
ans += min(S + (an - 2) * m, m + S + (an + 1) * s)
return ans
print(solve())
|
s404025644 | p02278 | u150984829 | 1518977988 | Python | Python3 | py | Runtime Error | 0 | 0 | 226 | n=int(input())
a=list(map(int, input().split()))
b=sorted(a)
c=0
for i in range(n):
x=a.index(b[i])
j=0
while x > i:
j+=1
y=a.index(b[x])
c+=a[b]
a[x],a[y]=a[y],a[x]
x=y
c+=min(b[i]*j,b[i]*2+b[0]*(j+2))
print(c)
|
s676599596 | p02278 | u500386459 | 1519402405 | Python | Python3 | py | Runtime Error | 0 | 0 | 1208 | let quick_sort a n cmp =
let swap i j = let tmp = a.(i) in a.(i) <- a.(j); a.(j) <- tmp in
let partition p r =
let i = ref p in
for j = p to r - 1 do
if cmp a.(j) a.(r) <= 0 then (swap !i j; incr i)
done;
swap !i r;
!i in
let rec doit p r =
if p >= r then () else
let q = partition p r in
doit p (q - 1);
doit (q + 1) r in
doit 0 (n - 1)
let calc_cost a n =
let b = Array.copy a in
quick_sort b n compare;
let t = Array.make (b.(n-1) + 1) 0 in
Array.iteri (fun i e -> t.(e) <- i) b;
let p = Array.make n false in
let rec cycle i acc =
p.(i) <- true;
let j = t.(a.(i)) in
if p.(j) then a.(i) :: acc
else cycle j (a.(i) :: acc) in
let cycle i = cycle i [] in
let rec doit i acc =
if i = n then acc
else if p.(i) then doit (i + 1) acc
else
let ws = cycle i in
let m = List.length ws in
let s = List.fold_left (+) 0 ws in
let z = List.fold_left min max_int ws in
doit (i + 1) (acc + (min (s + (m - 2)*z) (s + z + (m + 1)*b.(0)))) in
doit 0 0
let () =
let n = read_int () in
let a = Array.init n (fun _ -> Scanf.scanf "%d " (fun e -> e)) in
calc_cost a n |> Printf.printf "%d\n"
|
s092462832 | p02278 | u500386459 | 1519402412 | Python | Python | py | Runtime Error | 0 | 0 | 1208 | let quick_sort a n cmp =
let swap i j = let tmp = a.(i) in a.(i) <- a.(j); a.(j) <- tmp in
let partition p r =
let i = ref p in
for j = p to r - 1 do
if cmp a.(j) a.(r) <= 0 then (swap !i j; incr i)
done;
swap !i r;
!i in
let rec doit p r =
if p >= r then () else
let q = partition p r in
doit p (q - 1);
doit (q + 1) r in
doit 0 (n - 1)
let calc_cost a n =
let b = Array.copy a in
quick_sort b n compare;
let t = Array.make (b.(n-1) + 1) 0 in
Array.iteri (fun i e -> t.(e) <- i) b;
let p = Array.make n false in
let rec cycle i acc =
p.(i) <- true;
let j = t.(a.(i)) in
if p.(j) then a.(i) :: acc
else cycle j (a.(i) :: acc) in
let cycle i = cycle i [] in
let rec doit i acc =
if i = n then acc
else if p.(i) then doit (i + 1) acc
else
let ws = cycle i in
let m = List.length ws in
let s = List.fold_left (+) 0 ws in
let z = List.fold_left min max_int ws in
doit (i + 1) (acc + (min (s + (m - 2)*z) (s + z + (m + 1)*b.(0)))) in
doit 0 0
let () =
let n = read_int () in
let a = Array.init n (fun _ -> Scanf.scanf "%d " (fun e -> e)) in
calc_cost a n |> Printf.printf "%d\n"
|
s561586851 | p02278 | u138546245 | 1524566688 | Python | Python3 | py | Runtime Error | 20 | 5648 | 2243 | def partition(li, p, r):
"""Separate li with a value of li[r].
Returns index of the partition value.
>>> ax = [13, 19, 9, 5, 12, 8, 7, 4, 21, 2, 6, 11]
>>> partition(ax, 0, 11)
7
>>> ax
[9, 5, 8, 7, 4, 2, 6, 11, 21, 13, 19, 12]
"""
x = li[r]
i = p - 1
for j in range(p, r):
if li[j] <= x:
i += 1
li[i], li[j] = li[j], li[i]
i += 1
li[i], li[r] = li[r], li[i]
return i
def quicksort(li, p, r):
"""sort li by quick sort algorithm.
>>> li = [3, 2, 1, 3, 2, 1]
>>> quicksort(li, 0, 5)
>>> li
[1, 1, 2, 2, 3, 3]
"""
if p < r:
q = partition(li, p, r)
quicksort(li, p, q-1)
quicksort(li, q+1, r)
def min_cost(li1, li2):
"""calculate minimum cost to transform li1 into li2.
>>> min_cost([1, 5, 3, 4, 2], [1, 2, 3, 4, 5])
7
>>> min_cost([4, 3, 2, 1], [1, 2, 3, 4])
10
"""
def find_moves(i, j):
start = i
elems = [i]
mincost = li1[i]
minidx = 0
while j != start:
if mincost > li1[j]:
mincost = li1[j]
minidx = len(elems)
elems.append(j)
j = li2.index(li1[j])
elems = elems[minidx+1:] + elems[:minidx+1]
if 2 * (mincost + li1[mini]) < (len(elems) - 1) * (mincost - li1[mini]):
elems.append(mini)
elems.insert(0, mini)
q = elems.pop()
p = elems.pop()
yield (p, q)
while len(elems) > 0:
q = p
p = elems.pop()
yield (p, q)
def move(i, j):
cost = 0
for p, q in find_moves(i, j):
li1[p], li1[q] = li1[q], li1[p]
cost += li1[p] + li1[q]
return cost
assert len(li1) == len(li2)
size = len(li1)
totalcost = 0
for i in reversed(range(size)):
if li1[i] != li2[i]:
mini = li1.index(li2[0])
totalcost += move(li1.index(li2[i]), i)
return totalcost
def run():
_ = int(input()) # flake8: noqa
li = [int(i) for i in input().split()]
sli = li[:]
quicksort(sli, 0, len(li)-1)
print(min_cost(li, sli))
if __name__ == '__main__':
run()
|
s538963761 | p02278 | u318430977 | 1528817706 | Python | Python3 | py | Runtime Error | 20 | 5612 | 1290 | def partition(a, p, r):
x = a[r]
i = p - 1
for j in range(p, r):
if a[j] <= x:
i += 1
tmp = a[i]
a[i] = a[j]
a[j] = tmp
tmp = a[i+1]
a[i+1] = a[r]
a[r] = tmp
return i + 1
def quick_sort(a, p, r):
if p < r:
q = partition(a, p, r)
quick_sort(a, p, q-1)
quick_sort(a, q+1, r)
def make_cyclic(w, v):
flags = [True] * len(w)
cyclics = []
for i in range(len(w)):
if flags[i]:
flags[i] = False
cycle = [w[i]]
now = w[i]
while True:
j = v.index(now)
if j == i:
break
cycle.append(w[j])
now = w[j]
flags[j] = False
cyclics.append(cycle)
return cyclics
def min_cost_sort(w):
v = w.copy()
quick_sort(v, 0, len(v) - 1)
cyclics = make_cyclic(w, v)
ans = 0
for cycle in cyclics:
inner_cycle = min(cycle) * (len(cycle) - 2) + sum(cycle)
outer_cycle = min(cycle) + min(set(w) - set(cycle)) * (len(cycle) + 1) + sum(cycle)
ans += min(inner_cycle, outer_cycle)
return ans
n = int(input())
w = [int(x) for x in input().split()]
print(min_cost_sort(w))
|
s616023301 | p02278 | u318430977 | 1528817986 | Python | Python3 | py | Runtime Error | 30 | 5624 | 1392 | def partition(a, p, r):
x = a[r]
i = p - 1
for j in range(p, r):
if a[j] <= x:
i += 1
tmp = a[i]
a[i] = a[j]
a[j] = tmp
tmp = a[i+1]
a[i+1] = a[r]
a[r] = tmp
return i + 1
def quick_sort(a, p, r):
if p < r:
q = partition(a, p, r)
quick_sort(a, p, q-1)
quick_sort(a, q+1, r)
def make_cyclic(w, v):
flags = [True] * len(w)
cyclics = []
for i in range(len(w)):
if flags[i]:
flags[i] = False
cycle = [w[i]]
now = w[i]
while True:
j = v.index(now)
if j == i:
break
cycle.append(w[j])
now = w[j]
flags[j] = False
cyclics.append(cycle)
return cyclics
def min_cost_sort(w):
v = w.copy()
quick_sort(v, 0, len(v) - 1)
cyclics = make_cyclic(w, v)
ans = 0
for cycle in cyclics:
inner_cycle = min(cycle) * (len(cycle) - 2) + sum(cycle)
if len(set(w) - set(cycle)) >= 1:
outer_cycle = min(cycle) + min(set(w) - set(cycle)) * (len(cycle) + 1) + sum(cycle)
else:
outer_cycle = inner_cycle + 1
ans += min(inner_cycle, outer_cycle)
return ans
n = int(input())
w = [int(x) for x in input().split()]
print(min_cost_sort(w))
|
s875012938 | p02279 | u153665391 | 1531230222 | Python | Python3 | py | Runtime Error | 0 | 0 | 1525 | N = int(input())
def get_parent(node):
parent = -1
if "parent" in node:
parent = node["parent"]
return parent
def get_depth(node):
depth = 0
while "parent" not in node:
depth += 1
parent = node["parent"]
node = rooted_tree[parent]
return depth
def get_node_type(node):
if "parent" in node:
return "root"
if "left" in node:
return "leaf"
return "internal node"
def get_children(node):
if "left" not in node:
return "[]"
left = node["left"]
siblings = []
siblings.append(str(left))
while rooted_tree[left]["right"] > -1:
right = rooted_tree[left]["right"]
siblings.append(str(right))
left = right
return "[{}]".format(", ".join(siblings))
rooted_tree = [{} for i in range(N)]
for id in range(N):
row = input()
_, degree, *children = list(map(int, row.split()))
if degree > 0:
rooted_tree[id]["left"] = children[0]
for i in range(len(children)):
child_id = children[i]
right = -1
if i < len(children)-1:
right = children[i+1]
rooted_tree[child_id]["right"] = right
rooted_tree[child_id]["parent"] = id
for id in range(N):
node = rooted_tree[id]
parent = get_parent(node)
depth = get_depth(node)
node_type = get_node_type(node)
children = get_children(node)
print("node {}: parent = {}, depth = {}, {}, {}".format(id, parent, depth, node_type, children))
|
s118951374 | p02279 | u153665391 | 1531436040 | Python | Python3 | py | Runtime Error | 20 | 5612 | 1701 | N = int(input())
def get_parent(node):
parent = -1
if "parent" in node:
parent = node["parent"]
return parent
def get_node_type(node):
if "parent" not in node:
return "root"
if "left" not in node:
return "leaf"
return "internal node"
def get_children(node):
if "left" not in node:
return "[]"
left = node["left"]
siblings = []
siblings.append(str(left))
while rooted_tree[left]["right"] > -1:
right = rooted_tree[left]["right"]
siblings.append(str(right))
left = right
return "[{}]".format(", ".join(siblings))
def rec(node_id, depth):
Depth[node_id] = str(depth)
if "right" in rooted_tree[node_id]:
rec(rooted_tree[node_id]["right"], depth)
if "left" in rooted_tree[node_id]:
rec(rooted_tree[node_id]["left"], depth+1)
rooted_tree = [{} for i in range(N)]
for _ in range(N):
row = input()
id, degree, *children = list(map(int, row.split()))
if degree > 0:
rooted_tree[id]["left"] = children[0]
for i in range(len(children)):
child_id = children[i]
right = -1
if i < len(children)-1:
right = children[i+1]
rooted_tree[child_id]["right"] = right
rooted_tree[child_id]["parent"] = id
root = 0
for i in range(N):
if "parent" not in rooted_tree[i]:
root == i
break
Depth = {}
rec(root, 0)
for id in range(N):
node = rooted_tree[id]
parent = get_parent(node)
node_type = get_node_type(node)
children = get_children(node)
print("node {}: parent = {}, depth = {}, {}, {}".format(id, parent, Depth[id], node_type, children))
|
s411722048 | p02279 | u657361950 | 1531707092 | Python | Python3 | py | Runtime Error | 0 | 0 | 2011 | import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
import java.util.Arrays;
import java.util.StringTokenizer;
public class Main {
static class Node {
int id;
int parentId;
int depth;
int[] children;
public Node(int id, int parentId) {
this.id = id;
this.parentId = parentId;
this.children = null;
this.depth = 0;
}
public void setChildlen(int[] childlen) {
this.children = childlen;
}
public void setParentId(int parentId) {
this.parentId = parentId;
}
public void setDepth(int depth) {
this.depth = depth;
}
private String getType() {
if (depth == 0) {
return "root";
}
if (children == null || children.length == 0) {
return "leaf";
}
return "internal node";
}
public String toString() {
StringBuilder sb = new StringBuilder();
sb.append("node " + id + ": ");
sb.append("parent = " + parentId + ", ");
sb.append("depth = " + depth + ", ");
sb.append(getType() + ", ");
sb.append(Arrays.toString(children));
return sb.toString();
}
}
public static void main(String[] args) throws IOException {
BufferedReader reader = new BufferedReader(new InputStreamReader(System.in));
int n = Integer.parseInt(reader.readLine());
Node[] nodes = new Node[n];
for (int i = 0; i < n; i++) {
StringTokenizer st = new StringTokenizer(reader.readLine());
int id = Integer.parseInt(st.nextToken());
if (nodes[id] == null) {
nodes[id] = new Node(id, -1);
}
int m = Integer.parseInt(st.nextToken());
int[] children = new int[m];
for (int j = 0; j < m; j++) {
int childId = Integer.parseInt(st.nextToken());
children[j] = childId;
if (nodes[childId] == null) {
nodes[childId] = new Node(childId, id);
} else {
nodes[childId].setParentId(id);
}
nodes[childId].setDepth(nodes[id].depth + 1);
}
nodes[id].setChildlen(children);
}
for (Node node : nodes) {
System.out.println(node);
}
}
}
|
s603592848 | p02279 | u657361950 | 1531790943 | Python | Python3 | py | Runtime Error | 0 | 0 | 1349 | class Node:
def __init__(self, id):
self.id = id
self.parent_id = -1
self.depth = -1
self.children = None
def get_type(self):
if self.parent_id == -1:
return 'root'
elif self.children == None or len(self.children) == 0:
return 'leaf'
return 'internal node'
def __str__(self):
strNode = 'node ' + str(self.id) + ': '
strNode += 'parent = ' + str(self.parent_id) + ', '
strNode += 'depth = ' + str(self.depth) + ', '
strNode += self.get_type() + ', ['
if len(self.children) > 0:
strNode += str(self.children[0])
for i in range(1, len(self.children)):
strNode += ', ' + str(self.children[i])
strNode += ']'
return strNode
def calc_depth(nodes):
stack = []
for i in range(len(nodes)):
if nodes[i].parent_id == -1:
nodes[i].depth = 0
stack.append(nodes[i].id)
break
while len(stack) != 0:
node = nodes[stack.pop()]
for i in range(len(node.children)):
child_id = node.children[i]
nodes[child_id].depth = node.depth + 1
stack.append(child_id)
n = int(input())
nodes = [Node(i) for i in range(n)]
for i in range(n):
a = list(map(int, input().split()))
id = a[0]
m = a[1]
children = [0] * m
for j in range(m):
child_id = a[2 + j]
child = nodes[child_id]
child.parent_id = id
children[j] = child_id
nodes[id].children = children
calc_depth(nodes)
for i in range(n):
|
s474523829 | p02279 | u637322311 | 1535099929 | Python | Python3 | py | Runtime Error | 20 | 5612 | 1125 | from sys import stdin
class Node(object):
def __init__(self, parent=None, children=None, name=None, depth=None):
self.parent = parent
self.children = children
self.name = name
self.depth = depth
def set_depth(nodes, u):
p = nodes[u].parent
d = nodes[p].depth
if d != None and p != -1:
nodes[u].depth = d + 1
def read_rooted_tree(n, nodes):
for _ in range(n):
i = [int(i) for i in stdin.readline().strip().split()]
c = i[2:len(i)]
nodes[i[0]].children = c
if nodes[i[0]].name != "root":
if c:
nodes[i[0]].name = "internal node"
else:
nodes[i[0]].name = "leaf"
for j in nodes[i[0]].children:
nodes[j].parent = i[0]
set_depth(nodes, i[0])
n = int(input())
nodes = [Node() for _ in range(n)]
nodes[0].parent = -1
nodes[0].depth = 0
nodes[0].name = "root"
read_rooted_tree(n, nodes)
for i in range(n):
print("node {0}: parent = {1}, depth = {2}, {3}, {4}".format(
i, nodes[i].parent, nodes[i].depth, nodes[i].name, nodes[i].children))
|
s016238642 | p02279 | u487861672 | 1535698209 | Python | Python3 | py | Runtime Error | 20 | 5608 | 898 | #! /usr/local/bin/python3
# coding: utf-8
class Node():
def __init__(self, parent=-1, child=[]):
self.parent = parent
self.child = child
def node_depth(u, id):
if u[id].parent == -1:
return 0
else:
return node_depth(u, u[id].parent) + 1
def node_type(u, id):
if u[id].parent == -1:
return "root"
elif u[id].child == []:
return "leaf"
else:
return "internal node"
def main():
n = int(input())
u = [Node() for _ in range(n)]
for i in range(n):
_, _, *child = (int(x) for x in input().split())
u[i].child = child
for c in child:
u[c].parent = i
for i in range(n):
print("node {}: parent = {}, depth = {}, {}, {}".
format(i, u[i].parent,
node_depth(u, i), node_type(u, i),
u[i].child))
main()
|
s077990586 | p02279 | u487861672 | 1535698304 | Python | Python3 | py | Runtime Error | 20 | 5616 | 987 | #! /usr/local/bin/python3
# coding: utf-8
from sys import setrecursionlimit
setrecursionlimit(21)
class Node():
def __init__(self, parent=-1, child=[]):
self.parent = parent
self.child = child
def node_depth(u, id):
if u[id].parent == -1:
return 0
else:
return node_depth(u, u[id].parent) + 1
def node_type(u, id):
if u[id].parent == -1:
return "root"
elif u[id].child == []:
return "leaf"
else:
return "internal node"
def main():
n = int(input())
u = [Node() for _ in range(n)]
for i in range(n):
_, _, *child = (int(x) for x in input().split())
u[i].child = child
for c in child:
u[c].parent = i
for i in range(n):
print("node {}: parent = {}, depth = {}, {}, {}".
format(i, u[i].parent,
node_depth(u, i), node_type(u, i),
u[i].child))
if __name__ == '__main__':
main()
|
s356769780 | p02279 | u487861672 | 1535698327 | Python | Python3 | py | Runtime Error | 20 | 5620 | 987 | #! /usr/local/bin/python3
# coding: utf-8
from sys import setrecursionlimit
setrecursionlimit(22)
class Node():
def __init__(self, parent=-1, child=[]):
self.parent = parent
self.child = child
def node_depth(u, id):
if u[id].parent == -1:
return 0
else:
return node_depth(u, u[id].parent) + 1
def node_type(u, id):
if u[id].parent == -1:
return "root"
elif u[id].child == []:
return "leaf"
else:
return "internal node"
def main():
n = int(input())
u = [Node() for _ in range(n)]
for i in range(n):
_, _, *child = (int(x) for x in input().split())
u[i].child = child
for c in child:
u[c].parent = i
for i in range(n):
print("node {}: parent = {}, depth = {}, {}, {}".
format(i, u[i].parent,
node_depth(u, i), node_type(u, i),
u[i].child))
if __name__ == '__main__':
main()
|
s510482477 | p02279 | u487861672 | 1535975339 | Python | Python3 | py | Runtime Error | 20 | 5616 | 1410 | class Node():
NIL = -1
def __init__(self, parent=NIL, left=NIL, right=NIL, depth=-1):
self.parent = parent
self.left = left
self.right = right
self.depth = depth
def read_nodes(T):
for _ in range(len(T)):
id, _, *child = [int(x) for x in input().split()]
for i, c in enumerate(child):
if i == 0:
T[id].left = c
else:
T[l].right = c
l = c
T[c].parent = id
def calc_depth(T):
def rec(r, p):
nonlocal T
T[r].depth = p
if T[r].right != Node.NIL:
rec(T[r].right, p)
if T[r].left != Node.NIL:
rec(T[r].left, p + 1)
rec([u.parent for u in T].index(-1), 0)
def node_type(T, id):
if T[id].parent == Node.NIL:
return "root"
elif T[id].left == Node.NIL:
return "leaf"
else:
return "internal node"
def child(T, id):
c = []
i = T[id].left
while i != Node.NIL:
c.append(i)
i = T[i].right
return c
def print_nodes(T):
for id in range(len(T)):
print("node {}: parent = {}, depth = {}, {}, {}".
format(id, T[id].parent, T[id].depth,
node_type(T, id), child(T, id)))
def main():
n = int(input())
T = [Node() for _ in range(n)]
read_nodes(T)
calc_depth(T)
print_nodes(T)
main()
|
s766638627 | p02279 | u487861672 | 1535975667 | Python | Python3 | py | Runtime Error | 0 | 0 | 1481 | from sys import setrecursionlimit
setrecursionlimit(1000)
class Node():
NIL = -1
def __init__(self, parent=NIL, left=NIL, right=NIL, depth=-1):
self.parent = parent
self.left = left
self.right = right
self.depth = depth
def read_nodes(T):
for _ in range(len(T)):
id, _, *child = [int(x) for x in input().split()]
for i, c in enumerate(child):
if i == 0:
T[id].left = c
else:
T[l].right = c
l = c
T[c].parent = id
def calc_depth(T):
def rec(r, p):
nonlocal T
T[r].depth = p
if T[r].right != Node.NIL:
rec(T[r].right, p)
if T[r].left != Node.NIL:
rec(T[r].left, p + 1)
rec([u.parent for u in T].index(-1), 0)
def node_type(T, id):
if T[id].parent == Node.NIL:
return "root"
elif T[id].left == Node.NIL:
return "leaf"
else:
return "internal node"
def child(T, id):
c = []
i = T[id].left
while i != Node.NIL:
c.append(i)
i = T[i].right
return c
def print_nodes(T):
for id in range(len(T)):
print("node {}: parent = {}, depth = {}, {}, {}".
format(id, T[id].parent, T[id].depth,
node_type(T, id), child(T, id)))
def main():
n = int(input())
T = [Node() for _ in range(n)]
read_nodes(T)
calc_depth(T)
print_nodes(T)
main()
|
s195783752 | p02279 | u487861672 | 1535975690 | Python | Python3 | py | Runtime Error | 20 | 5620 | 1472 | from sys import setrecursionlimit
setrecursionlimit(1000)
class Node():
NIL = -1
def __init__(self, parent=NIL, left=NIL, right=NIL, depth=-1):
self.parent = parent
self.left = left
self.right = right
self.depth = depth
def read_nodes(T):
for _ in range(len(T)):
id, _, *child = [int(x) for x in input().split()]
for i, c in enumerate(child):
if i == 0:
T[id].left = c
else:
T[l].right = c
l = c
T[c].parent = id
def calc_depth(T):
def rec(r, p):
nonlocal T
T[r].depth = p
if T[r].right != Node.NIL:
rec(T[r].right, p)
if T[r].left != Node.NIL:
rec(T[r].left, p + 1)
rec([u.parent for u in T].index(-1), 0)
def node_type(T, id):
if T[id].parent == Node.NIL:
return "root"
elif T[id].left == Node.NIL:
return "leaf"
else:
return "internal node"
def child(T, id):
c = []
i = T[id].left
while i != Node.NIL:
c.append(i)
i = T[i].right
return c
def print_nodes(T):
for id in range(len(T)):
print("node {}: parent = {}, depth = {}, {}, {}".
format(id, T[id].parent, T[id].depth,
node_type(T, id), child(T, id)))
def main():
n = int(input())
T = [Node() for _ in range(n)]
read_nodes(T)
calc_depth(T)
print_nodes(T)
main()
|
s780475739 | p02279 | u487861672 | 1535975734 | Python | Python3 | py | Runtime Error | 20 | 5620 | 1474 | from sys import setrecursionlimit
setrecursionlimit(200000)
class Node():
NIL = -1
def __init__(self, parent=NIL, left=NIL, right=NIL, depth=-1):
self.parent = parent
self.left = left
self.right = right
self.depth = depth
def read_nodes(T):
for _ in range(len(T)):
id, _, *child = [int(x) for x in input().split()]
for i, c in enumerate(child):
if i == 0:
T[id].left = c
else:
T[l].right = c
l = c
T[c].parent = id
def calc_depth(T):
def rec(r, p):
nonlocal T
T[r].depth = p
if T[r].right != Node.NIL:
rec(T[r].right, p)
if T[r].left != Node.NIL:
rec(T[r].left, p + 1)
rec([u.parent for u in T].index(-1), 0)
def node_type(T, id):
if T[id].parent == Node.NIL:
return "root"
elif T[id].left == Node.NIL:
return "leaf"
else:
return "internal node"
def child(T, id):
c = []
i = T[id].left
while i != Node.NIL:
c.append(i)
i = T[i].right
return c
def print_nodes(T):
for id in range(len(T)):
print("node {}: parent = {}, depth = {}, {}, {}".
format(id, T[id].parent, T[id].depth,
node_type(T, id), child(T, id)))
def main():
n = int(input())
T = [Node() for _ in range(n)]
read_nodes(T)
calc_depth(T)
print_nodes(T)
main()
|
s153622781 | p02279 | u487861672 | 1535976010 | Python | Python3 | py | Runtime Error | 20 | 5616 | 1474 | from sys import setrecursionlimit
setrecursionlimit(100000)
class Node():
NIL = -1
def __init__(self, parent=NIL, left=NIL, right=NIL, depth=-1):
self.parent = parent
self.left = left
self.right = right
self.depth = depth
def read_nodes(T):
for _ in range(len(T)):
id, _, *child = [int(x) for x in input().split()]
for i, c in enumerate(child):
if i == 0:
T[id].left = c
else:
T[l].right = c
l = c
T[c].parent = id
def calc_depth(T):
def rec(r, p):
nonlocal T
T[r].depth = p
if T[r].right != Node.NIL:
rec(T[r].right, p)
if T[r].left != Node.NIL:
rec(T[r].left, p + 1)
rec([u.parent for u in T].index(-1), 0)
def node_type(T, id):
if T[id].parent == Node.NIL:
return "root"
elif T[id].left == Node.NIL:
return "leaf"
else:
return "internal node"
def child(T, id):
c = []
i = T[id].left
while i != Node.NIL:
c.append(i)
i = T[i].right
return c
def print_nodes(T):
for id in range(len(T)):
print("node {}: parent = {}, depth = {}, {}, {}".
format(id, T[id].parent, T[id].depth,
node_type(T, id), child(T, id)))
def main():
n = int(input())
T = [Node() for _ in range(n)]
read_nodes(T)
calc_depth(T)
print_nodes(T)
main()
|
s256653212 | p02279 | u487861672 | 1535976026 | Python | Python3 | py | Runtime Error | 20 | 5616 | 1473 | from sys import setrecursionlimit
setrecursionlimit(50000)
class Node():
NIL = -1
def __init__(self, parent=NIL, left=NIL, right=NIL, depth=-1):
self.parent = parent
self.left = left
self.right = right
self.depth = depth
def read_nodes(T):
for _ in range(len(T)):
id, _, *child = [int(x) for x in input().split()]
for i, c in enumerate(child):
if i == 0:
T[id].left = c
else:
T[l].right = c
l = c
T[c].parent = id
def calc_depth(T):
def rec(r, p):
nonlocal T
T[r].depth = p
if T[r].right != Node.NIL:
rec(T[r].right, p)
if T[r].left != Node.NIL:
rec(T[r].left, p + 1)
rec([u.parent for u in T].index(-1), 0)
def node_type(T, id):
if T[id].parent == Node.NIL:
return "root"
elif T[id].left == Node.NIL:
return "leaf"
else:
return "internal node"
def child(T, id):
c = []
i = T[id].left
while i != Node.NIL:
c.append(i)
i = T[i].right
return c
def print_nodes(T):
for id in range(len(T)):
print("node {}: parent = {}, depth = {}, {}, {}".
format(id, T[id].parent, T[id].depth,
node_type(T, id), child(T, id)))
def main():
n = int(input())
T = [Node() for _ in range(n)]
read_nodes(T)
calc_depth(T)
print_nodes(T)
main()
|
s891273863 | p02279 | u487861672 | 1535976049 | Python | Python3 | py | Runtime Error | 30 | 5620 | 1473 | from sys import setrecursionlimit
setrecursionlimit(99999)
class Node():
NIL = -1
def __init__(self, parent=NIL, left=NIL, right=NIL, depth=-1):
self.parent = parent
self.left = left
self.right = right
self.depth = depth
def read_nodes(T):
for _ in range(len(T)):
id, _, *child = [int(x) for x in input().split()]
for i, c in enumerate(child):
if i == 0:
T[id].left = c
else:
T[l].right = c
l = c
T[c].parent = id
def calc_depth(T):
def rec(r, p):
nonlocal T
T[r].depth = p
if T[r].right != Node.NIL:
rec(T[r].right, p)
if T[r].left != Node.NIL:
rec(T[r].left, p + 1)
rec([u.parent for u in T].index(-1), 0)
def node_type(T, id):
if T[id].parent == Node.NIL:
return "root"
elif T[id].left == Node.NIL:
return "leaf"
else:
return "internal node"
def child(T, id):
c = []
i = T[id].left
while i != Node.NIL:
c.append(i)
i = T[i].right
return c
def print_nodes(T):
for id in range(len(T)):
print("node {}: parent = {}, depth = {}, {}, {}".
format(id, T[id].parent, T[id].depth,
node_type(T, id), child(T, id)))
def main():
n = int(input())
T = [Node() for _ in range(n)]
read_nodes(T)
calc_depth(T)
print_nodes(T)
main()
|
s084869984 | p02279 | u609159835 | 1546151307 | Python | Python3 | py | Runtime Error | 0 | 0 | 1427 | #include<stdio.h>
#include<stdlib.h>
#define MAX 100000
#define NIL -1
typedef struct node {
int p;
int l;
int r;
} Node;
Node no[MAX];
int D[MAX];
void setDepth(int u, int p){
D[u] = p;
if(no[u].l != NIL){
setDepth(no[u].l, p + 1);
}
if (no[u].r != NIL){
setDepth(no[u].r, p);
}
}
void print(int u){
int i, c;
printf("node ");
printf("%d: ", u);
printf("parent = %d, ", no[u].p);
printf("depth = %d, ", D[u]);
if(no[u].p == NIL) printf("root, ");
else if (no[u].l == NIL ) printf("leaf, ");
else printf("internal node, ");
printf("[");
for(i = 0, c = no[u].l; c != NIL; i++, c = no[c].r){
if(i) printf(", ");
printf("%d", c);
}
printf("]");
printf("\n");
}
int main(){
int n, i, j, v, l = 0;
int tmp;
int a[10];
scanf("%d", &n);
/* initialize */
for(i = 0; i < n; i++){
no[i].p = no[i].l = no[i].r = NIL;
}
for(i = 0; i < n; i++){
int id, k;
scanf("%d%d", &id, &k);
for(j = 0; j < k; j++){
int c;
tmp = scanf("%d", &c);
if(j == 0) no[id].l = c;
else no[l].r = c;
l = c;
no[t].p = id;
}
}
int r;
for(i = 0; i < n; i++){
if(no[i].p == NIL) r = i;
}
setDepth(r, 0);
for(i = 0; i < n; i++) print(i);
return 0;
}
|
s467622726 | p02279 | u631142478 | 1559360041 | Python | Python3 | py | Runtime Error | 20 | 5620 | 1038 | class Node():
def __init__(self, p, l, r):
self.p = p
self.l = l
self.r = r
def rec(u, p):
D[u] = p
if T[u].r != -1:
rec(T[u].r, p)
if T[u].l != -1:
rec(T[u].l, p + 1)
N = int(input())
T = [Node(-1, -1, -1) for _ in range(N)]
D = [-1] * N
for i in range(N):
i, k, *cs = map(int, input().split())
for j, c in enumerate(cs):
if j == 0:
T[i].l = c
else:
T[l].r = c
l = c
T[c].p = i
for i, t in enumerate(T):
if t.p == -1:
r = i
rec(r, 0)
for i, t in enumerate(T):
cs = []
c = t.l
while c != -1:
cs.append(c)
c = T[c].r
if t.p == -1:
print('node {}: parent = {}, depth = {}, root, {}'
.format(i, t.p, D[i], cs))
elif t.l == -1:
print('node {}: parent = {}, depth = {}, leaf, {}'
.format(i, t.p, D[i], cs))
else:
print('node {}: parent = {}, depth = {}, internal node, {}'
.format(i, t.p, D[i], cs))
|
s235773555 | p02279 | u631142478 | 1559360112 | Python | Python3 | py | Runtime Error | 20 | 5624 | 1080 | import sys
sys.setrecursionlimit(10000)
class Node():
def __init__(self, p, l, r):
self.p = p
self.l = l
self.r = r
def rec(u, p):
D[u] = p
if T[u].r != -1:
rec(T[u].r, p)
if T[u].l != -1:
rec(T[u].l, p + 1)
N = int(input())
T = [Node(-1, -1, -1) for _ in range(N)]
D = [-1] * N
for i in range(N):
i, k, *cs = map(int, input().split())
for j, c in enumerate(cs):
if j == 0:
T[i].l = c
else:
T[l].r = c
l = c
T[c].p = i
for i, t in enumerate(T):
if t.p == -1:
r = i
rec(r, 0)
for i, t in enumerate(T):
cs = []
c = t.l
while c != -1:
cs.append(c)
c = T[c].r
if t.p == -1:
print('node {}: parent = {}, depth = {}, root, {}'
.format(i, t.p, D[i], cs))
elif t.l == -1:
print('node {}: parent = {}, depth = {}, leaf, {}'
.format(i, t.p, D[i], cs))
else:
print('node {}: parent = {}, depth = {}, internal node, {}'
.format(i, t.p, D[i], cs))
|
s086467730 | p02279 | u631142478 | 1559360131 | Python | Python3 | py | Runtime Error | 20 | 5624 | 1081 | import sys
sys.setrecursionlimit(100000)
class Node():
def __init__(self, p, l, r):
self.p = p
self.l = l
self.r = r
def rec(u, p):
D[u] = p
if T[u].r != -1:
rec(T[u].r, p)
if T[u].l != -1:
rec(T[u].l, p + 1)
N = int(input())
T = [Node(-1, -1, -1) for _ in range(N)]
D = [-1] * N
for i in range(N):
i, k, *cs = map(int, input().split())
for j, c in enumerate(cs):
if j == 0:
T[i].l = c
else:
T[l].r = c
l = c
T[c].p = i
for i, t in enumerate(T):
if t.p == -1:
r = i
rec(r, 0)
for i, t in enumerate(T):
cs = []
c = t.l
while c != -1:
cs.append(c)
c = T[c].r
if t.p == -1:
print('node {}: parent = {}, depth = {}, root, {}'
.format(i, t.p, D[i], cs))
elif t.l == -1:
print('node {}: parent = {}, depth = {}, leaf, {}'
.format(i, t.p, D[i], cs))
else:
print('node {}: parent = {}, depth = {}, internal node, {}'
.format(i, t.p, D[i], cs))
|
s592896594 | p02279 | u567380442 | 1421820075 | Python | Python3 | py | Runtime Error | 0 | 0 | 1370 | class Tree():
def __init__(self, root_id):
self.nodes = {root_id:Node(root_id)}
def add_node(self, parent_id, child_id):
child = Node(child_id, self.nodes[parent_id])
self.nodes[child.id] = child
class Node():
def __init__(self, id, parent = None):
self.id = id
self.parent = parent
self.children = []
if self.parent:
self.parent.children.append(self)
self.depth = self.parent.depth + 1
self.nodetype = 'leaf'
if self.parent.nodetype == 'leaf':
self.parent.nodetype = 'internal node'
else:
self.depth = 0
self.nodetype = 'root'
def walk(self):
yield self
for child in self.children:
for node in child.walk():
yield node
def __str__(self):
parent = self.parent.id if self.parent else -1
children = ' ,'.join([str(node.id) for node in self.children])
return 'node {}: parent = {}, depth = {}, {}, [{}]'.format(self.id, parent, self.depth, self.nodetype, children)
tree
n = int(input())
for i in range(n):
line = input().split()
id = int(line[0])
if i == 0:
tree = Tree(id)
for ci in map(int, line[2:]):
tree.add_node(id, ci)
for id in tree.nodes:
print( tree.nodes[id]) |
s645412441 | p02279 | u567380442 | 1421820259 | Python | Python3 | py | Runtime Error | 30 | 6752 | 1377 | class Tree():
def __init__(self, root_id):
self.nodes = {root_id:Node(root_id)}
def add_node(self, parent_id, child_id):
child = Node(child_id, self.nodes[parent_id])
self.nodes[child.id] = child
class Node():
def __init__(self, id, parent = None):
self.id = id
self.parent = parent
self.children = []
if self.parent:
self.parent.children.append(self)
self.depth = self.parent.depth + 1
self.nodetype = 'leaf'
if self.parent.nodetype == 'leaf':
self.parent.nodetype = 'internal node'
else:
self.depth = 0
self.nodetype = 'root'
def walk(self):
yield self
for child in self.children:
for node in child.walk():
yield node
def __str__(self):
parent = self.parent.id if self.parent else -1
children = ' ,'.join([str(node.id) for node in self.children])
return 'node {}: parent = {}, depth = {}, {}, [{}]'.format(self.id, parent, self.depth, self.nodetype, children)
tree = None
n = int(input())
for i in range(n):
line = input().split()
id = int(line[0])
if i == 0:
tree = Tree(id)
for ci in map(int, line[2:]):
tree.add_node(id, ci)
for id in tree.nodes:
print( tree.nodes[id]) |
s457390630 | p02279 | u253463900 | 1445866965 | Python | Python3 | py | Runtime Error | 40 | 7784 | 1638 | def Get_leafs_list(T, p):
l = p.l
ans = []
while(T[l].r != -1):
ans.append(T[l].r)
l = T[l].r
return ans
def rec(T,node, p):
T[node].d = p
if(T[node].r != -1):
rec(T,T[node].r, p)
if(T[node].l != -1):
rec(T,T[node].l, p+1)
class Node():
def __init__(self,i):
self.p = -1
self.l = -1
self.r = -1
self.d = 0
self.n = i
def Get_leafs_list(self,T):
l = self.l
if l != -1:
ans = [l]
else:
ans = []
while(T[l].r != -1):
ans.append(T[l].r)
l = T[l].r
return ans
def print_ans(self):
print("node",self.n, end=": ")
print("parent =",self.p, end=", ")
print('depth =',self.d, end=", ")
if self.l == -1 and self.p != -1:
print('leaf, []')
return
else:
if self.p == -1:
print("root",end=", ")
else :
print("internal node",end=", ")
ans = self.Get_leafs_list(T)
print(ans)
T = []
n = int(input())
for i in range(0,n):
T.append(Node(i))
for i in range(0,n):
data = [int(x) for x in input().split()]
k = data[0]
if(data[1] != 0): # node has leafs
for j in range(0,data[1]): #leafs
if j == 0:
T[k].l = data[2]
else:
T[l].r = data[2+j]
l = data[2+j]
T[l].p = data[0]
#get root
for x in range(0,n):
if(T[x].p == -1):
root = x
break
rec(T,root,0)
for x in T:
x.print_ans() |
s126259604 | p02279 | u881590806 | 1448767798 | Python | Python | py | Runtime Error | 20 | 6416 | 1328 | class Node:
def __init__(self, parent, left, right):
self.parent = parent
self.left = left
self.right = right
def get_type(self):
if self.parent == -1: return "root"
elif self.left == -1: return "leaf"
else: return "internal node"
def set_depth(u,d):
global D
global tree
D[u] = d
if not tree[u].right == -1:
set_depth(tree[u].right, d)
if not tree[u].left == -1:
set_depth(tree[u].left, d+1)
def print_tree(t,D):
for i in range(len(t)):
children = []
c = t[i].left
if not c == -1:
while True:
children.append(c)
c = t[c].right
if c == -1: break
print "node %s: parent = %s, depth = %s, %s, [%s]" % (i, t[i].parent, D[i], t[i].get_type(), ", ".join(map(str, children)))
n = int(raw_input())
tree = {}
for i in range(n):
tree[i] = Node(-1, -1, -1)
for _ in range(n):
entry = map(int, raw_input().strip().split(' '))
nid = entry[0]
n_child = entry[1]
for i in range(n_child):
if i == 0: tree[nid].left = entry[i+2]
else: tree[entry[i+1]].right = entry[i+2]
tree[entry[i+2]].parent = nid
r = -1
for i in range(n):
if tree[i].parent == -1: r = i
D = {}
set_depth(r, 0)
print_tree(tree, D) |
s122212381 | p02279 | u881590806 | 1448874506 | Python | Python | py | Runtime Error | 10 | 6500 | 1336 | class Node:
def __init__(self, parent, left, right):
self.parent = parent
self.left = left
self.right = right
def get_type(self):
if self.parent == -1: return "root"
elif self.left == -1: return "leaf"
else: return "internal node"
def set_depth(u,d):
global D
global tree
D[u] = d
if not tree[u].right == -1:
set_depth(tree[u].right, d)
if not tree[u].left == -1:
set_depth(tree[u].left, d+1)
def print_tree(t,D):
for i in range(len(t)):
children = []
c = t[i].left
if not c == -1:
while True:
children.append(c)
c = t[c].right
if c == -1: break
print "node %s: parent = %s, depth = %s, %s, [%s]" % (i, t[i].parent, D[i], t[i].get_type(), ", ".join(map(str, children)))
n = int(raw_input().strip())
tree = {}
for i in range(n):
tree[i] = Node(-1, -1, -1)
for _ in range(n):
entry = map(int, raw_input().strip().split(' '))
nid = entry[0]
n_child = entry[1]
for i in range(n_child):
if i == 0: tree[nid].left = entry[i+2]
else: tree[entry[i+1]].right = entry[i+2]
tree[entry[i+2]].parent = nid
r = -1
for i in range(n):
if tree[i].parent == -1: r = i
D = {}
set_depth(r, 0)
print_tree(tree, D) |
s809884429 | p02279 | u881590806 | 1448874959 | Python | Python | py | Runtime Error | 10 | 6332 | 1346 | class Node:
def __init__(self, parent, left, right):
self.parent = parent
self.left = left
self.right = right
def get_type(self):
if self.parent == -1: return "root"
elif self.left == -1: return "leaf"
else: return "internal node"
def set_depth(u,d):
global D
global tree
D[u] = d
while not tree[u].right == -1:
u = tree[u].right
D[u] = d
if not tree[u].left == -1:
set_depth(tree[u].left, d+1)
def print_tree(t,D):
for i in range(len(t)):
children = []
c = t[i].left
if not c == -1:
while True:
children.append(c)
c = t[c].right
if c == -1: break
print "node %s: parent = %s, depth = %s, %s, [%s]" % (i, t[i].parent, D[i], t[i].get_type(), ", ".join(map(str, children)))
n = int(raw_input().strip())
tree = {}
for i in range(n):
tree[i] = Node(-1, -1, -1)
for _ in range(n):
entry = map(int, raw_input().strip().split(' '))
nid = entry[0]
n_child = entry[1]
for i in range(n_child):
if i == 0: tree[nid].left = entry[i+2]
else: tree[entry[i+1]].right = entry[i+2]
tree[entry[i+2]].parent = nid
r = -1
for i in range(n):
if tree[i].parent == -1: r = i
D = {}
set_depth(r, 0)
print_tree(tree, D) |
s602830499 | p02279 | u797673668 | 1454172466 | Python | Python3 | py | Runtime Error | 20 | 7744 | 1134 | n = int(input())
tree = [None] * n
formatted_tree = [None] * n
def register_node(i, node, searching):
if not searching:
return False
for si, st in enumerate(searching[1]):
if st[0] == i:
searching[1][si] = node
return True
elif st[1]:
if register_node(i, node, st):
return True
return False
def format(node, parent, depth):
(i, cs) = node
cis = [format(c, i, depth + 1) for c in cs]
formatted_tree[i] = 'node {0}: parent = {1}, depth = {2}, {3}, [{4}]'.format(
i, parent, depth,
'root' if not depth else 'internal node' if cis else 'leaf',
', '.join(cis)
)
return str(i)
while n:
l = list(map(int, input().split()))
i, cs = l[0], l[2:]
node = (i, [(c, None) for c in cs])
for p in tree:
if register_node(i, node, p):
break
else:
tree[i] = node
for i, ci in enumerate(cs):
if tree[ci]:
cs[i] = tree[ci]
tree[ci] = None
n -= 1
format(next(filter(None, tree)), -1, 0)
for fn in formatted_tree:
print(fn) |
s582912421 | p02279 | u072053884 | 1454781859 | Python | Python3 | py | Runtime Error | 30 | 7804 | 1798 | """Rooted Trees."""
class Node:
def __init__(self, num, parent, rightSibling, *children):
self.id = num
self.parent = parent
self.rightSibling = rightSibling
self.children = list(children)
self.depth = 0
def showInfo(self):
print('node {0}: '.format(self.id), end = '')
print('parent = {0}, '.format(self.parent), end = '')
print('depth = {0}, '.format(self.depth), end = '')
if self.children and self.parent != -1:
print('internal node, ', end = '')
elif self.parent != -1:
print('leaf, ', end = '')
else:
print('root, ', end = '')
print('{0}'.format(self.children))
def setNode(num, k, *children):
if T[num]:
T[num].children = list(children)
else:
node = Node(num, -1, None, *children)
T[num] = node
if children:
for i, x in enumerate(children[:-1]):
if T[x]:
T[x].parent = num
T[x].rightSibling = children[i + 1]
else:
node = Node(x, num, children[i + 1])
T[x] = node
lastChild = children[-1]
if T[lastChild]:
T[lastChild].parent = num
else:
node = Node(lastChild, num, None)
T[lastChild] = node
def setDepth(u, p):
T[u].depth = p
if T[u].children:
setDepth(T[u].children[0], p + 1)
if T[u].rightSibling:
setDepth(T[u].rightSibling, p)
def findRoot(r):
if T[r].parent == -1:
return r
findRoot(T[r].parent)
import sys
n = int(sys.stdin.readline())
T = [None for i in range(n)]
for x in sys.stdin.readlines():
setNode(*list(map(int, x.split())))
r = findRoot(0)
setDepth(r, 0)
for x in T:
x.showInfo() |
s504083169 | p02279 | u072053884 | 1454783019 | Python | Python3 | py | Runtime Error | 20 | 7868 | 1813 | """Rooted Trees."""
class Node:
def __init__(self, num, parent, rightSibling, *children):
self.id = num
self.parent = parent
self.rightSibling = rightSibling
self.children = list(children)
self.depth = 0
def showInfo(self):
print('node {0}: '.format(self.id), end = '')
print('parent = {0}, '.format(self.parent), end = '')
print('depth = {0}, '.format(self.depth), end = '')
if self.children and self.parent != -1:
print('internal node, ', end = '')
elif self.parent != -1:
print('leaf, ', end = '')
else:
print('root, ', end = '')
print('{0}'.format(self.children))
def setNode(num, k, *children):
if T[num]:
T[num].children = list(children)
else:
node = Node(num, -1, None, *children)
T[num] = node
if children:
for i, x in enumerate(children[:-1]):
if T[x]:
T[x].parent = num
T[x].rightSibling = children[i + 1]
else:
node = Node(x, num, children[i + 1])
T[x] = node
lastChild = children[-1]
if T[lastChild]:
T[lastChild].parent = num
else:
node = Node(lastChild, num, None)
T[lastChild] = node
def setDepth(u, p):
T[u].depth = p
if T[u].children:
setDepth(T[u].children[0], p + 1)
if T[u].rightSibling != None:
setDepth(T[u].rightSibling, p)
def findRoot(r):
if T[r].parent == -1:
return r
return findRoot(T[r].parent)
import sys
n = int(sys.stdin.readline())
T = [None for i in range(n)]
for x in sys.stdin.readlines():
setNode(*list(map(int, x.split())))
r = findRoot(0)
setDepth(r, 0)
for x in T:
x.showInfo() |
s584455858 | p02279 | u072053884 | 1454783492 | Python | Python3 | py | Runtime Error | 660 | 90272 | 1844 | """Rooted Trees."""
class Node:
def __init__(self, num, parent, rightSibling, *children):
self.id = num
self.parent = parent
self.rightSibling = rightSibling
self.children = list(children)
self.depth = 0
def showInfo(self):
print('node {0}: '.format(self.id), end = '')
print('parent = {0}, '.format(self.parent), end = '')
print('depth = {0}, '.format(self.depth), end = '')
if self.children and self.parent != -1:
print('internal node, ', end = '')
elif self.parent != -1:
print('leaf, ', end = '')
else:
print('root, ', end = '')
print('{0}'.format(self.children))
def setNode(num, k, *children):
if T[num]:
T[num].children = list(children)
else:
node = Node(num, -1, None, *children)
T[num] = node
if children:
for i, x in enumerate(children[:-1]):
if T[x]:
T[x].parent = num
T[x].rightSibling = children[i + 1]
else:
node = Node(x, num, children[i + 1])
T[x] = node
lastChild = children[-1]
if T[lastChild]:
T[lastChild].parent = num
else:
node = Node(lastChild, num, None)
T[lastChild] = node
def setDepth(u, p):
T[u].depth = p
if T[u].children:
setDepth(T[u].children[0], p + 1)
if T[u].rightSibling != None:
setDepth(T[u].rightSibling, p)
def findRoot(r):
if T[r].parent == -1:
return r
return findRoot(T[r].parent)
import sys
sys.setrecursionlimit(100000)
n = int(sys.stdin.readline())
T = [None for i in range(n)]
for x in sys.stdin.readlines():
setNode(*list(map(int, x.split())))
r = findRoot(0)
setDepth(r, 0)
for x in T:
x.showInfo() |
s098971326 | p02279 | u072053884 | 1454783544 | Python | Python3 | py | Runtime Error | 570 | 90472 | 1845 | """Rooted Trees."""
class Node:
def __init__(self, num, parent, rightSibling, *children):
self.id = num
self.parent = parent
self.rightSibling = rightSibling
self.children = list(children)
self.depth = 0
def showInfo(self):
print('node {0}: '.format(self.id), end = '')
print('parent = {0}, '.format(self.parent), end = '')
print('depth = {0}, '.format(self.depth), end = '')
if self.children and self.parent != -1:
print('internal node, ', end = '')
elif self.parent != -1:
print('leaf, ', end = '')
else:
print('root, ', end = '')
print('{0}'.format(self.children))
def setNode(num, k, *children):
if T[num]:
T[num].children = list(children)
else:
node = Node(num, -1, None, *children)
T[num] = node
if children:
for i, x in enumerate(children[:-1]):
if T[x]:
T[x].parent = num
T[x].rightSibling = children[i + 1]
else:
node = Node(x, num, children[i + 1])
T[x] = node
lastChild = children[-1]
if T[lastChild]:
T[lastChild].parent = num
else:
node = Node(lastChild, num, None)
T[lastChild] = node
def setDepth(u, p):
T[u].depth = p
if T[u].children:
setDepth(T[u].children[0], p + 1)
if T[u].rightSibling != None:
setDepth(T[u].rightSibling, p)
def findRoot(r):
if T[r].parent == -1:
return r
return findRoot(T[r].parent)
import sys
sys.setrecursionlimit(1000000)
n = int(sys.stdin.readline())
T = [None for i in range(n)]
for x in sys.stdin.readlines():
setNode(*list(map(int, x.split())))
r = findRoot(0)
setDepth(r, 0)
for x in T:
x.showInfo() |
s695448265 | p02279 | u341533698 | 1454852279 | Python | Python | py | Runtime Error | 10 | 6488 | 1401 | import sys
n = int(raw_input())
#class of node
class Node:
def __init__(self):
self.p = -1
self.l = -1
self.r = -1
T = [ Node() for _ in xrange(n)] #info of u
D = [0] * n #depth of u
def printInfo(u):
#print 'node', u, ':',
#print 'parent = ', T[u].p, ',',
#print 'depth = ', D[u], ',',
print "node {}: parent = {}, depth = {},".format(u, T[u].p, D[u]) ,
if T[u].p == -1:
print 'root, ',
elif T[u].l == -1:
print 'leaf, ',
else:
print 'internal node, ',
#print '[',
sys.stdout.write("[")
c = T[u].l
i = 0
while c != -1:
if i > 0:
print ', ',
sys.stdout.write(str(c))
#print "{}".format(c),
c = T[c].r
i += 1
#print ']'
sys.stdout.write("]\n")
return 0
def rec(u, p):
D[u] = p
if T[u].r != -1:
rec(T[u].r, p)
if T[u].l != -1:
rec(T[u].l, p+1)
return
def main():
for i in xrange(n):
a = map(int, raw_input().split())
v = a[0]
d = a[1]
for j in xrange(d):
if j == 0:
T[v].l = a[j+2]
else:
T[l].r = a[j+2]
l = a[j+2]
T[a[j+2]].p = v
for i in xrange(n):
if T[i].p == -1:
r = i
rec(r, 0)
for i in xrange(n):
printInfo(i)
return 0
main() |
s312818756 | p02279 | u247976584 | 1454910478 | Python | Python3 | py | Runtime Error | 30 | 8184 | 1579 | from collections import deque, namedtuple
class RootedTree:
def __init__(self, t, n):
self.t = t
self.n = n
self.d = [-1] * n
def setDepth(self, u, p):
self.d[u] = p
if self.t[u].r != -1:
self.setDepth(self.t[u].r, p)
if self.t[u].l != -1:
self.setDepth(self.t[u].l, p + 1)
return(self.d)
def getChildren(self, u):
ret = []
c = self.t[u].l
while c != -1:
ret.append(c)
c = self.t[c].r
return(ret)
def printNode(self, i):
p_ = self.t[i].p
d_ = self.d[i]
c_ = self.getChildren(i)
if p_ == -1:
t_ = "root"
elif len(c_) == 0:
t_ = "leaf"
else:
t_ = "internal node"
print("node {}: parent = {}, depth = {}, {}, {}".format(i, p_, d_, t_, c_))
if __name__ == '__main__':
n = int(input().rstrip())
Node = namedtuple('Node', ['p', 'l', 'r'])
t = [Node(-1, -1, -1)] * n
r = -1
for i in range(n):
tmp = deque([int(i) for i in input().rstrip().split(" ")])
v = tmp.popleft()
d = tmp.popleft()
for j in range(d):
c = tmp.popleft()
if j == 0:
t[v] = t[v]._replace(l = c)
else:
t[l] = t[l]._replace(r = c)
l = c
t[c] = t[c]._replace(p = v)
for i in range(n):
if (t[i].p == -1):
r = i
x = RootedTree(t, n)
x.setDepth(r, 0)
for i in range(n):
x.printNode(i)
|
s536717301 | p02279 | u247976584 | 1454910836 | Python | Python3 | py | Runtime Error | 30 | 8204 | 1619 | from collections import deque, namedtuple
import sys
sys.setrecursionlimit(10000)
class RootedTree:
def __init__(self, t, n):
self.t = t
self.n = n
self.d = [-1] * n
def setDepth(self, u, p):
self.d[u] = p
if self.t[u].r != -1:
self.setDepth(self.t[u].r, p)
if self.t[u].l != -1:
self.setDepth(self.t[u].l, p + 1)
return(self.d)
def getChildren(self, u):
ret = []
c = self.t[u].l
while c != -1:
ret.append(c)
c = self.t[c].r
return(ret)
def printNode(self, i):
p_ = self.t[i].p
d_ = self.d[i]
c_ = self.getChildren(i)
if p_ == -1:
t_ = "root"
elif len(c_) == 0:
t_ = "leaf"
else:
t_ = "internal node"
print("node {}: parent = {}, depth = {}, {}, {}".format(i, p_, d_, t_, c_))
if __name__ == '__main__':
n = int(input().rstrip())
Node = namedtuple('Node', ['p', 'l', 'r'])
t = [Node(-1, -1, -1)] * n
r = -1
for i in range(n):
tmp = deque([int(i) for i in input().rstrip().split(" ")])
v = tmp.popleft()
d = tmp.popleft()
for j in range(d):
c = tmp.popleft()
if j == 0:
t[v] = t[v]._replace(l = c)
else:
t[l] = t[l]._replace(r = c)
l = c
t[c] = t[c]._replace(p = v)
for i in range(n):
if (t[i].p == -1):
r = i
x = RootedTree(t, n)
x.setDepth(r, 0)
for i in range(n):
x.printNode(i)
|
s470088129 | p02279 | u247976584 | 1454910942 | Python | Python3 | py | Runtime Error | 1060 | 63832 | 1620 | from collections import deque, namedtuple
import sys
sys.setrecursionlimit(100000)
class RootedTree:
def __init__(self, t, n):
self.t = t
self.n = n
self.d = [-1] * n
def setDepth(self, u, p):
self.d[u] = p
if self.t[u].r != -1:
self.setDepth(self.t[u].r, p)
if self.t[u].l != -1:
self.setDepth(self.t[u].l, p + 1)
return(self.d)
def getChildren(self, u):
ret = []
c = self.t[u].l
while c != -1:
ret.append(c)
c = self.t[c].r
return(ret)
def printNode(self, i):
p_ = self.t[i].p
d_ = self.d[i]
c_ = self.getChildren(i)
if p_ == -1:
t_ = "root"
elif len(c_) == 0:
t_ = "leaf"
else:
t_ = "internal node"
print("node {}: parent = {}, depth = {}, {}, {}".format(i, p_, d_, t_, c_))
if __name__ == '__main__':
n = int(input().rstrip())
Node = namedtuple('Node', ['p', 'l', 'r'])
t = [Node(-1, -1, -1)] * n
r = -1
for i in range(n):
tmp = deque([int(i) for i in input().rstrip().split(" ")])
v = tmp.popleft()
d = tmp.popleft()
for j in range(d):
c = tmp.popleft()
if j == 0:
t[v] = t[v]._replace(l = c)
else:
t[l] = t[l]._replace(r = c)
l = c
t[c] = t[c]._replace(p = v)
for i in range(n):
if (t[i].p == -1):
r = i
x = RootedTree(t, n)
x.setDepth(r, 0)
for i in range(n):
x.printNode(i)
|
s282886033 | p02279 | u247976584 | 1454911142 | Python | Python3 | py | Runtime Error | 1080 | 63852 | 1621 | from collections import deque, namedtuple
import sys
sys.setrecursionlimit(1000000)
class RootedTree:
def __init__(self, t, n):
self.t = t
self.n = n
self.d = [-1] * n
def setDepth(self, u, p):
self.d[u] = p
if self.t[u].r != -1:
self.setDepth(self.t[u].r, p)
if self.t[u].l != -1:
self.setDepth(self.t[u].l, p + 1)
return(self.d)
def getChildren(self, u):
ret = []
c = self.t[u].l
while c != -1:
ret.append(c)
c = self.t[c].r
return(ret)
def printNode(self, i):
p_ = self.t[i].p
d_ = self.d[i]
c_ = self.getChildren(i)
if p_ == -1:
t_ = "root"
elif len(c_) == 0:
t_ = "leaf"
else:
t_ = "internal node"
print("node {}: parent = {}, depth = {}, {}, {}".format(i, p_, d_, t_, c_))
if __name__ == '__main__':
n = int(input().rstrip())
Node = namedtuple('Node', ['p', 'l', 'r'])
t = [Node(-1, -1, -1)] * n
r = -1
for i in range(n):
tmp = deque([int(i) for i in input().rstrip().split(" ")])
v = tmp.popleft()
d = tmp.popleft()
for j in range(d):
c = tmp.popleft()
if j == 0:
t[v] = t[v]._replace(l = c)
else:
t[l] = t[l]._replace(r = c)
l = c
t[c] = t[c]._replace(p = v)
for i in range(n):
if (t[i].p == -1):
r = i
x = RootedTree(t, n)
x.setDepth(r, 0)
for i in range(n):
x.printNode(i)
|
s229368194 | p02279 | u247976584 | 1454911342 | Python | Python3 | py | Runtime Error | 1080 | 63404 | 1623 | from collections import deque, namedtuple
import sys
sys.setrecursionlimit(100000000)
class RootedTree:
def __init__(self, t, n):
self.t = t
self.n = n
self.d = [-1] * n
def setDepth(self, u, p):
self.d[u] = p
if self.t[u].r != -1:
self.setDepth(self.t[u].r, p)
if self.t[u].l != -1:
self.setDepth(self.t[u].l, p + 1)
return(self.d)
def getChildren(self, u):
ret = []
c = self.t[u].l
while c != -1:
ret.append(c)
c = self.t[c].r
return(ret)
def printNode(self, i):
p_ = self.t[i].p
d_ = self.d[i]
c_ = self.getChildren(i)
if p_ == -1:
t_ = "root"
elif len(c_) == 0:
t_ = "leaf"
else:
t_ = "internal node"
print("node {}: parent = {}, depth = {}, {}, {}".format(i, p_, d_, t_, c_))
if __name__ == '__main__':
n = int(input().rstrip())
Node = namedtuple('Node', ['p', 'l', 'r'])
t = [Node(-1, -1, -1)] * n
r = -1
for i in range(n):
tmp = deque([int(i) for i in input().rstrip().split(" ")])
v = tmp.popleft()
d = tmp.popleft()
for j in range(d):
c = tmp.popleft()
if j == 0:
t[v] = t[v]._replace(l = c)
else:
t[l] = t[l]._replace(r = c)
l = c
t[c] = t[c]._replace(p = v)
for i in range(n):
if (t[i].p == -1):
r = i
x = RootedTree(t, n)
x.setDepth(r, 0)
for i in range(n):
x.printNode(i)
|
s658952893 | p02279 | u247976584 | 1454911545 | Python | Python3 | py | Runtime Error | 1070 | 63844 | 1619 | from collections import deque, namedtuple
import sys
sys.setrecursionlimit(1000000000)
class RootedTree:
def __init__(self, t, n):
self.t = t
self.n = n
self.d = [-1] * n
def setDepth(self, u, p):
self.d[u] = p
if self.t[u].r != -1:
self.setDepth(self.t[u].r, p)
if self.t[u].l != -1:
self.setDepth(self.t[u].l, p + 1)
return(self.d)
def getChildren(self, u):
ret = []
c = self.t[u].l
while c != -1:
ret.append(c)
c = self.t[c].r
return(ret)
def printNode(self, i):
p_ = self.t[i].p
d_ = self.d[i]
c_ = self.getChildren(i)
if p_ == -1:
t_ = "root"
elif len(c_) == 0:
t_ = "leaf"
else:
t_ = "internal node"
print("node {}: parent = {}, depth = {}, {}, {}".format(i, p_, d_, t_, c_))
if __name__ == '__main__':
n = int(input().rstrip())
Node = namedtuple('Node', ['p', 'l', 'r'])
t = [Node(-1, -1, -1)] * n
r = -1
for i in range(n):
tmp = deque([int(i) for i in input().rstrip().split(" ")])
v = tmp.popleft()
d = tmp.popleft()
for j in range(d):
c = tmp.popleft()
if j == 0:
t[v] = t[v]._replace(l = c)
else:
t[l] = t[l]._replace(r = c)
l = c
t[c] = t[c]._replace(p = v)
for i in range(n):
if (t[i].p == -1):
r = i
x = RootedTree(t, n)
x.setDepth(r, 0)
for i in range(n):
x.printNode(i) |
s699996899 | p02279 | u963402991 | 1459994124 | Python | Python3 | py | Runtime Error | 0 | 0 | 999 |
class Node:
def __init__(self, num, parent, children):
self.id = num
self.parent = -1
self.depth = 0
self.type = None
self.children = children
def show_info(self):
print('node {0}: parent = {1}, depth = {2}, {3}, {4}'.format(self.id, self.parent, self.depth,self.type, self.children))
def set_node(i_s):
num, children = i_s[0], i_s[2:]
node = Node(num, -1, children)
T[num] = node
for n in children:
T[-1] -= n
def set_pdt(n_i, parent, depth):
node = T[n_i]
node.parent = parent
node.depth = depth
if node.children:
node.type = 'internal node'
for n in node.children:
set_pdt(n, n_i, depth + 1)
else:
node.type = 'leaf'
n = int(input())
tree = [list(map(int, input().split())) for i in range(n)]
T = [None] * n
T += [int(n * (n - 1) / 2)]
for i in range(n):
set_node(tree[i])
set_pdt(1, -1, 0)
T[0].type ='root'
for n in T[:-1]:
n.show_info() |
s476940978 | p02279 | u317901693 | 1477022668 | Python | Python3 | py | Runtime Error | 0 | 0 | 1603 | # -*- coding: utf-8 -*-
class Node(object):
# left????????¨??????????????????(leaf), right???s?????¨??????????????????????????????
# ???????????????????????????????????¨???????????´??????parent???-1?????????
def __init__(self, N):
self.p = [-1 for i in range(N)]
self.l = [-1 for i in range(N)]
self.r = [-1 for i in range(N)]
self.D = [-1 for i in range(N)]
def set_depth(self, u, p):
self.D[u] = p
if self.r[u] is not -1:
self.set_depth(self.r[u], p)
if self.l[u] is not -1:
self.set_depth(self.l[u], p+1)
def print_children(self, u):
children = []
flag = self.l[u]
while flag is not -1:
children.append(flag)
flag = self.r[flag]
return children
#f = open("input.txt")
#N = int(f.readline())
N = input()
T = Node(N)
for j in range(N):
#A = [int(i) for i in f.readline().split()]
A = [int(i) for i in input().readline().split()]
# left????±????
if len(A) > 2:
T.l[j] = A[2]
else:
T.l[j] = -1
# parent???right????±????
for index, i in enumerate(A[2:]):
if(A[-1] == i):
T.p[i], T.r[i] = A[0], -1
else:
T.p[i], T.r[i] = A[0], A[index+3]
T.set_depth(0, 0)
for i in range(N):
if T.p[i] is -1:
node = "root"
elif T.l[i] is -1:
node = "leaf"
else:
node = "internal node"
print("node {0}: parent = {1}, depth = {2}, {3}, {4}".format(i, T.p[i], T.D[i], node, T.print_children(i))) |
s074616888 | p02279 | u317901693 | 1477022784 | Python | Python3 | py | Runtime Error | 0 | 0 | 1303 | class Node(object):
def __init__(self, N):
self.p = [-1 for i in range(N)]
self.l = [-1 for i in range(N)]
self.r = [-1 for i in range(N)]
self.D = [-1 for i in range(N)]
def set_depth(self, u, p):
self.D[u] = p
if self.r[u] is not -1:
self.set_depth(self.r[u], p)
if self.l[u] is not -1:
self.set_depth(self.l[u], p+1)
def print_children(self, u):
children = []
flag = self.l[u]
while flag is not -1:
children.append(flag)
flag = self.r[flag]
return children
N = int(input())
T = Node(N)
for j in range(N):
A = [int(i) for i in input().readline().split()]
# left????±????
if len(A) > 2:
T.l[j] = A[2]
else:
T.l[j] = -1
# parent???right????±????
for index, i in enumerate(A[2:]):
if(A[-1] == i):
T.p[i], T.r[i] = A[0], -1
else:
T.p[i], T.r[i] = A[0], A[index+3]
T.set_depth(0, 0)
for i in range(N):
if T.p[i] is -1:
node = "root"
elif T.l[i] is -1:
node = "leaf"
else:
node = "internal node"
print("node {0}: parent = {1}, depth = {2}, {3}, {4}".format(i, T.p[i], T.D[i], node, T.print_children(i))) |
s562523852 | p02279 | u317901693 | 1477022822 | Python | Python3 | py | Runtime Error | 0 | 0 | 1251 | class Node(object):
def __init__(self, N):
self.p = [-1 for i in range(N)]
self.l = [-1 for i in range(N)]
self.r = [-1 for i in range(N)]
self.D = [-1 for i in range(N)]
def set_depth(self, u, p):
self.D[u] = p
if self.r[u] is not -1:
self.set_depth(self.r[u], p)
if self.l[u] is not -1:
self.set_depth(self.l[u], p+1)
def print_children(self, u):
children = []
flag = self.l[u]
while flag is not -1:
children.append(flag)
flag = self.r[flag]
return children
N = int(input())
T = Node(N)
for j in range(N):
A = [int(i) for i in input().readline().split()]
if len(A) > 2:
T.l[j] = A[2]
else:
T.l[j] = -1
for index, i in enumerate(A[2:]):
if(A[-1] == i):
T.p[i], T.r[i] = A[0], -1
else:
T.p[i], T.r[i] = A[0], A[index+3]
T.set_depth(0, 0)
for i in range(N):
if T.p[i] is -1:
node = "root"
elif T.l[i] is -1:
node = "leaf"
else:
node = "internal node"
print("node {0}: parent = {1}, depth = {2}, {3}, {4}".format(i, T.p[i], T.D[i], node, T.print_children(i))) |
s155269556 | p02279 | u317901693 | 1477023278 | Python | Python3 | py | Runtime Error | 0 | 0 | 1264 | class Node(object):
def __init__(self, N):
self.p = [-1 for i in range(N)]
self.l = [-1 for i in range(N)]
self.r = [-1 for i in range(N)]
self.D = [-1 for i in range(N)]
def set_depth(self, u, p):
self.D[u] = p
if self.r[u] is not -1:
self.set_depth(self.r[u], p)
if self.l[u] is not -1:
self.set_depth(self.l[u], p+1)
def print_children(self, u):
children = []
flag = self.l[u]
while flag is not -1:
children.append(flag)
flag = self.r[flag]
return children
N = int(input())
T = Node(N)
for j in range(N):
A = [int(i) for i in input().split()]
if len(A) > 2:
T.l[j] = A[2]
else:
T.l[j] = -1
for index, i in enumerate(A[2:]):
if(A[-1] == i):
T.p[i], T.r[i] = A[0], -1
else:
T.p[i], T.r[i] = A[0], A[index+3]
T.set_depth(T.p.index(None), 0)
for i in range(N):
if T.p[i] is -1:
node = "root"
elif T.l[i] is -1:
node = "leaf"
else:
node = "internal node"
print("node {0}: parent = {1}, depth = {2}, {3}, {4}".format(i, T.p[i], T.D[i], node, T.print_children(i))) |
s206480495 | p02279 | u317901693 | 1477024099 | Python | Python3 | py | Runtime Error | 20 | 7792 | 1522 | # -*- coding: utf-8 -*-
class Node(object):
# left????????¨??????????????????(leaf), right???s?????¨??????????????????????????????
# ???????????????????????????????????¨???????????´??????parent???-1?????????
def __init__(self, N):
self.p = [-1 for i in range(N)]
self.l = [-1 for i in range(N)]
self.r = [-1 for i in range(N)]
self.D = [0 for i in range(N)]
def set_depth(self, u, p):
self.D[u] = p
if self.r[u] is not -1:
self.set_depth(self.r[u], p)
if self.l[u] is not -1:
self.set_depth(self.l[u], p+1)
def print_children(self, u):
children = []
flag = self.l[u]
while flag is not -1:
children.append(flag)
flag = self.r[flag]
return children
N = int(input())
T = Node(N)
for j in range(N):
A = [int(i) for i in input().split()]
# left????±????
if len(A) > 2:
T.l[A[0]] = A[2]
else:
T.l[A[0]] = -1
# parent???right????±????
for index, i in enumerate(A[2:]):
if(A[-1] == i):
T.p[i], T.r[i] = A[0], -1
else:
T.p[i], T.r[i] = A[0], A[index+3]
T.set_depth(T.p.index(-1), 0)
for i in range(N):
if T.p[i] is -1:
node = "root"
elif T.l[i] is -1:
node = "leaf"
else:
node = "internal node"
print("node {0}: parent = {1}, depth = {2}, {3}, {4}".format(i, T.p[i], T.D[i], node, T.print_children(i))) |
s721720362 | p02279 | u317901693 | 1477032244 | Python | Python3 | py | Runtime Error | 0 | 0 | 1562 | # -*- coding: utf-8 -*-
import sys
sys.getrecursionlimit(10000)
class Node(object):
# left????????¨??????????????????(leaf), right???s?????¨??????????????????????????????
# ???????????????????????????????????¨???????????´??????parent???-1?????????
def __init__(self, N):
self.p = [-1 for i in range(N)]
self.l = [-1 for i in range(N)]
self.r = [-1 for i in range(N)]
self.D = [0 for i in range(N)]
def set_depth(self, u, p):
self.D[u] = p
if self.r[u] is not -1:
self.set_depth(self.r[u], p)
if self.l[u] is not -1:
self.set_depth(self.l[u], p+1)
def print_children(self, u):
children = []
flag = self.l[u]
while flag is not -1:
children.append(flag)
flag = self.r[flag]
return children
N = int(input())
T = Node(N)
for j in range(N):
A = [int(i) for i in input().split()]
# left????±????
if len(A) > 2:
T.l[A[0]] = A[2]
else:
T.l[A[0]] = -1
# parent???right????±????
for index, i in enumerate(A[2:]):
if(A[-1] == i):
T.p[i], T.r[i] = A[0], -1
else:
T.p[i], T.r[i] = A[0], A[index+3]
T.set_depth(T.p.index(-1), 0)
for i in range(N):
if T.p[i] is -1:
node = "root"
elif T.l[i] is -1:
node = "leaf"
else:
node = "internal node"
print("node {0}: parent = {1}, depth = {2}, {3}, {4}".format(i, T.p[i], T.D[i], node, T.print_children(i))) |
s601939799 | p02279 | u317901693 | 1477032355 | Python | Python3 | py | Runtime Error | 30 | 7844 | 1563 | # -*- coding: utf-8 -*-
import sys
sys.setrecursionlimit(10000)
class Node(object):
# left????????¨??????????????????(leaf), right???s?????¨??????????????????????????????
# ???????????????????????????????????¨???????????´??????parent???-1?????????
def __init__(self, N):
self.p = [-1 for i in range(N)]
self.l = [-1 for i in range(N)]
self.r = [-1 for i in range(N)]
self.D = [0 for i in range(N)]
def set_depth(self, u, p):
self.D[u] = p
if self.r[u] is not -1:
self.set_depth(self.r[u], p)
if self.l[u] is not -1:
self.set_depth(self.l[u], p+1)
def print_children(self, u):
children = []
flag = self.l[u]
while flag is not -1:
children.append(flag)
flag = self.r[flag]
return children
N = int(input())
T = Node(N)
for j in range(N):
A = [int(i) for i in input().split()]
# left????±????
if len(A) > 2:
T.l[A[0]] = A[2]
else:
T.l[A[0]] = -1
# parent???right????±????
for index, i in enumerate(A[2:]):
if(A[-1] == i):
T.p[i], T.r[i] = A[0], -1
else:
T.p[i], T.r[i] = A[0], A[index+3]
T.set_depth(T.p.index(-1), 0)
for i in range(N):
if T.p[i] is -1:
node = "root"
elif T.l[i] is -1:
node = "leaf"
else:
node = "internal node"
print("node {0}: parent = {1}, depth = {2}, {3}, {4}".format(i, T.p[i], T.D[i], node, T.print_children(i))) |
s276554044 | p02279 | u811733736 | 1480917355 | Python | Python3 | py | Runtime Error | 0 | 0 | 2133 | class Node(object):
def __init__(self, parent, left, right):
self.parent = parent # ????????????
self.left = left # ??????????????????????????????????????????
self.right = right # ??????????????????????????????????????´?????????
def get_depth(self):
if self.parent == None:
return 0
else:
depth = 1
t = Nodes[self.parent]
while t.parent != -1:
t = Nodes[t.parent]
depth += 1
return depth
def get_type(self):
if self.parent == -1:
return 'root'
elif self.left == None:
return 'leaf'
else:
return 'internal node'
def decode_node_data(n):
global Nodes
num_of_elem = len(n)
if num_of_elem < 2:
raise ValueError
elif num_of_elem == 2: # leaf
pass
else:
id, num_of_children = int(n[0]), int(n[1])
children = n[2:]
Nodes[id].left = int(children[0])
prev_child = None
for c in children:
Nodes[int(c)].parent = id
if prev_child != None:
Nodes[prev_child].right = int(c)
prev_child = int(c)
MAX_NODES = 20
Nodes = [Node(-1, None, None) for _ in range(MAX_NODES)]
if __name__ == '__main__':
# ??????????????\???
num_of_nodes = int(input())
node_data = []
for _ in range(num_of_nodes):
node_data.append(input().split(' '))
# ??¨????§£???
for n in node_data:
decode_node_data(n)
# ???????????¨???
for node_id in range(num_of_nodes):
type = Nodes[node_id].get_type()
children = []
if type != 'leaf':
c = Nodes[node_id].left
children.append(c)
while Nodes[c].right != None:
c = Nodes[c].right
children.append(c)
print('node {0}: parent = {1}, depth = {2}, {3}, [{4}]'.format(node_id, Nodes[node_id].parent, Nodes[node_id].get_depth(), type,
', '.join(map(str, children)))) |
s493841072 | p02279 | u811733736 | 1480917631 | Python | Python3 | py | Runtime Error | 30 | 7820 | 2195 |
class Node(object):
def __init__(self, parent, left, right):
self.parent = parent # ????????????
self.left = left # ??????????????????????????????????????????
self.right = right # ??????????????????????????????????????´?????????
def get_depth(self):
if self.parent == -1:
return 0
else:
depth = 1
t = Nodes[self.parent]
while t.parent != -1:
t = Nodes[t.parent]
depth += 1
return depth
def get_type(self):
if self.parent == -1:
return 'root'
elif self.left == None:
return 'leaf'
else:
return 'internal node'
def decode_node_data(n):
global Nodes
num_of_elem = len(n)
if num_of_elem < 2:
raise ValueError
elif num_of_elem == 2: # leaf
pass
else:
id, num_of_children = int(n[0]), int(n[1])
children = n[2:]
Nodes[id].left = int(children[0])
prev_child = None
for c in children:
Nodes[int(c)].parent = id
if prev_child != None:
Nodes[prev_child].right = int(c)
prev_child = int(c)
MAX_NODES = 20
Nodes = [Node(-1, None, None) for _ in range(MAX_NODES)]
if __name__ == '__main__':
# ??????????????\???
num_of_nodes = int(input())
node_data = []
for _ in range(num_of_nodes):
node_data.append(input().split(' '))
# ??¨????§£???
for n in node_data:
decode_node_data(n)
# ???????????¨???
for node_id in range(num_of_nodes):
type = Nodes[node_id].get_type()
children = []
if type != 'leaf':
if Nodes[node_id].left != None:
c = Nodes[node_id].left
children.append(c)
while Nodes[c].right != None:
c = Nodes[c].right
children.append(c)
print('node {0}: parent = {1}, depth = {2}, {3}, [{4}]'.format(node_id, Nodes[node_id].parent, Nodes[node_id].get_depth(), type,
', '.join(map(str, children)))) |
s035135719 | p02279 | u923668099 | 1484735458 | Python | Python3 | py | Runtime Error | 20 | 7872 | 1296 | import sys
nil = -1
class Node:
def __init__(self, p, l, r):
self.p = p
self.l = l
self.r = r
def depth_rec(u, p, depth):
depth[u] = p
if tree[u].r != nil:
depth_rec(tree[u].r, p, depth)
if tree[u].l != nil:
depth_rec(tree[u].l, p + 1, depth)
pass
n = int(sys.stdin.readline())
tree = [Node(nil, nil, nil) for i in range(n)]
depth = [0] * n
for i in range(n):
line = [int(i) for i in sys.stdin.readline().split()]
vertex = line[0]
for (j, c) in enumerate(line[2:]):
if j == 0:
tree[vertex].l = c
else:
tree[l].r = c
l = c
tree[c].p = vertex
'''
for i in range(n):
print(tree[i].p, tree[i].l, tree[i].r)
'''
for i in range(n):
if tree[i].p == nil:
root = i
depth_rec(root, 0, depth)
# print(depth)
for vtx in range(n):
print("node {}: parent = {}, depth = {}, ".format(vtx, tree[vtx].p, depth[vtx]), end = "")
if tree[vtx].p == nil:
print("root, ", end = "")
elif tree[vtx].l == nil:
print("leaf, ", end = "")
else:
print("internal node, ", end = "")
children = []
child = tree[vtx].l
while child != nil:
children.append(child)
child = tree[child].r
print(children) |
s160063647 | p02279 | u923668099 | 1484735617 | Python | Python3 | py | Runtime Error | 550 | 72936 | 1327 | import sys
sys.setrecursionlimit(10 ** 6)
nil = -1
class Node:
def __init__(self, p, l, r):
self.p = p
self.l = l
self.r = r
def depth_rec(u, p, depth):
depth[u] = p
if tree[u].r != nil:
depth_rec(tree[u].r, p, depth)
if tree[u].l != nil:
depth_rec(tree[u].l, p + 1, depth)
pass
n = int(sys.stdin.readline())
tree = [Node(nil, nil, nil) for i in range(n)]
depth = [0] * n
for i in range(n):
line = [int(i) for i in sys.stdin.readline().split()]
vertex = line[0]
for (j, c) in enumerate(line[2:]):
if j == 0:
tree[vertex].l = c
else:
tree[l].r = c
l = c
tree[c].p = vertex
'''
for i in range(n):
print(tree[i].p, tree[i].l, tree[i].r)
'''
for i in range(n):
if tree[i].p == nil:
root = i
depth_rec(root, 0, depth)
# print(depth)
for vtx in range(n):
print("node {}: parent = {}, depth = {}, ".format(vtx, tree[vtx].p, depth[vtx]), end = "")
if tree[vtx].p == nil:
print("root, ", end = "")
elif tree[vtx].l == nil:
print("leaf, ", end = "")
else:
print("internal node, ", end = "")
children = []
child = tree[vtx].l
while child != nil:
children.append(child)
child = tree[child].r
print(children) |
s045446283 | p02279 | u923668099 | 1484735679 | Python | Python3 | py | Runtime Error | 520 | 72808 | 1327 | import sys
sys.setrecursionlimit(10 ** 8)
nil = -1
class Node:
def __init__(self, p, l, r):
self.p = p
self.l = l
self.r = r
def depth_rec(u, p, depth):
depth[u] = p
if tree[u].r != nil:
depth_rec(tree[u].r, p, depth)
if tree[u].l != nil:
depth_rec(tree[u].l, p + 1, depth)
pass
n = int(sys.stdin.readline())
tree = [Node(nil, nil, nil) for i in range(n)]
depth = [0] * n
for i in range(n):
line = [int(i) for i in sys.stdin.readline().split()]
vertex = line[0]
for (j, c) in enumerate(line[2:]):
if j == 0:
tree[vertex].l = c
else:
tree[l].r = c
l = c
tree[c].p = vertex
'''
for i in range(n):
print(tree[i].p, tree[i].l, tree[i].r)
'''
for i in range(n):
if tree[i].p == nil:
root = i
depth_rec(root, 0, depth)
# print(depth)
for vtx in range(n):
print("node {}: parent = {}, depth = {}, ".format(vtx, tree[vtx].p, depth[vtx]), end = "")
if tree[vtx].p == nil:
print("root, ", end = "")
elif tree[vtx].l == nil:
print("leaf, ", end = "")
else:
print("internal node, ", end = "")
children = []
child = tree[vtx].l
while child != nil:
children.append(child)
child = tree[child].r
print(children) |
s084862864 | p02279 | u923668099 | 1484735830 | Python | Python3 | py | Runtime Error | 510 | 72812 | 1327 | import sys
sys.setrecursionlimit(10 ** 9)
nil = -1
class Node:
def __init__(self, p, l, r):
self.p = p
self.l = l
self.r = r
def depth_rec(u, p, depth):
depth[u] = p
if tree[u].r != nil:
depth_rec(tree[u].r, p, depth)
if tree[u].l != nil:
depth_rec(tree[u].l, p + 1, depth)
pass
n = int(sys.stdin.readline())
tree = [Node(nil, nil, nil) for i in range(n)]
depth = [0] * n
for i in range(n):
line = [int(i) for i in sys.stdin.readline().split()]
vertex = line[0]
for (j, c) in enumerate(line[2:]):
if j == 0:
tree[vertex].l = c
else:
tree[l].r = c
l = c
tree[c].p = vertex
'''
for i in range(n):
print(tree[i].p, tree[i].l, tree[i].r)
'''
for i in range(n):
if tree[i].p == nil:
root = i
depth_rec(root, 0, depth)
# print(depth)
for vtx in range(n):
print("node {}: parent = {}, depth = {}, ".format(vtx, tree[vtx].p, depth[vtx]), end = "")
if tree[vtx].p == nil:
print("root, ", end = "")
elif tree[vtx].l == nil:
print("leaf, ", end = "")
else:
print("internal node, ", end = "")
children = []
child = tree[vtx].l
while child != nil:
children.append(child)
child = tree[child].r
print(children) |
s462681322 | p02279 | u564398841 | 1486285587 | Python | Python3 | py | Runtime Error | 0 | 0 | 1187 | fin = open('sample.txt')
input = fin.readline
def main():
N = int(input())
A = [0] * N
node_info = [[-1, 0, 'internal node', None] for _ in range(int(1E5 + 1))]
for i in range(N):
A[i] = [int(i) for i in input().strip().split()]
for line in A:
if line[1] != 0:
node_info[line[0]][3] = line[2:]
for c in line[2:]:
node_info[c][0] = line[0]
for line in A:
pid = node_info[line[0]][0]
if pid == -1:
node_info[line[0]][2] = 'root'
else:
if node_info[line[0]][3] is None:
node_info[line[0]][2] = 'leaf'
if node_info[line[0]][3] is None:
node_info[line[0]][3] = ['']
depth = 0
while pid != -1:
depth += 1
pid = node_info[pid][0]
node_info[line[0]][1] = depth
for line in sorted(A, key=lambda a: a[0]):
print('node {}: parent = {}, depth = {}, {}, [{}]'.format(
line[0], node_info[line[0]][0],
node_info[line[0]][1], node_info[line[0]][2], ', '.join([str(i) for i in node_info[line[0]][3]]))
)
if __name__ == '__main__':
main() |
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