id
stringlengths 24
27
| content
stringlengths 37
384k
| max_stars_repo_path
stringlengths 51
51
|
|---|---|---|
condefects-python_data_1 | import sys
def main():
input = sys.stdin.readline
N = int(input())
P = [int(p) for p in input().strip().split()]
ans = []
def calc1(i):
if i <= 2:
return True
if P[i-3] % 2 != (i-2) % 2:
return True
ans.append(('B', i-1))
P[i-3], P[i-1] = P[i-1], P[i-3]
calc1(i-2)
return True
def calc2():
for i in range(1, N, 2):
if P[i-1] % 2 != i % 2:
ans.append(('A', i))
P[i-1], P[i] = P[i], P[i-1]
else:
return True
def calc3(n):
i = N
while P[i-1] != n:
i -= 1
while i != n:
ans.append(('B', i-2))
P[i-3], P[i-1] = P[i-1], P[i-3]
i -= 2
return True
for i in range(1, N+1):
if P[i-1] % 2 != i % 2:
calc1(i)
calc2()
for n in range(1, N+1):
calc3(n)
print(len(ans))
for a in ans:
print(*a)
if __name__ == '__main__':
main()
import sys
def main():
input = sys.stdin.readline
N = int(input())
P = [int(p) for p in input().strip().split()]
ans = []
def calc1(i):
if i <= 2:
return True
if P[i-3] % 2 != (i-2) % 2:
return True
ans.append(('B', i-2))
P[i-3], P[i-1] = P[i-1], P[i-3]
calc1(i-2)
return True
def calc2():
for i in range(1, N, 2):
if P[i-1] % 2 != i % 2:
ans.append(('A', i))
P[i-1], P[i] = P[i], P[i-1]
else:
return True
def calc3(n):
i = N
while P[i-1] != n:
i -= 1
while i != n:
ans.append(('B', i-2))
P[i-3], P[i-1] = P[i-1], P[i-3]
i -= 2
return True
for i in range(1, N+1):
if P[i-1] % 2 != i % 2:
calc1(i)
calc2()
for n in range(1, N+1):
calc3(n)
print(len(ans))
for a in ans:
print(*a)
if __name__ == '__main__':
main()
| ConDefects/ConDefects/Code/arc147_b/Python/42082334 |
condefects-python_data_2 | N = int(input())
P = list(map(int, input().split()))
A = list(range(1,N+1))
ans = []
B = [[] for _ in range(2)]
for i, p in enumerate(P):
if (p - i) % 2 == 0:
B[i % 2].append(i)
for i in range(len(B[0])):
b0, b1 = B[0][i], B[1][i]
if b0 > b1:
b0, b1 = b1, b0
while b0 + 1 < b1:
ans.append(("B", b1 - 2))
P[b1 - 2], P[b1] = P[b1], P[b1 - 2]
b1 -= 2
ans.append(("A", b0 + 1))
P[b0], P[b0 + 1] = P[b0 + 1], P[b0]
def e_sort():
flag = False
for i in range(0, N - 2, 2):
if P[i] > P[i + 2]:
P[i], P[i + 2] = P[i + 2], P[i]
ans.append(("B", i + 1))
flag = True
return flag
def o_sort():
flag = False
for i in range(1, N - 2, 2):
if P[i] > P[i + 2]:
P[i], P[i + 2] = P[i + 2], P[i]
ans.append(("B", i + 1))
flag = True
return flag
os = True
es = True
while P != A:
if es:
es = e_sort()
if os:
os = o_sort()
print(len(ans))
for a in ans:
print(*a)
N = int(input())
P = list(map(int, input().split()))
A = list(range(1,N+1))
ans = []
B = [[] for _ in range(2)]
for i, p in enumerate(P):
if (p - i) % 2 == 0:
B[i % 2].append(i)
for i in range(len(B[0])):
b0, b1 = B[0][i], B[1][i]
if b0 > b1:
b0, b1 = b1, b0
while b0 + 1 < b1:
ans.append(("B", b1 - 1))
P[b1 - 2], P[b1] = P[b1], P[b1 - 2]
b1 -= 2
ans.append(("A", b0 + 1))
P[b0], P[b0 + 1] = P[b0 + 1], P[b0]
def e_sort():
flag = False
for i in range(0, N - 2, 2):
if P[i] > P[i + 2]:
P[i], P[i + 2] = P[i + 2], P[i]
ans.append(("B", i + 1))
flag = True
return flag
def o_sort():
flag = False
for i in range(1, N - 2, 2):
if P[i] > P[i + 2]:
P[i], P[i + 2] = P[i + 2], P[i]
ans.append(("B", i + 1))
flag = True
return flag
os = True
es = True
while P != A:
if es:
es = e_sort()
if os:
os = o_sort()
print(len(ans))
for a in ans:
print(*a)
| ConDefects/ConDefects/Code/arc147_b/Python/45545981 |
condefects-python_data_3 | N = int(input())
A = list(map(int, input().split()))
st = ['o' if A[i]%2 == (i+1)%2 else 'x' for i in range(N)]
ng = st.count(0)
ans = []
for i in range(N):
flag = False
if st[i] == 'o':
q = [i]
for j in range(i+2, N, 2):
if st[j] == 'o':
q.append(j)
else:
flag = True
break
if not flag:
break
while q:
j = q.pop(-1)
A[j], A[j+2] = A[j+2], A[j]
st[j], st[j+2] = st[j+2], st[j]
ans.append(f'B {j+1}')
for i in range(0, N, 2):
if st[i] == 'o':
break
A[i], A[i+1] = A[i+1], A[i]
ans.append(f'A {i+1}')
for i in range(N, 0, -1):
p = A.index(i)
for j in range(i, p-1, 2):
A[j], A[j+2] = A[j+2], A[j]
ans.append(f'B {j+1}')
print(len(ans))
for a in ans:
print(a)
N = int(input())
A = list(map(int, input().split()))
st = ['o' if A[i]%2 == (i+1)%2 else 'x' for i in range(N)]
ng = st.count(0)
ans = []
for i in range(N):
flag = False
if st[i] == 'o':
q = [i]
for j in range(i+2, N, 2):
if st[j] == 'o':
q.append(j)
else:
flag = True
break
if not flag:
break
while q:
j = q.pop(-1)
A[j], A[j+2] = A[j+2], A[j]
st[j], st[j+2] = st[j+2], st[j]
ans.append(f'B {j+1}')
for i in range(0, N, 2):
if st[i] == 'o':
break
A[i], A[i+1] = A[i+1], A[i]
ans.append(f'A {i+1}')
for i in range(N, 0, -1):
p = A.index(i)
for j in range(p, i-1, 2):
A[j], A[j+2] = A[j+2], A[j]
ans.append(f'B {j+1}')
print(len(ans))
for a in ans:
print(a) | ConDefects/ConDefects/Code/arc147_b/Python/39591338 |
condefects-python_data_4 | MOD, MAXN = 998244353, 2 * pow(10, 5)
N = int(input())
p, inv = [1] * (MAXN + 10), [1] * (MAXN + 10)
p[1] = 2
for i in range(2, MAXN + 1):
p[i] = p[i - 1] * 2 % MOD
inv[i] = -(MOD // i) * inv[MOD % i] % MOD
ans, res = 2, 1
for i in range(1, N + 1):
res = res * (p[N] - p[i - 1] + MOD) % MOD * inv[i] % MOD
ans = (ans + res * (p[i] * inv[i + 1] + 1) % MOD) % MOD
print(ans)
MOD, MAXN = 998244353, 2 * pow(10, 5)
N = int(input())
p, inv = [1] * (MAXN + 10), [1] * (MAXN + 10)
p[1] = 2
for i in range(2, MAXN + 5):
p[i] = p[i - 1] * 2 % MOD
inv[i] = -(MOD // i) * inv[MOD % i] % MOD
ans, res = 2, 1
for i in range(1, N + 1):
res = res * (p[N] - p[i - 1] + MOD) % MOD * inv[i] % MOD
ans = (ans + res * (p[i] * inv[i + 1] + 1) % MOD) % MOD
print(ans)
| ConDefects/ConDefects/Code/arc146_c/Python/34191586 |
condefects-python_data_5 | def factorization(n):
arr = []
temp = n
for i in range(2, int(-(-n**0.5//1))+1):
if temp%i==0:
cnt=0
while temp%i==0:
cnt+=1
temp //= i
arr.append([i, cnt])
if temp!=1:
arr.append([temp, 1])
if arr==[]:
arr.append([n, 1])
return arr
n=int(input())
A=list(map(int,input().split()))
L=[]
s=set()
for i in range(n):
if A[i] not in s:
L.append(A[i])
s.add(A[i])
L=sorted(L)
ans=2
first=0
k=0
if len(L)!=1:
first=L[1]-L[0]
p=factorization(first)
k=len(p)
else:
ans=1
for i in range(k):
if ans==1:
break
for j in range(2,len(L)):
other=A[j]-A[0]
if other%p[i][0]!=0:
break
if j==len(L)-1:
ans=1
if first==1:
print(2)
elif len(L)==2:
print(1)
else:
print(ans)
def factorization(n):
arr = []
temp = n
for i in range(2, int(-(-n**0.5//1))+1):
if temp%i==0:
cnt=0
while temp%i==0:
cnt+=1
temp //= i
arr.append([i, cnt])
if temp!=1:
arr.append([temp, 1])
if arr==[]:
arr.append([n, 1])
return arr
n=int(input())
A=list(map(int,input().split()))
L=[]
s=set()
for i in range(n):
if A[i] not in s:
L.append(A[i])
s.add(A[i])
L=sorted(L)
ans=2
first=0
k=0
if len(L)!=1:
first=L[1]-L[0]
p=factorization(first)
k=len(p)
else:
ans=1
for i in range(k):
if ans==1:
break
for j in range(2,len(L)):
other=L[j]-L[0]
if other%p[i][0]!=0:
break
if j==len(L)-1:
ans=1
if first==1:
print(2)
elif len(L)==2:
print(1)
else:
print(ans) | ConDefects/ConDefects/Code/arc148_a/Python/44882552 |
condefects-python_data_6 | from math import gcd
n = int(input())
a = list(map(int,input().split()))
g = 0
for i in range (n-1):
g = gcd(g,abs(a[i]-a[i+1]))
if g >= 2:
ans = 1
else:
ans = 2
print(ans)
from math import gcd
n = int(input())
a = list(map(int,input().split()))
g = 0
for i in range (n-1):
g = gcd(g,abs(a[i]-a[i+1]))
if g >= 2 or g == 0:
ans = 1
else:
ans = 2
print(ans)
| ConDefects/ConDefects/Code/arc148_a/Python/42795362 |
condefects-python_data_7 | import math
n=int(input())
a=list(map(int,input().split()))
a=list(set(a))
a.sort()
l=len(a)
x=a[0]
for i in range(l):
a[i]-=x
x=a[-1]
for i in range(2,l):
x = math.gcd(a[i],x)
if x==1:
print(2)
else:
print(1)
import math
n=int(input())
a=list(map(int,input().split()))
a=list(set(a))
a.sort()
l=len(a)
x=a[0]
for i in range(l):
a[i]-=x
x=a[-1]
for i in range(1,l):
x = math.gcd(a[i],x)
if x==1:
print(2)
else:
print(1)
| ConDefects/ConDefects/Code/arc148_a/Python/44660957 |
condefects-python_data_8 | from math import gcd
n = int(input())
a = list(map(int, input().split()))
for i in range(n - 1):
if a[i] == a[i + 1]:
exit(print(1))
g = abs(a[0] - a[1])
for i in range(1, n - 1):
g = gcd(g, abs(a[1] - a[2]))
print(2 if g == 1 else 1)
from math import gcd
n = int(input())
a = list(map(int, input().split()))
for i in range(n - 1):
if a[i] == a[i + 1]:
exit(print(1))
g = abs(a[0] - a[1])
for i in range(1, n - 1):
g = gcd(g, abs(a[i] - a[i + 1]))
print(2 if g == 1 else 1) | ConDefects/ConDefects/Code/arc148_a/Python/44544084 |
condefects-python_data_9 | from math import gcd
import os
import sys
import numpy as np
def solve(inp):
n = inp[0]
m = inp[1]
ddd = inp[2:]
MOD = 998244353
n2 = 1 << n
INF = 1 << 60
def pop_count_32(n):
c = (n & 0x55555555) + ((n >> 1) & 0x55555555)
c = (c & 0x33333333) + ((c >> 2) & 0x33333333)
c = (c & 0x0f0f0f0f) + ((c >> 4) & 0x0f0f0f0f)
c = (c & 0x00ff00ff) + ((c >> 8) & 0x00ff00ff)
c = (c & 0x0000ffff) + ((c >> 16) & 0x0000ffff)
return c
def bit_length(n):
l = 0
while n:
n >>= 1
l += 1
return l
lcms = np.ones(n2, np.int64)
all_same = np.ones(n2, np.int64)
pop_count = np.zeros(n2, np.int64)
for i in range(1, n2):
lsb = i & -i
ot = lcms[i ^ lsb]
if ot == INF:
lcms[i] = INF
else:
d = ddd[bit_length(lsb) - 1]
g = gcd(ot, d)
if INF // ot <= d // g:
lcms[i] = INF
else:
lcms[i] = d // g * ot
all_same[i] = (m // lcms[i]) % MOD
pop_count[i] = pop_count_32(i)
facts = np.ones(n + 1, np.int64)
for i in range(2, n + 1):
facts[i] = facts[i - 1] * i % MOD
dp = np.zeros(n2, np.int64)
dp[0] = 1
for i in range(1, n2):
lsb = i & -i
j = i ^ lsb
k = j
res = all_same[lsb] * dp[j] % MOD
while k:
p = pop_count[k]
if p % 2 == 0:
res += all_same[k | lsb] * facts[p] % MOD * dp[j ^ k] % MOD
# print(f'+ i:{i:04b} j:{j:04b} k:{k:04b} p:{p}', all_same[k | lsb], facts[p], dp[j ^ k])
else:
res -= all_same[k | lsb] * facts[p] % MOD * dp[j ^ k] % MOD
# print(f'- i:{i:04b} j:{j:04b} k:{k:04b} p:{p}', all_same[k | lsb], facts[p], dp[j ^ k])
res %= MOD
k = (k - 1) & j
dp[i] = res
# print(dp)
return dp[-1]
SIGNATURE = '(i8[:],)'
if sys.argv[-1] == 'ONLINE_JUDGE':
from numba.pycc import CC
cc = CC('my_module')
cc.export('solve', SIGNATURE)(solve)
cc.compile()
exit()
if os.name == 'posix':
# noinspection PyUnresolvedReferences
from my_module import solve
else:
from numba import njit
solve = njit(SIGNATURE, cache=True)(solve)
print('compiled', file=sys.stderr)
inp = np.fromstring(sys.stdin.read(), dtype=np.int64, sep=' ')
ans = solve(inp)
print(ans)
from math import gcd
import os
import sys
import numpy as np
def solve(inp):
n = inp[0]
m = inp[1]
ddd = inp[2:]
MOD = 998244353
n2 = 1 << n
INF = 1 << 60
def pop_count_32(n):
c = (n & 0x55555555) + ((n >> 1) & 0x55555555)
c = (c & 0x33333333) + ((c >> 2) & 0x33333333)
c = (c & 0x0f0f0f0f) + ((c >> 4) & 0x0f0f0f0f)
c = (c & 0x00ff00ff) + ((c >> 8) & 0x00ff00ff)
c = (c & 0x0000ffff) + ((c >> 16) & 0x0000ffff)
return c
def bit_length(n):
l = 0
while n:
n >>= 1
l += 1
return l
lcms = np.ones(n2, np.int64)
all_same = np.ones(n2, np.int64)
pop_count = np.zeros(n2, np.int64)
for i in range(1, n2):
lsb = i & -i
ot = lcms[i ^ lsb]
if ot == INF:
lcms[i] = INF
else:
d = ddd[bit_length(lsb) - 1]
g = gcd(ot, d)
if float(INF) / d <= ot // g:
lcms[i] = INF
else:
lcms[i] = d // g * ot
all_same[i] = (m // lcms[i]) % MOD
pop_count[i] = pop_count_32(i)
facts = np.ones(n + 1, np.int64)
for i in range(2, n + 1):
facts[i] = facts[i - 1] * i % MOD
dp = np.zeros(n2, np.int64)
dp[0] = 1
for i in range(1, n2):
lsb = i & -i
j = i ^ lsb
k = j
res = all_same[lsb] * dp[j] % MOD
while k:
p = pop_count[k]
if p % 2 == 0:
res += all_same[k | lsb] * facts[p] % MOD * dp[j ^ k] % MOD
# print(f'+ i:{i:04b} j:{j:04b} k:{k:04b} p:{p}', all_same[k | lsb], facts[p], dp[j ^ k])
else:
res -= all_same[k | lsb] * facts[p] % MOD * dp[j ^ k] % MOD
# print(f'- i:{i:04b} j:{j:04b} k:{k:04b} p:{p}', all_same[k | lsb], facts[p], dp[j ^ k])
res %= MOD
k = (k - 1) & j
dp[i] = res
# print(dp)
return dp[-1]
SIGNATURE = '(i8[:],)'
if sys.argv[-1] == 'ONLINE_JUDGE':
from numba.pycc import CC
cc = CC('my_module')
cc.export('solve', SIGNATURE)(solve)
cc.compile()
exit()
if os.name == 'posix':
# noinspection PyUnresolvedReferences
from my_module import solve
else:
from numba import njit
solve = njit(SIGNATURE, cache=True)(solve)
print('compiled', file=sys.stderr)
inp = np.fromstring(sys.stdin.read(), dtype=np.int64, sep=' ')
ans = solve(inp)
print(ans)
| ConDefects/ConDefects/Code/abc236_h/Python/28807713 |
condefects-python_data_10 | N,M=map(int,input().split())
L=list(map(int,input().split()))
def isok(n):
dist=-1
count=0
for i in range(N):
if L[i]>n:
return False
if dist+1+L[i]>n:
dist=-1
count+=1
dist+=(1+L[i])
if count+1<=M:
return True
return False
left,right=0,10**10
while right-left>1:
mid=(right+left)//2
if isok(mid):
right=mid
else:
left=mid
print(right)
N,M=map(int,input().split())
L=list(map(int,input().split()))
def isok(n):
dist=-1
count=0
for i in range(N):
if L[i]>n:
return False
if dist+1+L[i]>n:
dist=-1
count+=1
dist+=(1+L[i])
if count+1<=M:
return True
return False
left,right=0,10**15
while right-left>1:
mid=(right+left)//2
if isok(mid):
right=mid
else:
left=mid
print(right) | ConDefects/ConDefects/Code/abc319_d/Python/45752844 |
condefects-python_data_11 | import sys
input = lambda: sys.stdin.readline().rstrip()
INF = 10**18
N,M = map(int,input().split())
L = list(map(int,input().split()))
def is_ok(arg):
nrow = 1
x = 0
for i in range(N):
if x == 0:
if x + L[i] <= arg:
x += L[i]
else:
nrow += 1
x = L[i]
else:
if x + L[i] + 1 <= arg:
x += L[i]+1
else:
nrow += 1
x = L[i]
if nrow <= M:
return True
else:
return False
def meguru_bisect(ng, ok):
'''
初期値のng,okを受け取り,is_okを満たす最小(最大)のokを返す
まずis_okを定義すべし
ng ok は とり得る最小の値-1 とり得る最大の値+1
最大最小が逆の場合はよしなにひっくり返す
'''
while (abs(ok - ng) > 1):
mid = (ok + ng) // 2
if is_ok(mid):
ok = mid
else:
ng = mid
return ok
ans = meguru_bisect(0,10**18)
print(ans)
import sys
input = lambda: sys.stdin.readline().rstrip()
INF = 10**18
N,M = map(int,input().split())
L = list(map(int,input().split()))
def is_ok(arg):
nrow = 1
x = 0
for i in range(N):
if L[i] > arg:
return False
if x == 0:
if x + L[i] <= arg:
x += L[i]
else:
nrow += 1
x = L[i]
else:
if x + L[i] + 1 <= arg:
x += L[i]+1
else:
nrow += 1
x = L[i]
if nrow <= M:
return True
else:
return False
def meguru_bisect(ng, ok):
'''
初期値のng,okを受け取り,is_okを満たす最小(最大)のokを返す
まずis_okを定義すべし
ng ok は とり得る最小の値-1 とり得る最大の値+1
最大最小が逆の場合はよしなにひっくり返す
'''
while (abs(ok - ng) > 1):
mid = (ok + ng) // 2
if is_ok(mid):
ok = mid
else:
ng = mid
return ok
ans = meguru_bisect(0,10**18)
print(ans) | ConDefects/ConDefects/Code/abc319_d/Python/45778019 |
condefects-python_data_12 | n, m = map(int, input().split())
word_lengths = list(map(int, input().split()))
total_chars = sum(word_lengths) + (n - 1)
left, right = max(max(word_lengths), (total_chars + m - 1) // m), total_chars
while left < right:
mid = (left + right) // 2
lines_needed, current_line_length = 1, 0
for length in word_lengths:
if current_line_length + length <= mid:
current_line_length += length + 1
else:
lines_needed += 1
current_line_length = length + 1
if lines_needed <= m:
right = mid
else:
left = mid + 1
print(left)
n, m = map(int, input().split())
word_lengths = list(map(int, input().split()))
total_chars = sum(word_lengths) + (n - 1)
left, right = max(word_lengths), total_chars
while left < right:
mid = (left + right) // 2
lines_needed, current_line_length = 1, 0
for length in word_lengths:
if current_line_length + length <= mid:
current_line_length += length + 1
else:
lines_needed += 1
current_line_length = length + 1
if lines_needed <= m:
right = mid
else:
left = mid + 1
print(left)
| ConDefects/ConDefects/Code/abc319_d/Python/45943488 |
condefects-python_data_13 | import heapq
import itertools
from collections import deque
from sys import stdin
N, M = map(int, input().split())
L = list(map(int, input().split()))
for i in range(N):
L[i] += 1
ok = 10 ** 15
ng = -1
def check(num):
wordLen = -1
wordLines = 1
for i in range(N):
if wordLen+L[i] > num:
wordLen = -1
wordLines += 1
wordLen += L[i]
if wordLines <= M:
return True
else:
return False
while ok-ng >= 2:
srch = (ng+ok)//2
c = check(srch)
if c:
ok = srch
else:
ng = srch
# print(ok, ng)
ans = ng+1
print(ans)
import heapq
import itertools
from collections import deque
from sys import stdin
N, M = map(int, input().split())
L = list(map(int, input().split()))
for i in range(N):
L[i] += 1
ok = 10 ** 15
ng = max(L) - 2
def check(num):
wordLen = -1
wordLines = 1
for i in range(N):
if wordLen+L[i] > num:
wordLen = -1
wordLines += 1
wordLen += L[i]
if wordLines <= M:
return True
else:
return False
while ok-ng >= 2:
srch = (ng+ok)//2
c = check(srch)
if c:
ok = srch
else:
ng = srch
# print(ok, ng)
ans = ng+1
print(ans)
| ConDefects/ConDefects/Code/abc319_d/Python/45753057 |
condefects-python_data_14 | n, m = map(int, input().split())
L = list(map(int, input().split()))
left, right = max(L), sum(L)
while left < right:
mid = (left + right) // 2
cur = 0
level = 0
# print("lr", left, right, mid)
flag = False
for i in range(n):
# print("lc", level, cur, L[i])
if L[i] > mid:
left = mid + 1
flag = True
break
if cur + L[i] > mid:
level += 1
cur = 0
cur += L[i] + 1
if level >= m:
left = mid + 1
flag = True
break
if not flag:
right = mid
print(right)
n, m = map(int, input().split())
L = list(map(int, input().split()))
left, right = max(L), sum(L) + len(L)
while left < right:
mid = (left + right) // 2
cur = 0
level = 0
# print("lr", left, right, mid)
flag = False
for i in range(n):
# print("lc", level, cur, L[i])
if L[i] > mid:
left = mid + 1
flag = True
break
if cur + L[i] > mid:
level += 1
cur = 0
cur += L[i] + 1
if level >= m:
left = mid + 1
flag = True
break
if not flag:
right = mid
print(right)
| ConDefects/ConDefects/Code/abc319_d/Python/45926522 |
condefects-python_data_15 | n, m = map(int, input().split())
l = list(map(int, input().split()))
def search(width: int) -> bool:
length = 0
lines = 1
for e in l:
if length > 0:
length += 1
if length + e > width:
lines += 1
length = 0
count = 0
length += e
# print(width, lines)
return lines <= m
ok = 1 << 60
ng = max(l)
while abs(ok - ng) > 1:
mid = (ok + ng) // 2
if search(mid):
ok = mid
else:
ng = mid
print(ok)
n, m = map(int, input().split())
l = list(map(int, input().split()))
def search(width: int) -> bool:
length = 0
lines = 1
for e in l:
if length > 0:
length += 1
if length + e > width:
lines += 1
length = 0
count = 0
length += e
# print(width, lines)
return lines <= m
ok = 1 << 60
ng = max(l) - 1
while abs(ok - ng) > 1:
mid = (ok + ng) // 2
if search(mid):
ok = mid
else:
ng = mid
print(ok) | ConDefects/ConDefects/Code/abc319_d/Python/45764630 |
condefects-python_data_16 | condition = list(map(int, input().split()))
word_lengths = list(map(int, input().split()))
# # 単語数
# N = condition[0]
# 行数
M = condition[1]
# Wの最小値(単語の長さの最大値を取得)
lower = max(word_lengths)
# # すべての単語をすべての行に隙間なく埋めた場合の1行の長さ
# min_length = int(sum(word_lengths) / M)
# Wの最大値(すべて1行に並べたときの長さ)
upper = sum(word_lengths) + len(word_lengths) - 1
# for w in range(lower, upper):
while lower + 1 < upper:
column = 1
row_len = 0
# 2分探索
# middle = int((lower+upper)/2)
middle = (lower+upper) // 2
# print(w)
# for i in range(0, N):
for l in word_lengths:
len = l
# 超えた時点で次の行にして、該当行の長さを0にする
# ※ここでのwは範囲の最小値ではなく、範囲の中間地点
if row_len + len > middle:
column += 1
row_len = 0
row_len += len + 1
# row_len += 1
# # 該当行が中間地点を超えていない場合空欄補充
# if middle - row_len > 1: # 横幅と同じ長さであればもちろん不要、横幅と1文字しか空いていない場合もそれ以上入れられないので空欄不要
# row_len += 1
if column > M: # 行数が超えた場合
lower = middle # 横幅が小さすぎるので、範囲の最小値をmiddleにあげる
else: # 行数が超えなかった場合
upper = middle # 横幅が大きすぎるので、範囲の最大値をmiddleに下げる
print(upper)
condition = list(map(int, input().split()))
word_lengths = list(map(int, input().split()))
# # 単語数
# N = condition[0]
# 行数
M = condition[1]
# Wの最小値(単語の長さの最大値を取得)
lower = max(word_lengths) - 1
# # すべての単語をすべての行に隙間なく埋めた場合の1行の長さ
# min_length = int(sum(word_lengths) / M)
# Wの最大値(すべて1行に並べたときの長さ)
upper = sum(word_lengths) + len(word_lengths) - 1
# for w in range(lower, upper):
while lower + 1 < upper:
column = 1
row_len = 0
# 2分探索
# middle = int((lower+upper)/2)
middle = (lower+upper) // 2
# print(w)
# for i in range(0, N):
for l in word_lengths:
len = l
# 超えた時点で次の行にして、該当行の長さを0にする
# ※ここでのwは範囲の最小値ではなく、範囲の中間地点
if row_len + len > middle:
column += 1
row_len = 0
row_len += len + 1
# row_len += 1
# # 該当行が中間地点を超えていない場合空欄補充
# if middle - row_len > 1: # 横幅と同じ長さであればもちろん不要、横幅と1文字しか空いていない場合もそれ以上入れられないので空欄不要
# row_len += 1
if column > M: # 行数が超えた場合
lower = middle # 横幅が小さすぎるので、範囲の最小値をmiddleにあげる
else: # 行数が超えなかった場合
upper = middle # 横幅が大きすぎるので、範囲の最大値をmiddleに下げる
print(upper) | ConDefects/ConDefects/Code/abc319_d/Python/45793373 |
condefects-python_data_17 | N,M=map(int,input().split())
L=list(map(int,input().split()))
def jadge(col_num):
row_num=1
count=-1
for i in range(N):
count+=L[i]+1
if count>col_num:
row_num+=1
count=L[i]
#print(L[i],count,row_num)
return row_num
def bs():
left=max(L)
right=sum(L)+N+1
center=(left+right)//2
#print(left,right,center)
while right-left>1:
#print(M,center,jadge(center),M<=jadge(center))
if M>=jadge(center):
right=min(center,right-1)
center=(left+right)//2
else:
left=max(center,left+1)
center=(left+right)//2
return right
print(bs())
"""test
N,M=map(int,input().split())
L=list(map(int,input().split()))
cumsum_L=[L[0]]
for i in range(1,N):
cumsum_L.append(cumsum_L[i-1]+L[i]+1)
print(cumsum_L)
#print(len(cumsum_L),N,cumsum_L[-1])
def jadge(col_num):
left_i=-1
right_i=N-1
#one_col_num=col_num
minus=0
for i in range(M):
left_i=min(N-1,left_i+1)
right_i=N-1
center_i=(left_i+right_i)//2
if cumsum_L[left_i]-minus>col_num:
#その行の累積和が許容できる列数より大きいとき
#print(cumsum_L[left_i],minus,col_num)
return False
#print("col_num",col_num)
while right_i-left_i>1:
if cumsum_L[left_i]-minus==col_num:
#print(0,right_i,cumsum_L[right_i]-minus)
#print(0)
#left_i=right_i
break
elif cumsum_L[center_i]-minus<=col_num:
#print(1,left_i,center_i,right_i,cumsum_L[center_i]-minus)
left_i=max(center_i,left_i+1)
left_i=center_i
center_i=(left_i+right_i)//2
else:
#print("col_num",col_num)
#print(2,left_i,center_i,right_i,cumsum_L[center_i]-minus)
#right_i=center_i
right_i=min(center_i,right_i-1)
center_i=(left_i+right_i)//2
#col_num+=one_col_num
#print(left_i,cumsum_L[left_i])
#print(i,"--",left_i,center_i,right_i)
if left_i>N-1:
return False
minus=cumsum_L[left_i]
#print("------")
if cumsum_L[center_i]-minus<=col_num:
return True
else:
return False
print(jadge(188))
left_col=1
right_col=cumsum_L[-1]
center_col=(left_col+right_col)//2
ans=-1
#print(right_col)
#print(jadge(26))
"""
"""
while right_col-left_col>0:
if jadge(left_col):
left_col=right_col
break
elif jadge(center_col)==True:
right_col=min(right_col-1,center_col)
center_col=(left_col+right_col)//2
else:
left_col=max(left_col+1,center_col)
center_col=(left_col+right_col)//2
#print(left_col,center_col,right_col,jadge(center_col))
print(right_col)
"""
"""
N, M = map(int, input().split())
L = list(map(int, input().split()))
max_L = max(L)#文字の横幅の最大値
def judge(m):
#もし、列の幅が文字の単語の長さより小さければFalse
if max_L > m:
return False
now_width = 1 << 63#巨大数
cnt = 0
#単語の数だけ実施
for l in L:
if now_width + l + 1 > m:
cnt += 1
now_width = l
else:
now_width += l + 1
return cnt <= M
ok = 1 << 63
ng = 0
while ok - ng > 1:
mid = (ok + ng) // 2
if judge(mid):
ok = mid
else:
ng = mid
print(ok)
"""
N,M=map(int,input().split())
L=list(map(int,input().split()))
def jadge(col_num):
row_num=1
count=-1
for i in range(N):
count+=L[i]+1
if count>col_num:
row_num+=1
count=L[i]
#print(L[i],count,row_num)
return row_num
def bs():
left=max(L)-1
right=sum(L)+N+1
center=(left+right)//2
#print(left,right,center)
while right-left>1:
#print(M,center,jadge(center),M<=jadge(center))
if M>=jadge(center):
right=min(center,right-1)
center=(left+right)//2
else:
left=max(center,left+1)
center=(left+right)//2
return right
print(bs())
"""test
N,M=map(int,input().split())
L=list(map(int,input().split()))
cumsum_L=[L[0]]
for i in range(1,N):
cumsum_L.append(cumsum_L[i-1]+L[i]+1)
print(cumsum_L)
#print(len(cumsum_L),N,cumsum_L[-1])
def jadge(col_num):
left_i=-1
right_i=N-1
#one_col_num=col_num
minus=0
for i in range(M):
left_i=min(N-1,left_i+1)
right_i=N-1
center_i=(left_i+right_i)//2
if cumsum_L[left_i]-minus>col_num:
#その行の累積和が許容できる列数より大きいとき
#print(cumsum_L[left_i],minus,col_num)
return False
#print("col_num",col_num)
while right_i-left_i>1:
if cumsum_L[left_i]-minus==col_num:
#print(0,right_i,cumsum_L[right_i]-minus)
#print(0)
#left_i=right_i
break
elif cumsum_L[center_i]-minus<=col_num:
#print(1,left_i,center_i,right_i,cumsum_L[center_i]-minus)
left_i=max(center_i,left_i+1)
left_i=center_i
center_i=(left_i+right_i)//2
else:
#print("col_num",col_num)
#print(2,left_i,center_i,right_i,cumsum_L[center_i]-minus)
#right_i=center_i
right_i=min(center_i,right_i-1)
center_i=(left_i+right_i)//2
#col_num+=one_col_num
#print(left_i,cumsum_L[left_i])
#print(i,"--",left_i,center_i,right_i)
if left_i>N-1:
return False
minus=cumsum_L[left_i]
#print("------")
if cumsum_L[center_i]-minus<=col_num:
return True
else:
return False
print(jadge(188))
left_col=1
right_col=cumsum_L[-1]
center_col=(left_col+right_col)//2
ans=-1
#print(right_col)
#print(jadge(26))
"""
"""
while right_col-left_col>0:
if jadge(left_col):
left_col=right_col
break
elif jadge(center_col)==True:
right_col=min(right_col-1,center_col)
center_col=(left_col+right_col)//2
else:
left_col=max(left_col+1,center_col)
center_col=(left_col+right_col)//2
#print(left_col,center_col,right_col,jadge(center_col))
print(right_col)
"""
"""
N, M = map(int, input().split())
L = list(map(int, input().split()))
max_L = max(L)#文字の横幅の最大値
def judge(m):
#もし、列の幅が文字の単語の長さより小さければFalse
if max_L > m:
return False
now_width = 1 << 63#巨大数
cnt = 0
#単語の数だけ実施
for l in L:
if now_width + l + 1 > m:
cnt += 1
now_width = l
else:
now_width += l + 1
return cnt <= M
ok = 1 << 63
ng = 0
while ok - ng > 1:
mid = (ok + ng) // 2
if judge(mid):
ok = mid
else:
ng = mid
print(ok)
"""
| ConDefects/ConDefects/Code/abc319_d/Python/45968743 |
condefects-python_data_18 | # -------------------------------------------------
# 基本ライブラリ(PyPy3対応)
# -------------------------------------------------
import sys
import math
import bisect #二分探索
import itertools as itert
from queue import Queue
import heapq
from collections import deque
from decimal import Decimal, ROUND_HALF_UP
sys.setrecursionlimit(10**7)
# -------------------------------------------------
# 入力メソッド
# -------------------------------------------------
def ST():
return input() #str型
def IN():
return int(input()) #int型
def FL():
return float(input()) #float型
def SL():
return input().split() #strリスト・複数列併用
def IM():
return map(int, input().split()) #int複数列
def IL():
return list(map(int, input().split())) #intリスト
def Lis():
return list(input()) #ひとつひとつの「文字」をリストにしてインプット
def IR(N): #N行整数をリスト化
x = []
for _ in range(N):
x.append(int(input()))
return x
def SR(N): #N行文字列をリスト化
x = []
for _ in range(N):
x.append(input())
return x
def IRM(N): #列に変数が並ぶN行データ
z = [map(int, input().split()) for _ in range(N)]
return [list(i) for i in zip(*z)]
def SGrid(N): #N行文字列二次元グリッドをリスト化
x = []
for i in range(N):
x.append(list(input()))
return x
def IMatrix(N): #一般のN行行列
return [list(map(int, input().split())) for l in range(N)]
# -------------------------------------------------
N, M = IM()
L = IL()
S = sum(L)
ans = 0
def index_count(L, W): ## #不適合なWが選ばれた場合-1を出力する
cnt = 0
ans = 0
for i in range(len(L)):
if cnt >= W:
ans = 10**10
break
if cnt == 0:
cnt += L[i]
else:
cnt += 1 + L[i]
if cnt >= W:
ans += 1
cnt = L[i]
return ans + 1
left = 0
right = S + N
while left + 1 < right:
W = (left+right)//2
if index_count(L, W) > M:
left = W
else:
right = W
#print(index_count(L, W), left, right)
print(left)
# -------------------------------------------------
# 基本ライブラリ(PyPy3対応)
# -------------------------------------------------
import sys
import math
import bisect #二分探索
import itertools as itert
from queue import Queue
import heapq
from collections import deque
from decimal import Decimal, ROUND_HALF_UP
sys.setrecursionlimit(10**7)
# -------------------------------------------------
# 入力メソッド
# -------------------------------------------------
def ST():
return input() #str型
def IN():
return int(input()) #int型
def FL():
return float(input()) #float型
def SL():
return input().split() #strリスト・複数列併用
def IM():
return map(int, input().split()) #int複数列
def IL():
return list(map(int, input().split())) #intリスト
def Lis():
return list(input()) #ひとつひとつの「文字」をリストにしてインプット
def IR(N): #N行整数をリスト化
x = []
for _ in range(N):
x.append(int(input()))
return x
def SR(N): #N行文字列をリスト化
x = []
for _ in range(N):
x.append(input())
return x
def IRM(N): #列に変数が並ぶN行データ
z = [map(int, input().split()) for _ in range(N)]
return [list(i) for i in zip(*z)]
def SGrid(N): #N行文字列二次元グリッドをリスト化
x = []
for i in range(N):
x.append(list(input()))
return x
def IMatrix(N): #一般のN行行列
return [list(map(int, input().split())) for l in range(N)]
# -------------------------------------------------
N, M = IM()
L = IL()
S = sum(L)
ans = 0
def index_count(L, W): ## #不適合なWが選ばれた場合-1を出力する
cnt = 0
ans = 0
for i in range(len(L)):
if cnt >= W:
ans = 10**10
break
if cnt == 0:
cnt += L[i]
else:
cnt += 1 + L[i]
if cnt >= W:
ans += 1
cnt = L[i]
return ans + 1
left = 0
right = S + N
while left + 1 < right:
W = (left+right)//2
if index_count(L, W) > M:
left = W
else:
right = W
#print(index_count(L, W), left, right)
print(max(left,L[N-1]) ) | ConDefects/ConDefects/Code/abc319_d/Python/46194473 |
condefects-python_data_19 | import sys
input = sys.stdin.readline
n, m = map(int, input().split())
L = list(map(int, input().split()))
ng, ok = max(L) - 1, sum(L) + n - 1
while ok - ng > 1:
mid = (ok + ng) // 2
res = 1
temp = 0
for i in range(n):
temp += L[i]
if temp > mid:
res += 1
temp = L[i]
else:
temp += 1
if res <= m:
ok = mid
else:
ng = mid
print(ok)
import sys
input = sys.stdin.readline
n, m = map(int, input().split())
L = list(map(int, input().split()))
ng, ok = max(L) - 1, sum(L) + n - 1
while ok - ng > 1:
mid = (ok + ng) // 2
res = 1
temp = 0
for i in range(n):
temp += L[i]
if temp > mid:
res += 1
temp = L[i] + 1
else:
temp += 1
if res <= m:
ok = mid
else:
ng = mid
print(ok)
| ConDefects/ConDefects/Code/abc319_d/Python/45944386 |
condefects-python_data_20 | N,M = map(int,input().split())
L = list(map(int,input().split()))
def f(w) -> bool:
# 0の場合を特別化する
n_row = 0
# 残り文字数を管理
rem = 0
for i in range(N):
# もし残り文字数が十分であるならば、それをremから引く
if rem >= L[i]+1:
rem -= L[i]+1
else:
n_row += 1
rem = w - L[i]
if rem < 0 : return False
if n_row <= M:
return True
else: return False
l = 1
r = 1000000000000000
while (r-l) > 1:
m = (l+r)//2
if f(m) == True:
r = m
else: #f(m) == False
l = m
print(r)
N,M = map(int,input().split())
L = list(map(int,input().split()))
def f(w) -> bool:
# 0の場合を特別化する
n_row = 0
# 残り文字数を管理
rem = 0
for i in range(N):
# もし残り文字数が十分であるならば、それをremから引く
if rem >= L[i]+1:
rem -= L[i]+1
else:
n_row += 1
rem = w - L[i]
if rem < 0 : return False
if n_row <= M:
return True
else: return False
l = 0
r = 1000000000000000
while (r-l) > 1:
m = (l+r)//2
if f(m) == True:
r = m
else: #f(m) == False
l = m
print(r)
| ConDefects/ConDefects/Code/abc319_d/Python/45948664 |
condefects-python_data_21 | import itertools # permutation
import heapq # queue
if __name__ == '__main__':
n, m = map(int, input().split())
lis = list(map(int, input().split()))
for i in range(n):
lis[i] += 1
# 二分探索
l = max(lis)
r = sum(lis)
while l+1 < r:
mid = (l+r)//2
row = 1
cnt = 0
for i in range(n):
if mid < cnt + lis[i]:
row += 1
cnt = lis[i]
else:
cnt += lis[i]
if row <= m:
r = mid
else:
l = mid
print(r-1)
import itertools # permutation
import heapq # queue
if __name__ == '__main__':
n, m = map(int, input().split())
lis = list(map(int, input().split()))
for i in range(n):
lis[i] += 1
# 二分探索
l = max(lis)-1
r = sum(lis)
while l+1 < r:
mid = (l+r)//2
row = 1
cnt = 0
for i in range(n):
if mid < cnt + lis[i]:
row += 1
cnt = lis[i]
else:
cnt += lis[i]
if row <= m:
r = mid
else:
l = mid
print(r-1) | ConDefects/ConDefects/Code/abc319_d/Python/45774151 |
condefects-python_data_22 | def check_ans(W):
'''
ある値でOKか否かの判定関数。問題に合わせて変更する。
'''
line_cnt = 1
line_char_cnt = 0
if L[0] > W:
return False
else:
line_char_cnt = L[0]
for i in range(1,N):
if L[i] > W:
return False
else:
if line_char_cnt + 1 + L[i] <= W:
line_char_cnt += 1 + L[i]
else:
line_char_cnt = L[i]
line_cnt += 1
if line_cnt > M:
return False
return True
def binary_search(maxi,mini):
'''
mini~maxi間で判定用関数の結果がOKとなる最小値を求める
'''
if maxi - mini <= 4:
for ans in range(maxi,mini,-1):
if check_ans(ans) == False:
return ans + 1
else:
mid = (maxi+mini)//2 #int((max+min)//2)だと浮動小数点を介して、誤差になるので注意
#判定用関数に投げて、条件により最大・最少を狭める
if check_ans(mid) == True:
# midでOKだったので、OKとなる最小値はmidより小さい値である
maxi = mid
else:
# midでNGだったので、OKとなる最小値はmidより大きい値である
mini = mid
return binary_search(maxi,mini)
N,M = map(int, input().split())
L = [int(e) for e in input().split()]
print(binary_search(10**16,0))
def check_ans(W):
'''
ある値でOKか否かの判定関数。問題に合わせて変更する。
'''
line_cnt = 1
line_char_cnt = 0
if L[0] > W:
return False
else:
line_char_cnt = L[0]
for i in range(1,N):
if L[i] > W:
return False
else:
if line_char_cnt + 1 + L[i] <= W:
line_char_cnt += 1 + L[i]
else:
line_char_cnt = L[i]
line_cnt += 1
if line_cnt > M:
return False
return True
def binary_search(maxi,mini):
'''
mini~maxi間で判定用関数の結果がOKとなる最小値を求める
'''
if maxi - mini <= 4:
for ans in range(maxi,mini-1,-1):
if check_ans(ans) == False:
return ans + 1
else:
mid = (maxi+mini)//2 #int((max+min)//2)だと浮動小数点を介して、誤差になるので注意
#判定用関数に投げて、条件により最大・最少を狭める
if check_ans(mid) == True:
# midでOKだったので、OKとなる最小値はmidより小さい値である
maxi = mid
else:
# midでNGだったので、OKとなる最小値はmidより大きい値である
mini = mid
return binary_search(maxi,mini)
N,M = map(int, input().split())
L = [int(e) for e in input().split()]
print(binary_search(10**16,0)) | ConDefects/ConDefects/Code/abc319_d/Python/45993248 |
condefects-python_data_23 | n, m = list(map(int, input().split()))
l = list(map(int, input().split()))
def check(x):
cnt = 1
s = l[0]
for i in range(1, n):
if s + l[i] + 1 > x:
cnt += 1
s = l[i]
else:
s += l[i] + 1
if cnt > m:
return False
return True
min_x = max(l)
max_x = sum(l) + n - 1
while True:
mid = (min_x + max_x) // 2
if check(mid):
max_x = mid
else:
min_x = mid
if max_x - min_x <= 1:
break
print(max_x)
n, m = list(map(int, input().split()))
l = list(map(int, input().split()))
def check(x):
cnt = 1
s = l[0]
for i in range(1, n):
if s + l[i] + 1 > x:
cnt += 1
s = l[i]
else:
s += l[i] + 1
if cnt > m:
return False
return True
min_x = max(l)-1
max_x = sum(l) + n - 1
while True:
mid = (min_x + max_x) // 2
if check(mid):
max_x = mid
else:
min_x = mid
if max_x - min_x <= 1:
break
print(max_x) | ConDefects/ConDefects/Code/abc319_d/Python/45933392 |
condefects-python_data_24 | #!/usr/bin/env python3
import math
import sys
from bisect import bisect, bisect_left, bisect_right, insort, insort_left, insort_right # type: ignore
from collections import Counter, defaultdict, deque # type: ignore
from heapq import heapify, heappop, heappush, heappushpop, heapreplace, merge # type: ignore
from itertools import accumulate, combinations, permutations, product # type: ignore
def InputI(): return int(sys.stdin.buffer.readline())
def InputIM(): return map(int, sys.stdin.buffer.readline().split())
def InputIL(): return list(map(int, sys.stdin.buffer.readline().split()))
def InputS(): return sys.stdin.buffer.readline().rstrip().decode("utf-8")
def InputSS(): return sys.stdin.buffer.readline().rstrip().decode("utf-8").split()
def InputIR(n): return [InputI() for _ in range(n)]
def InputILR(n): return [InputIL() for _ in range(n)]
def InputSR(n): return [InputS() for _ in range(n)]
def InputSSR(n): return [InputSS() for _ in range(n)]
def InputSLR(n): return [list(InputS()) for _ in range(n)]
def InputSLIR(n): return [[int(i) for i in list(InputS())] for _ in range(n)]
n, m = InputIM()
l = InputIL()
def num_required_row(x):
tmp = 0
res = 1
for i in range(n):
tmp += l[i]
if tmp > x:
tmp = l[i] + 1
res += 1
else:
tmp += 1
return res
ng = max(l); ok = 10**9*2*10**5+2*10**5
while ok - ng > 1:
mid = (ok + ng) // 2
if num_required_row(mid) <= m:
ok = mid
else:
ng = mid
print(ok)
#!/usr/bin/env python3
import math
import sys
from bisect import bisect, bisect_left, bisect_right, insort, insort_left, insort_right # type: ignore
from collections import Counter, defaultdict, deque # type: ignore
from heapq import heapify, heappop, heappush, heappushpop, heapreplace, merge # type: ignore
from itertools import accumulate, combinations, permutations, product # type: ignore
def InputI(): return int(sys.stdin.buffer.readline())
def InputIM(): return map(int, sys.stdin.buffer.readline().split())
def InputIL(): return list(map(int, sys.stdin.buffer.readline().split()))
def InputS(): return sys.stdin.buffer.readline().rstrip().decode("utf-8")
def InputSS(): return sys.stdin.buffer.readline().rstrip().decode("utf-8").split()
def InputIR(n): return [InputI() for _ in range(n)]
def InputILR(n): return [InputIL() for _ in range(n)]
def InputSR(n): return [InputS() for _ in range(n)]
def InputSSR(n): return [InputSS() for _ in range(n)]
def InputSLR(n): return [list(InputS()) for _ in range(n)]
def InputSLIR(n): return [[int(i) for i in list(InputS())] for _ in range(n)]
n, m = InputIM()
l = InputIL()
def num_required_row(x):
tmp = 0
res = 1
for i in range(n):
tmp += l[i]
if tmp > x:
tmp = l[i] + 1
res += 1
else:
tmp += 1
return res
ng = max(l)-1; ok = 10**9*2*10**5+2*10**5
while ok - ng > 1:
mid = (ok + ng) // 2
if num_required_row(mid) <= m:
ok = mid
else:
ng = mid
print(ok) | ConDefects/ConDefects/Code/abc319_d/Python/46138292 |
condefects-python_data_25 | import sys
read = sys.stdin.read
readline = sys.stdin.readline
readlines = sys.stdin.readlines
N, M, *L = map(int, read().split())
left = max(L)
right = 10 ** 18
while right - left > 1:
mid = (left + right) // 2
cnt = 1
idx = 0
for i, l in enumerate(L):
if idx + l <= mid:
idx += l
else:
cnt += 1
idx = l
idx += 1
if i != N - 1 and idx > mid:
cnt += 1
idx = 0
if cnt <= M:
right = mid
else:
left = mid
print(right)
import sys
read = sys.stdin.read
readline = sys.stdin.readline
readlines = sys.stdin.readlines
N, M, *L = map(int, read().split())
left = max(L) - 1
right = 10 ** 18
while right - left > 1:
mid = (left + right) // 2
cnt = 1
idx = 0
for i, l in enumerate(L):
if idx + l <= mid:
idx += l
else:
cnt += 1
idx = l
idx += 1
if i != N - 1 and idx > mid:
cnt += 1
idx = 0
if cnt <= M:
right = mid
else:
left = mid
print(right)
| ConDefects/ConDefects/Code/abc319_d/Python/45768613 |
condefects-python_data_26 | N, M = map(int, input().split())
L = list(map(int, input().split()))
ng, ok = max(L), sum(L) + N - 1
while ng + 1 < ok:
chk = (ng + ok) // 2
m = 1
w = L[0]
for l in L[1:]:
if (w + 1 + l) > chk:
m += 1
w = l
else:
w += 1 + l
if m <= M:
ok = chk
else:
ng = chk
print(ok)
N, M = map(int, input().split())
L = list(map(int, input().split()))
ng, ok = max(L) - 1, sum(L) + N - 1
while ng + 1 < ok:
chk = (ng + ok) // 2
m = 1
w = L[0]
for l in L[1:]:
if (w + 1 + l) > chk:
m += 1
w = l
else:
w += 1 + l
if m <= M:
ok = chk
else:
ng = chk
print(ok) | ConDefects/ConDefects/Code/abc319_d/Python/46172725 |
condefects-python_data_27 | from collections import defaultdict
from collections import deque
class UnionFind():
def __init__(self, n):
self.n = n
self.root = [-1]*n
self.rank = [0]*n
def find(self, x):
if(self.root[x] < 0):
return x
else:
self.root[x] = self.find(self.root[x])
return self.root[x]
def unite(self, x, y):
x = self.find(x)
y = self.find(y)
if(x == y):
return
elif(self.rank[x] > self.rank[y]):
self.root[x] += self.root[y]
self.root[y] = x
else:
self.root[y] += self.root[x]
self.root[x] = y
if(self.rank[x] == self.rank[y]):
self.rank[y] += 1
def same(self, x, y):
return self.find(x) == self.find(y)
def size(self, x):
return -self.root[self.find(x)]
def roots(self):
return [i for i, x in enumerate(self.root) if x < 0]
def group_size(self):
return len(self.roots())
def group_members(self):
group_members = defaultdict(list)
for member in range(self.n):
group_members[self.find(member)].append(member)
return group_members
N = int(input())
P = list(map(int,input().split()))
for i in range(N):
P[i] -= 1
M = int(input())
uf = UnionFind(N)
E = []
for i in range(M):
a,b = map(int,input().split())
a -= 1
b -= 1
uf.unite(a,b)
E.append((a,b))
R = uf.roots()
n = len(R)
V = [[] for i in range(n)]
d = {}
for i in range(n):
d[R[i]] = i
for v in range(N):
V[d[uf.find(v)]].append(v)
ans = []
for i in range(n):
X = []
for v in V[i]:
X.append(P[v])
X.sort()
# 無理な時
if X != V[i]:
print(-1)
exit()
r = R[i]
EE = []
for j in range(M):
u,v = E[j]
if uf.find(u) == r:
EE.append(j)
if len(EE) == 0:
continue
uff = UnionFind(N)
G = [[] for i in range(N)]
D = [-1 for i in range(N)]
for v in V[i]:
D[v] = 0
# 連結部分で木を作る
for j in EE:
u,v = E[j]
if uff.same(u,v):
continue
else:
uff.unite(u,v)
G[u].append((v,j+1))
G[v].append((u,j+1))
D[u] += 1
D[v] += 1
# 次数が1のものから順に
todo = []
for v in V[i]:
if D[v] == 1:
todo.append(v)
while len(todo):
v = todo.pop()
X = [-1 for i in range(N)]
visit = deque([v])
X[v] = 0
if P[v] == v:
u = v
visit = []
# vの位置を探す
while len(visit):
u = visit.popleft()
for r,j in G[u]:
if X[r] >= 0:
continue
X[r] = j
visit.append(r)
if P[r] == v:
u = r
break
# vにもってくる
while u != v:
j = X[u]
p,q = E[j-1]
r = p
if p == u:
r = q
P[u],P[r] = P[r],P[u]
ans.append(j)
u = r
for u,j in G[v]:
G[u].remove((v,j))
D[u] -= 1
if D[u] == 1:
todo.append(u)
print(len(ans))
print(*ans)
from collections import defaultdict
from collections import deque
class UnionFind():
def __init__(self, n):
self.n = n
self.root = [-1]*n
self.rank = [0]*n
def find(self, x):
if(self.root[x] < 0):
return x
else:
self.root[x] = self.find(self.root[x])
return self.root[x]
def unite(self, x, y):
x = self.find(x)
y = self.find(y)
if(x == y):
return
elif(self.rank[x] > self.rank[y]):
self.root[x] += self.root[y]
self.root[y] = x
else:
self.root[y] += self.root[x]
self.root[x] = y
if(self.rank[x] == self.rank[y]):
self.rank[y] += 1
def same(self, x, y):
return self.find(x) == self.find(y)
def size(self, x):
return -self.root[self.find(x)]
def roots(self):
return [i for i, x in enumerate(self.root) if x < 0]
def group_size(self):
return len(self.roots())
def group_members(self):
group_members = defaultdict(list)
for member in range(self.n):
group_members[self.find(member)].append(member)
return group_members
N = int(input())
P = list(map(int,input().split()))
for i in range(N):
P[i] -= 1
M = int(input())
uf = UnionFind(N)
E = []
for i in range(M):
a,b = map(int,input().split())
a -= 1
b -= 1
uf.unite(a,b)
E.append((a,b))
R = uf.roots()
n = len(R)
V = [[] for i in range(n)]
d = {}
for i in range(n):
d[R[i]] = i
for v in range(N):
V[d[uf.find(v)]].append(v)
ans = []
for i in range(n):
X = []
for v in V[i]:
X.append(P[v])
X.sort()
# 無理な時
if X != V[i]:
print(-1)
exit()
r = R[i]
EE = []
for j in range(M):
u,v = E[j]
if uf.find(u) == r:
EE.append(j)
if len(EE) == 0:
continue
uff = UnionFind(N)
G = [[] for i in range(N)]
D = [-1 for i in range(N)]
for v in V[i]:
D[v] = 0
# 連結部分で木を作る
for j in EE:
u,v = E[j]
if uff.same(u,v):
continue
else:
uff.unite(u,v)
G[u].append((v,j+1))
G[v].append((u,j+1))
D[u] += 1
D[v] += 1
# 次数が1のものから順に
todo = []
for v in V[i]:
if D[v] == 1:
todo.append(v)
while len(todo):
v = todo.pop()
X = [-1 for i in range(N)]
visit = deque([v])
X[v] = 0
if P[v] == v:
u = v
visit = []
# vの位置を探す
while len(visit):
u = visit.popleft()
for r,j in G[u]:
if X[r] >= 0:
continue
X[r] = j
visit.append(r)
if P[r] == v:
u = r
break
if P[u] == v:
break
# vにもってくる
while u != v:
j = X[u]
p,q = E[j-1]
r = p
if p == u:
r = q
P[u],P[r] = P[r],P[u]
ans.append(j)
u = r
for u,j in G[v]:
G[u].remove((v,j))
D[u] -= 1
if D[u] == 1:
todo.append(u)
print(len(ans))
print(*ans) | ConDefects/ConDefects/Code/abc233_f/Python/50214757 |
condefects-python_data_28 | t = int(input())
for iiiii in range(t):
n = int(input())
s =(input())
flag = True
b = False
for i in range(n):
if s[i] == "B":
b=True
if s[i] == "A" and b:
flag = False
if(flag):
print("B")
else :
print("A")
t = int(input())
for iiiii in range(t):
n = int(input())
s =(input())
flag = True
b = False
for i in range(n):
if s[i] == "B":
b=True
if s[i] == "A" and b:
flag = False
if(flag and b):
print("B")
else :
print("A") | ConDefects/ConDefects/Code/agc062_a/Python/43213602 |
condefects-python_data_29 | n=int(input())
for _ in range(n):
t=input()
s=input()
if('A' in s[1:]):
print('A')
else:
print('B')
n=int(input())
for _ in range(n):
t=input()
s=input()
if('A'==s[-1] or 'BA' in s):
print('A')
else:
print('B')
| ConDefects/ConDefects/Code/agc062_a/Python/44927989 |
condefects-python_data_30 | def solve(N, S):
if S[-1] == 'A':
return 'A'
else:
if S.count('AB') == 1:
return 'B'
else:
return 'A'
T = int(input())
for _ in range(T):
N = int(input())
S = input()
print(solve(N, S))
def solve(N, S):
if S[-1] == 'A':
return 'A'
else:
if S.count('A') == 0 or S.count('BA') == 0:
return 'B'
else:
return 'A'
T = int(input())
for _ in range(T):
N = int(input())
S = input()
print(solve(N, S))
| ConDefects/ConDefects/Code/agc062_a/Python/42875065 |
condefects-python_data_31 | t = int(input())
for _ in range(t):
n = int(input())
c = input()
i = 0
j = n - 1
while i < n and c[i] == 'A':
i += 1
while j > 0 and c[j] == 'B':
j -= 1
if i - j == 1 and c[-1] == 'B':
print('B')
else:
print('A')
t = int(input())
for _ in range(t):
n = int(input())
c = input()
i = 0
j = n - 1
while i < n and c[i] == 'A':
i += 1
while j > 0 and c[j] == 'B':
j -= 1
if i == j == 0 or (i - j == 1 and c[-1] == 'B'):
print('B')
else:
print('A') | ConDefects/ConDefects/Code/agc062_a/Python/44110722 |
condefects-python_data_32 | import sys
read = sys.stdin.read
readline = sys.stdin.readline
readlines = sys.stdin.readlines
T = int(readline())
for _ in range(T):
N = int(readline())
S = readline().rstrip()
if not 'B' in S:
print('A')
continue
index_ = S.index('B')
if S == 'A' * index_ and 'B' * (N - index_):
print('B')
else:
print('A')
import sys
read = sys.stdin.read
readline = sys.stdin.readline
readlines = sys.stdin.readlines
T = int(readline())
for _ in range(T):
N = int(readline())
S = readline().rstrip()
if not 'B' in S:
print('A')
continue
index_ = S.index('B')
if S == 'A' * index_ + 'B' * (N - index_):
print('B')
else:
print('A')
| ConDefects/ConDefects/Code/agc062_a/Python/43015792 |
condefects-python_data_33 | t = int(input())
ans = []
for _ in range(t):
n = int(input())
s = input()
if s[-1] == "A":
ans.append("A")
else:
if all(i == "B" for i in s):
ans.append("B")
if any(s[i] == "B" and s[i+1] == "A" for i in range(n-1)):
ans.append("A")
else:
ans.append("B")
print("\n".join(ans))
t = int(input())
ans = []
for _ in range(t):
n = int(input())
s = input()
if s[-1] == "A":
ans.append("A")
else:
if all(i == "B" for i in s):
ans.append("B")
elif any((s[i] == "B" and s[i+1] == "A") for i in range(n-1)):
ans.append("A")
else:
ans.append("B")
print("\n".join(ans)) | ConDefects/ConDefects/Code/agc062_a/Python/44358952 |
condefects-python_data_34 | t=int(input())
for i in range(t):
n=int(input())
s=list(map(str,input()))
cnt=0
for i in range(n-1):
if s[i]=="A" and s[i+1]=="B":
cnt+=1
if cnt==0 and s[0]=="B" and s[-1]=="B":
print("B")
elif cnt==1 and s[0]=="A":
print("B")
else:
print("A")
t=int(input())
for i in range(t):
n=int(input())
s=list(map(str,input()))
cnt=0
for i in range(n-1):
if s[i]=="A" and s[i+1]=="B":
cnt+=1
if cnt==0 and s[0]=="B" and s[-1]=="B":
print("B")
elif cnt==1 and s[0]=="A" and s[-1]=="B":
print("B")
else:
print("A") | ConDefects/ConDefects/Code/agc062_a/Python/43035982 |
condefects-python_data_35 | from itertools import product
N,S,M,L=map(int,input().split())
ans=10**20
for i,j,k in product(range(N),repeat=3):
if 6*i+8*j+12*k<N:
continue
ans=min(ans,S*i+M*j+L*k)
print(ans)
from itertools import product
N,S,M,L=map(int,input().split())
ans=10**20
for i,j,k in product(range(N+1),repeat=3):
if 6*i+8*j+12*k<N:
continue
ans=min(ans,S*i+M*j+L*k)
print(ans) | ConDefects/ConDefects/Code/abc331_b/Python/54148195 |
condefects-python_data_36 | n, s, m, l = map(int,input().split())
sum = 10000
for j in range(20):
for k in range(15):
for a in range(10):
if n <= 6*j + 8*k + 12* a <= n + 11:
if s*j + m*k + l*a < sum:
sum = s*j + m*k + l*a
print(sum)
n, s, m, l = map(int,input().split())
sum = 10**10
for j in range(20):
for k in range(15):
for a in range(10):
if n <= 6*j + 8*k + 12* a <= n + 11:
if s*j + m*k + l*a < sum:
sum = s*j + m*k + l*a
print(sum) | ConDefects/ConDefects/Code/abc331_b/Python/54957730 |
condefects-python_data_37 | n,s,m,l = map(int,input().split())
ans = float('inf')
for i in range(101):
for j in range(101):
for k in range(101):
if i+j+l>=n:
ans=min(ans,i*s+j*m+l*k)
print(ans)
n,s,m,l = map(int,input().split())
ans = float('inf')
for i in range(101):
for j in range(101):
for k in range(101):
if 6*i+8*j+12*k>=n:
ans=min(ans,i*s+j*m+l*k)
print(ans) | ConDefects/ConDefects/Code/abc331_b/Python/54769953 |
condefects-python_data_38 | import sys
from collections import defaultdict
out = []
input = sys.stdin.readline
t = int(input())
for _ in range(t):
n = int(input())
l = input().split()
d = {}
for v in l:
if v not in d:
d[v] = 1
else:
d[v] += 1
big2 = []
big = []
br = []
smol = []
for v in d:
if d[v] == 1:
smol.append(v)
else:
big.extend([v] * (d[v] - 1))
big2.extend([v] * d[v])
br.append(v)
big = big + br[::-1]
m = len(big)
oo = []
for i in range(m):
if big[i] == big[i - 1] and smol:
oo.append(smol.pop())
oo.append(big[i])
if smol:
out.append(' '.join(big2 + smol))
else:
out.append(' '.join(oo))
print('\n'.join(out))
import sys
from collections import defaultdict
out = []
input = sys.stdin.readline
t = int(input())
for _ in range(t):
n = int(input())
l = input().split()
d = {}
for v in l:
if v not in d:
d[v] = 1
else:
d[v] += 1
big2 = []
big = []
br = []
smol = []
for v in d:
if d[v] == 1:
smol.append(v)
else:
big.extend([v] * (d[v] - 1))
big2.extend([v] * d[v])
br.append(v)
big = big + br[::-1]
m = len(big)
oo = []
for i in range(m):
if big[i] == big[i - 1] and smol:
oo.append(smol.pop())
oo.append(big[i])
if smol:
out.append(' '.join(map(str, sorted(map(int, l)))))
else:
out.append(' '.join(oo))
print('\n'.join(out))
| ConDefects/ConDefects/Code/agc059_b/Python/37027269 |
condefects-python_data_39 | from collections import Counter, deque
import sys
sys.setrecursionlimit(2*10**5)
def dfs(v):
for _ in range(D[v+1]-len(G[v])+1):
ans.append(v+1)
D[v+1]-=1
seen[v] = True
for nv in G[v]:
if seen[nv]:
continue
dfs(nv)
if D[v+1]>0:
ans.append(v+1)
D[v+1]-=1
T = int(input())
for _ in range(T):
N = int(input())
C = list(map(int, input().split()))
cnt = Counter(C)
if len(cnt)<=2:
C.sort()
print(*C)
else:
G = [[] for _ in range(N)]
a = deque()
b = deque()
X = 0
for c in cnt.most_common():
if c[1]>=2:
b.append([c[0]-1, c[1]])
X += c[1]
else:
a.append(c[0]-1)
if X+len(a)<2*len(cnt)-2:
C.sort()
print(*C)
else:
while len(b)>0 and len(a)>0:
k, v = b.popleft()
while v>1 and len(a)>0:
l = a.popleft()
G[k].append(l)
G[l].append(k)
v-=1
if v==1:
a.append(k)
if len(b)>0:
k, v = b.popleft()
while len(b)>0:
kk, vv = b.popleft()
G[k].append(kk)
G[kk].append(k)
k = kk
if len(a)>0:
k = a.popleft()
while len(a)>0:
kk = a.popleft()
G[k].append(kk)
G[kk].append(k)
k = kk
#print(G)
#print(cnt)
for i in range(N):
if len(G[i])>0:
break
D = dict(cnt)
#print(D)
seen = [False for _ in range(N)]
ans = []
v = i
dfs(v)
#print(D)
print(*ans)
from collections import Counter, deque
import sys
sys.setrecursionlimit(2*10**5)
def dfs(v):
for _ in range(D[v+1]-len(G[v])+1):
ans.append(v+1)
D[v+1]-=1
seen[v] = True
for nv in G[v]:
if seen[nv]:
continue
dfs(nv)
if D[v+1]>0:
ans.append(v+1)
D[v+1]-=1
T = int(input())
for _ in range(T):
N = int(input())
C = list(map(int, input().split()))
cnt = Counter(C)
if len(cnt)<=2:
C.sort()
print(*C)
else:
G = [[] for _ in range(N)]
a = deque()
b = deque()
X = 0
for c in cnt.most_common():
if c[1]>=2:
b.append([c[0]-1, c[1]])
X += c[1]
else:
a.append(c[0]-1)
if X+len(a)<2*len(cnt)-2:
C.sort()
print(*C)
else:
while len(b)>0 and len(a)>0:
k, v = b.popleft()
while v>1 and len(a)>0:
l = a.popleft()
G[k].append(l)
G[l].append(k)
v-=1
if v==1:
a.append(k)
elif v>1:
b.append([k, v])
if len(b)>0:
k, v = b.popleft()
while len(b)>0:
kk, vv = b.popleft()
G[k].append(kk)
G[kk].append(k)
k = kk
if len(a)>0:
k = a.popleft()
while len(a)>0:
kk = a.popleft()
G[k].append(kk)
G[kk].append(k)
k = kk
#print(G)
#print(cnt)
for i in range(N):
if len(G[i])>0:
break
D = dict(cnt)
#print(D)
seen = [False for _ in range(N)]
ans = []
v = i
dfs(v)
#print(D)
print(*ans)
| ConDefects/ConDefects/Code/agc059_b/Python/37047746 |
condefects-python_data_40 | from collections import defaultdict
T = int(input())
for _ in range(T):
N = int(input())
C = list(map(int,input().split()))
dc = {}
for c in C:
if c not in dc:
dc[c] = 0
dc[c] += 1
lst = []
cnt = 0
for k in dc:
lst.append((dc[k],k))
cnt += 1
lst.sort(reverse=True)
if N//2 < cnt-1:
ans = []
for i in range(cnt):
for _ in range(lst[i][0]):
ans.append(lst[i][1])
print(" ".join(list(map(str,ans))))
else:
children = defaultdict(list)
chs = {}
for v in dc:
chs[v] = dc[v] - 1
chs[lst[0][1]] += 1
j = 1
for i in range(cnt):
for _ in range(chs[lst[i][1]]):
if j >= cnt:
break
children[lst[i][1]].append(lst[j][1])
j += 1
def search(v):
ans.append(v)
dc[v] -= 1
for w in children[v]:
search(w)
if dc[v] > 0:
ans.append(v)
dc[v] -= 1
ans = []
search(lst[0][1])
tmp = []
for n in ans:
tmp.append(n)
if dc[n] > 0:
tmp.append(n)
dc[n] -= 1
print(" ".join(list(map(str,tmp))))
from collections import defaultdict
T = int(input())
for _ in range(T):
N = int(input())
C = list(map(int,input().split()))
dc = {}
for c in C:
if c not in dc:
dc[c] = 0
dc[c] += 1
lst = []
cnt = 0
for k in dc:
lst.append((dc[k],k))
cnt += 1
lst.sort(reverse=True)
if N//2 < cnt-1:
ans = []
for i in range(cnt):
for _ in range(lst[i][0]):
ans.append(lst[i][1])
print(" ".join(list(map(str,ans))))
else:
children = defaultdict(list)
chs = {}
for v in dc:
chs[v] = dc[v] - 1
chs[lst[0][1]] += 1
j = 1
for i in range(cnt):
for _ in range(chs[lst[i][1]]):
if j >= cnt:
break
children[lst[i][1]].append(lst[j][1])
j += 1
def search(v):
ans.append(v)
dc[v] -= 1
for w in children[v]:
search(w)
if dc[v] > 0:
ans.append(v)
dc[v] -= 1
ans = []
search(lst[0][1])
tmp = []
for n in ans:
tmp.append(n)
while dc[n] > 0:
tmp.append(n)
dc[n] -= 1
print(" ".join(list(map(str,tmp)))) | ConDefects/ConDefects/Code/agc059_b/Python/37028649 |
condefects-python_data_41 | g=lambda:map(int,input().split());N,M=g();P=list(g());D=998244353;f=lambda i:i*i+i;dp=[0,0,1];h=lambda x:pow(max(1,x),-1,D);A=0
for m in range(M):a,b,c=dp;X=(N-2)*(N-3)//2+1;dp=[(a*(X+4*N-11)+b*(N-3))%D,(a*4+b*(X+N-2)+c*(2*N-4))%D,(b+c*X)%D]
for i,j in zip(P,P[1:]):s=f(i-1)+f(j-1)+f(N-i)+f(N-j);t=abs(i-j);A=(A+dp[2]*t+dp[1]*(s-t*4)*h(4*N-8)+dp[0]*((N**3-N)//3-s+t*2)*h(N*N-5*N+6))%D
print(A)
g=lambda:map(int,input().split());N,M=g();P=list(g());D=998244353;f=lambda i:i*i+i;dp=[0,0,1];h=lambda x:pow(max(1,x),-1,D);A=0
for m in range(M):a,b,c=dp;X=(N-2)*(N-3)//2+1;dp=[(a*(X+2*N-8)+b*(N-3))%D,(a*4+b*(X+N-2)+c*(2*N-4))%D,(b+c*X)%D]
for i,j in zip(P,P[1:]):s=f(i-1)+f(j-1)+f(N-i)+f(N-j);t=abs(i-j);A=(A+dp[2]*t+dp[1]*(s-t*4)*h(4*N-8)+dp[0]*((N**3-N)//3-s+t*2)*h(N*N-5*N+6))%D
print(A) | ConDefects/ConDefects/Code/arc176_d/Python/52672133 |
condefects-python_data_42 | import bisect
import copy
import decimal
import fractions
import heapq
import itertools
import math
import random
import sys
import time
from collections import Counter,deque,defaultdict
from functools import lru_cache,reduce
from heapq import heappush,heappop,heapify,heappushpop,_heappop_max,_heapify_max
def _heappush_max(heap,item):
heap.append(item)
heapq._siftdown_max(heap, 0, len(heap)-1)
def _heappushpop_max(heap, item):
if heap and item < heap[0]:
item, heap[0] = heap[0], item
heapq._siftup_max(heap, 0)
return item
from math import gcd as GCD
read=sys.stdin.read
readline=sys.stdin.readline
readlines=sys.stdin.readlines
write=sys.stdout.write
#import pypyjit
#pypyjit.set_param('max_unroll_recursion=-1')
#sys.set_int_max_str_digits(10**9)
def Berlekamp_Massey(A):
n = len(A)
B, C = [1], [1]
l, m, p = 0, 1, 1
for i in range(n):
d = A[i]
for j in range(1, l + 1):
d += C[j] * A[i - j]
d %= mod
if d == 0:
m += 1
continue
T = C.copy()
q = pow(p, mod - 2, mod) * d % mod
if len(C) < len(B) + m:
C += [0] * (len(B) + m - len(C))
for j, b in enumerate(B):
C[j + m] -= q * b
C[j + m] %= mod
if 2 * l <= i:
B = T
l, m, p = i + 1 - l, 1, d
else:
m += 1
res = [-c % mod for c in C[1:]]
return res
def BMBM(A,N,mod=0):
deno=[1]+[-c for c in Berlekamp_Massey(A)]
nume=[0]*(len(deno)-1)
for i in range(len(A)):
for j in range(len(deno)):
if i+j<len(nume):
nume[i+j]+=A[i]*deno[j]
nume[i+j]%=mod
return Bostan_Mori(nume,deno,N,mod=mod)
def Bostan_Mori(poly_nume,poly_deno,N,mod=0,convolve=None):
#if type(poly_nume)==Polynomial:
# poly_nume=poly_nume.polynomial
#if type(poly_deno)==Polynomial:
# poly_deno=poly_deno.polynomial
if convolve==None:
def convolve(poly_nume,poly_deno):
conv=[0]*(len(poly_nume)+len(poly_deno)-1)
for i in range(len(poly_nume)):
for j in range(len(poly_deno)):
x=poly_nume[i]*poly_deno[j]
if mod:
x%=mod
conv[i+j]+=x
if mod:
for i in range(len(conv)):
conv[i]%=mod
return conv
while N:
poly_deno_=[-x if i%2 else x for i,x in enumerate(poly_deno)]
if N%2:
poly_nume=convolve(poly_nume,poly_deno_)[1::2]
else:
poly_nume=convolve(poly_nume,poly_deno_)[::2]
poly_deno=convolve(poly_deno,poly_deno_)[::2]
if mod:
for i in range(len(poly_nume)):
poly_nume[i]%=mod
for i in range(len(poly_deno)):
poly_deno[i]%=mod
N//=2
return poly_nume[0]
N,M=map(int,input().split())
P=list(map(int,input().split()))
for i in range(N):
P[i]-=1
ans=0
mod=998244353
inve0=pow(N*(N-1)-4*(N-2)-2,mod-2,mod)
inve1=pow(4*(N-2),mod-2,mod)
def f0(N,i,j):
if N<=3:
return 0
retu=N*(N+1)*(N-1)//3
retu-=(i*(i+1)//2+(N-1-i)*(N-i)//2-abs(i-j))*2
retu-=(j*(j+1)//2+(N-1-j)*(N-j)//2-abs(i-j))*2
retu-=abs(i-j)*2
return retu*inve0%mod
def f1(N,i,j):
if N<=2:
return 0
retu=0
retu+=(i*(i+1)//2+(N-1-i)*(N-i)//2-abs(i-j))*2
retu+=(j*(j+1)//2+(N-1-j)*(N-j)//2-abs(i-j))*2
return retu*inve1%mod
def f2(N,i,j):
return abs(i-j)
cnt=[0]*3
cnt[0]+=(N*(N-1)//2-4)
cnt[1]+=(N-3)
cnt[0]+=2*2
cnt[1]+=((N-2)*(N-3)//2+N-2+1)
cnt[2]+=2*(N-2)
cnt[1]+=1
cnt[2]+=(N-2)*(N-3)//2+1
dp=[0,0,1]
lst=[]
for m in range(5):
lst.append(sum((f0(N,P[i],P[i+1])*dp[0]+f1(N,P[i],P[i+1])*dp[1]+f2(N,P[i],P[i+1])*dp[2])%mod for i in range(N-1)))
prev=dp
dp=[0]*3
dp[0]+=prev[0]*(N*(N-1)//2-4)
dp[0]+=prev[1]*(N-3)
dp[1]+=prev[0]*2*2
dp[1]+=prev[1]*((N-2)*(N-3)//2+N-2+1)
dp[1]+=prev[2]*2*(N-2)
dp[2]+=prev[1]*1
dp[2]+=prev[2]*((N-2)*(N-3)//2+1)
for c in range(3):
dp[c]%=mod
ans+=BMBM(lst,M,mod)
ans%=mod
print(ans)
import bisect
import copy
import decimal
import fractions
import heapq
import itertools
import math
import random
import sys
import time
from collections import Counter,deque,defaultdict
from functools import lru_cache,reduce
from heapq import heappush,heappop,heapify,heappushpop,_heappop_max,_heapify_max
def _heappush_max(heap,item):
heap.append(item)
heapq._siftdown_max(heap, 0, len(heap)-1)
def _heappushpop_max(heap, item):
if heap and item < heap[0]:
item, heap[0] = heap[0], item
heapq._siftup_max(heap, 0)
return item
from math import gcd as GCD
read=sys.stdin.read
readline=sys.stdin.readline
readlines=sys.stdin.readlines
write=sys.stdout.write
#import pypyjit
#pypyjit.set_param('max_unroll_recursion=-1')
#sys.set_int_max_str_digits(10**9)
def Berlekamp_Massey(A):
n = len(A)
B, C = [1], [1]
l, m, p = 0, 1, 1
for i in range(n):
d = A[i]
for j in range(1, l + 1):
d += C[j] * A[i - j]
d %= mod
if d == 0:
m += 1
continue
T = C.copy()
q = pow(p, mod - 2, mod) * d % mod
if len(C) < len(B) + m:
C += [0] * (len(B) + m - len(C))
for j, b in enumerate(B):
C[j + m] -= q * b
C[j + m] %= mod
if 2 * l <= i:
B = T
l, m, p = i + 1 - l, 1, d
else:
m += 1
res = [-c % mod for c in C[1:]]
return res
def BMBM(A,N,mod=0):
deno=[1]+[-c for c in Berlekamp_Massey(A)]
nume=[0]*(len(deno)-1)
for i in range(len(A)):
for j in range(len(deno)):
if i+j<len(nume):
nume[i+j]+=A[i]*deno[j]
nume[i+j]%=mod
return Bostan_Mori(nume,deno,N,mod=mod)
def Bostan_Mori(poly_nume,poly_deno,N,mod=0,convolve=None):
#if type(poly_nume)==Polynomial:
# poly_nume=poly_nume.polynomial
#if type(poly_deno)==Polynomial:
# poly_deno=poly_deno.polynomial
if convolve==None:
def convolve(poly_nume,poly_deno):
conv=[0]*(len(poly_nume)+len(poly_deno)-1)
for i in range(len(poly_nume)):
for j in range(len(poly_deno)):
x=poly_nume[i]*poly_deno[j]
if mod:
x%=mod
conv[i+j]+=x
if mod:
for i in range(len(conv)):
conv[i]%=mod
return conv
while N:
poly_deno_=[-x if i%2 else x for i,x in enumerate(poly_deno)]
if N%2:
poly_nume=convolve(poly_nume,poly_deno_)[1::2]
else:
poly_nume=convolve(poly_nume,poly_deno_)[::2]
poly_deno=convolve(poly_deno,poly_deno_)[::2]
if mod:
for i in range(len(poly_nume)):
poly_nume[i]%=mod
for i in range(len(poly_deno)):
poly_deno[i]%=mod
N//=2
return poly_nume[0]
N,M=map(int,input().split())
P=list(map(int,input().split()))
for i in range(N):
P[i]-=1
ans=0
mod=998244353
inve0=pow(N*(N-1)-4*(N-2)-2,mod-2,mod)
inve1=pow(4*(N-2),mod-2,mod)
def f0(N,i,j):
if N<=3:
return 0
retu=N*(N+1)*(N-1)//3
retu-=(i*(i+1)//2+(N-1-i)*(N-i)//2-abs(i-j))*2
retu-=(j*(j+1)//2+(N-1-j)*(N-j)//2-abs(i-j))*2
retu-=abs(i-j)*2
return retu*inve0%mod
def f1(N,i,j):
if N<=2:
return 0
retu=0
retu+=(i*(i+1)//2+(N-1-i)*(N-i)//2-abs(i-j))*2
retu+=(j*(j+1)//2+(N-1-j)*(N-j)//2-abs(i-j))*2
return retu*inve1%mod
def f2(N,i,j):
return abs(i-j)
cnt=[0]*3
cnt[0]+=(N*(N-1)//2-4)
cnt[1]+=(N-3)
cnt[0]+=2*2
cnt[1]+=((N-2)*(N-3)//2+N-2+1)
cnt[2]+=2*(N-2)
cnt[1]+=1
cnt[2]+=(N-2)*(N-3)//2+1
dp=[0,0,1]
lst=[]
for m in range(6):
lst.append(sum((f0(N,P[i],P[i+1])*dp[0]+f1(N,P[i],P[i+1])*dp[1]+f2(N,P[i],P[i+1])*dp[2])%mod for i in range(N-1)))
prev=dp
dp=[0]*3
dp[0]+=prev[0]*(N*(N-1)//2-4)
dp[0]+=prev[1]*(N-3)
dp[1]+=prev[0]*2*2
dp[1]+=prev[1]*((N-2)*(N-3)//2+N-2+1)
dp[1]+=prev[2]*2*(N-2)
dp[2]+=prev[1]*1
dp[2]+=prev[2]*((N-2)*(N-3)//2+1)
for c in range(3):
dp[c]%=mod
ans+=BMBM(lst,M,mod)
ans%=mod
print(ans)
| ConDefects/ConDefects/Code/arc176_d/Python/52671232 |
condefects-python_data_43 | import sys
input = sys.stdin.readline
mod=998244353
# 行列の計算(numpyを使えないとき,modを使用)
def prod(A,B,k,l,m):# A:k*l,B:l*m
C=[[None for i in range(m)] for j in range(k)]
for i in range(k):
for j in range(m):
ANS=0
for pl in range(l):
ANS=(ANS+A[i][pl]*B[pl][j])%mod
C[i][j]=ANS
return C
def plus(A,B,k,l):# a,B:k*l
C=[[None for i in range(l)] for j in range(k)]
for i in range(k):
for j in range(l):
C[i][j]=(A[i][j]+B[i][j])%mod
return C
N,M=map(int,input().split())
P=list(map(int,input().split()))
if N==2:
print(1)
exit()
if N==3:
A=[[2,1],[2,1]]
POWA=[A]
for i in range(60):
POWA.append(prod(POWA[-1],POWA[-1],2,2,2)) # ベキを求めて
n=M
X=[0,0]
X[0]+=abs(P[1]-P[0])+abs(P[2]-P[1])
X[1]=4-X[0]
X=[X]
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
print(X[0])
exit()
ALL=N*(N-1)//2
A=[[ALL-(N-2)*2,(N-2)*2,0],
[1,ALL-1-(N-3),N-3],
[0,4,ALL-4]
]
POWA=[A]
# 漸化式を行列累乗で求める(ダブリング)
for i in range(60):
POWA.append(prod(POWA[-1],POWA[-1],3,3,3)) # ベキを求めて
X=[[1,0,0]]
n=M
while n:
X=prod(X,POWA[n.bit_length()-1],1,3,3) # n乗の場合
n-=1<<(n.bit_length()-1)
#print(X)
AS=0
for i in range(N):
AS=AS+i*(i+1)//2
PX=[0]
for i in range(1,N+1):
plus=(N-i)*(N-i+1)//2
minus=(i-1)*(i-1+1)//2
PX.append(plus+minus)
ANS=0
for i in range(N-1):
a,b=P[i],P[i+1]
ANS+=abs(b-a)*X[0][0]
k=PX[a]-abs(b-a)+PX[b]-abs(b-a)
ANS+=k*X[0][1]*pow((N-2)*2,mod-2,mod)%mod
ANS+=(AS-abs(b-a)-k)*X[0][2]*pow(ALL-1-(N-2)*2,mod-2,mod)%mod
ANS%=mod
print(ANS%mod)
import sys
input = sys.stdin.readline
mod=998244353
# 行列の計算(numpyを使えないとき,modを使用)
def prod(A,B,k,l,m):# A:k*l,B:l*m
C=[[None for i in range(m)] for j in range(k)]
for i in range(k):
for j in range(m):
ANS=0
for pl in range(l):
ANS=(ANS+A[i][pl]*B[pl][j])%mod
C[i][j]=ANS
return C
def plus(A,B,k,l):# a,B:k*l
C=[[None for i in range(l)] for j in range(k)]
for i in range(k):
for j in range(l):
C[i][j]=(A[i][j]+B[i][j])%mod
return C
N,M=map(int,input().split())
P=list(map(int,input().split()))
if N==2:
print(1)
exit()
if N==3:
A=[[2,1],[2,1]]
POWA=[A]
for i in range(60):
POWA.append(prod(POWA[-1],POWA[-1],2,2,2)) # ベキを求めて
n=M
X=[0,0]
X[0]+=abs(P[1]-P[0])+abs(P[2]-P[1])
X[1]=4-X[0]
X=[X]
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
print(X[0][0])
exit()
ALL=N*(N-1)//2
A=[[ALL-(N-2)*2,(N-2)*2,0],
[1,ALL-1-(N-3),N-3],
[0,4,ALL-4]
]
POWA=[A]
# 漸化式を行列累乗で求める(ダブリング)
for i in range(60):
POWA.append(prod(POWA[-1],POWA[-1],3,3,3)) # ベキを求めて
X=[[1,0,0]]
n=M
while n:
X=prod(X,POWA[n.bit_length()-1],1,3,3) # n乗の場合
n-=1<<(n.bit_length()-1)
#print(X)
AS=0
for i in range(N):
AS=AS+i*(i+1)//2
PX=[0]
for i in range(1,N+1):
plus=(N-i)*(N-i+1)//2
minus=(i-1)*(i-1+1)//2
PX.append(plus+minus)
ANS=0
for i in range(N-1):
a,b=P[i],P[i+1]
ANS+=abs(b-a)*X[0][0]
k=PX[a]-abs(b-a)+PX[b]-abs(b-a)
ANS+=k*X[0][1]*pow((N-2)*2,mod-2,mod)%mod
ANS+=(AS-abs(b-a)-k)*X[0][2]*pow(ALL-1-(N-2)*2,mod-2,mod)%mod
ANS%=mod
print(ANS%mod) | ConDefects/ConDefects/Code/arc176_d/Python/52897913 |
condefects-python_data_44 | import sys
import heapq
def main():
N = int(input())
tl = []
for _ in range(N):
T, D = map(int, input().split())
tl.append([T, T+D])
tl.sort()
q = []
time = tl[0][0]
ind = 0
heapq.heapify(q)
ans = 0
while ind < N or q:
if ind < N and time < tl[ind][0]: # 次の時間が先
time = tl[ind][0] # その時間にする
while ind < N and time == tl[ind][0]:
heapq.heappush(q, tl[ind][1])
ind += 1
while q:
g = heapq.heappop(q)
if g >= time:
ans += 1
break
time += 1
print(ans)
if __name__ == '__main__':
main()
import sys
import heapq
def main():
N = int(input())
tl = []
for _ in range(N):
T, D = map(int, input().split())
tl.append([T, T+D])
tl.sort()
q = []
time = tl[0][0]
ind = 0
heapq.heapify(q)
ans = 0
while ind < N or q:
if len(q) == 0 and ind < N and time < tl[ind][0]: # 次の時間が先
time = tl[ind][0] # その時間にする
while ind < N and time == tl[ind][0]:
heapq.heappush(q, tl[ind][1])
ind += 1
while q:
g = heapq.heappop(q)
if g >= time:
ans += 1
break
time += 1
print(ans)
if __name__ == '__main__':
main()
| ConDefects/ConDefects/Code/abc325_d/Python/52936269 |
condefects-python_data_45 | N = int(input())
inout = [tuple(map(int, input().split())) for _ in range(N)]
inout.sort()
import heapq
from collections import defaultdict
D = defaultdict(list)
for t, d in inout:
D[t].append(t + d)
INF = 10 ** 18 + 1
event = sorted(D.keys())
event.append(INF)
ans = 0
now = 1
cnt = 0
hq = []
while now < INF:
if now in D:
cnt += 1
for t in D[now]:
heapq.heappush(hq, t)
while hq:
t = heapq.heappop(hq)
if now <= t:
ans += 1
now += 1
break
else:
now = event[cnt]
print(ans)
N = int(input())
inout = [tuple(map(int, input().split())) for _ in range(N)]
inout.sort()
import heapq
from collections import defaultdict
D = defaultdict(list)
for t, d in inout:
D[t].append(t + d)
INF = 10 ** 20
event = sorted(D.keys())
event.append(INF)
ans = 0
now = 1
cnt = 0
hq = []
while now < INF:
if now in D:
cnt += 1
for t in D[now]:
heapq.heappush(hq, t)
while hq:
t = heapq.heappop(hq)
if now <= t:
ans += 1
now += 1
break
else:
now = event[cnt]
print(ans) | ConDefects/ConDefects/Code/abc325_d/Python/53574782 |
condefects-python_data_46 | from heapq import heappush, heappop
n = int(input())
arr = [list(map(int, input().split())) for _ in range(n)]
arr = sorted(arr)
heap = []
i, cnt, t = 0, 0, 1
while i < len(arr):
if t < arr[i][0]: t = arr[i][0]
while i < len(arr) and arr[i][0] <= t:
heappush(heap, (arr[i][0] + arr[i][1]))
i += 1
while len(heap):
x = heappop(heap)
if x < t: continue
t += 1
cnt += 1
break
while len(heap):
if heappop(heap) >= t:
t += 1
cnt += 1
print(cnt)
from heapq import heappush, heappop
n = int(input())
arr = [list(map(int, input().split())) for _ in range(n)]
arr = sorted(arr)
heap = []
i, cnt, t = 0, 0, 1
while i < len(arr):
if len(heap) == 0 and t < arr[i][0]: t = arr[i][0]
while i < len(arr) and arr[i][0] <= t:
heappush(heap, (arr[i][0] + arr[i][1]))
i += 1
while len(heap):
x = heappop(heap)
if x < t: continue
t += 1
cnt += 1
break
while len(heap):
if heappop(heap) >= t:
t += 1
cnt += 1
print(cnt) | ConDefects/ConDefects/Code/abc325_d/Python/53458224 |
condefects-python_data_47 | import sys
input = lambda: sys.stdin.readline().strip()
from collections import defaultdict
d = defaultdict(int)
n=int(input())
a=list(map(int,input().split()))
m=200005
for i in range(n):
d[a[i]]+=1
ans=0
for i in range(1,m):
for j in range((m-1)//i):
k=i*j
ans+=d[k]*d[i]*d[j]
print(ans)
import sys
input = lambda: sys.stdin.readline().strip()
from collections import defaultdict
d = defaultdict(int)
n=int(input())
a=list(map(int,input().split()))
m=200005
for i in range(n):
d[a[i]]+=1
ans=0
for i in range(1,m):
for j in range(1,1+m//i):
k=i*j
ans+=d[k]*d[i]*d[j]
print(ans) | ConDefects/ConDefects/Code/abc249_d/Python/44452633 |
condefects-python_data_48 | n = 10**12
def primes(n):
ass = []
is_prime = [True] * (n+1)
is_prime[0] = False
is_prime[1] = False
for i in range(2, int(n**0.5)+1):
if not is_prime[i]:
continue
for j in range(i*2, n+1, i):
is_prime[j] = False
for i in range(len(is_prime)):
if is_prime[i]:
ass.append(i)
return ass
x = int((n/12)**0.5)
p = primes(x)
m = len(p)
ans = 0
for b in range(1,m-1):
for c in range(b + 1, m):
if p[b] * p[c]**2 > n:
break
for a in range(b):
if p[a] **2 * p[b] * p[c]**2 > n:
break
else:
ans += 1
print(ans)
n = int(input())
def primes(n):
ass = []
is_prime = [True] * (n+1)
is_prime[0] = False
is_prime[1] = False
for i in range(2, int(n**0.5)+1):
if not is_prime[i]:
continue
for j in range(i*2, n+1, i):
is_prime[j] = False
for i in range(len(is_prime)):
if is_prime[i]:
ass.append(i)
return ass
x = int((n/12)**0.5)
p = primes(x)
m = len(p)
ans = 0
for b in range(1,m-1):
for c in range(b + 1, m):
if p[b] * p[c]**2 > n:
break
for a in range(b):
if p[a] **2 * p[b] * p[c]**2 > n:
break
else:
ans += 1
print(ans) | ConDefects/ConDefects/Code/abc300_d/Python/45256387 |
condefects-python_data_49 | def extgcd(a, b):
if b:
d, y, x = extgcd(b, a % b)
y -= (a // b) * x
return d, x, y
return a, 1, 0
# V = [(X_i, Y_i), ...]: X_i (mod Y_i)
def remainder(V):
x = 0; d = 1
for X, Y in V:
g, a, b = extgcd(d, Y)
x, d = (Y*b*x + d*a*X) // g, d*(Y // g)
x %= d
return x, d
#以下modinv
def mod_inv(a, m):
g, x, y = extgcd(a, m)
if g != 1:
raise Exception("a and m are not coprime.")
if x < 0:
x += m
return x
#####segfunc#####
def Sum(x, y):
return x+y
#################
class SegTree:
"""
init(init_val, ide_ele): 配列init_valで初期化 O(N)
update(k, x): k番目の値をxに更新 O(logN)
query(l, r): 区間[l, r)をsegfuncしたものを返す O(logN)
"""
def __init__(self, init_val, segfunc, ide_ele):
"""
init_val: 配列の初期値
segfunc: 区間にしたい操作
ide_ele: 単位元
n: 要素数
num: n以上の最小の2のべき乗
tree: セグメント木(1-index)
"""
n = len(init_val)
self.segfunc = segfunc
self.ide_ele = ide_ele
self.num = 1 << (n - 1).bit_length()
self.tree = [ide_ele] * 2 * self.num
# 配列の値を葉にセット
for i in range(n):
self.tree[self.num + i] = init_val[i]
# 構築していく
for i in range(self.num - 1, 0, -1):
self.tree[i] = self.segfunc(self.tree[2 * i], self.tree[2 * i + 1])
def update(self, k, x):
"""
k番目の値をxに更新
k: index(0-index)
x: update value
"""
k += self.num
self.tree[k] = x
while k > 1:
self.tree[k >> 1] = self.segfunc(self.tree[k], self.tree[k ^ 1])
k >>= 1
def query(self, l, r):
"""
[l, r)のsegfuncしたものを得る
l: index(0-index)
r: index(0-index)
"""
res = self.ide_ele
l += self.num
r += self.num
while l < r:
if l & 1:
res = self.segfunc(res, self.tree[l])
l += 1
if r & 1:
res = self.segfunc(res, self.tree[r - 1])
l >>= 1
r >>= 1
return res
def setValue(self,x,i):
self.update(x-1,i)
def getMax(self,i,j):
return self.query(i-1,j)
import sys
input=sys.stdin.readline
N,Q=map(int,input().split())
A=list(map(int,input().split()))
Ai=[]
Aii=[]
for i in range(N):
Ai.append(A[i]*(i+1))
Aii.append(A[i]*(i+1)*(i+1))
sta=SegTree(A,Sum,0)
stai=SegTree(Ai,Sum,0)
staii=SegTree(Aii,Sum,0)
p=998244353
for _ in range(Q):
q=list(map(int,input().split()))
if q[0]==1:
q,x,v=q
sta.update(x-1,v)
stai.update(x-1,v*x)
staii.update(x-1,v*x*x)
else:
q,x=q
print((sta.getMax(0,x-1)*(x+1)*(x+2)-stai.getMax(0,x-1)*(2*x+3)+staii.getMax(0,x-1))*mod_inv(2,p)%p)
def extgcd(a, b):
if b:
d, y, x = extgcd(b, a % b)
y -= (a // b) * x
return d, x, y
return a, 1, 0
# V = [(X_i, Y_i), ...]: X_i (mod Y_i)
def remainder(V):
x = 0; d = 1
for X, Y in V:
g, a, b = extgcd(d, Y)
x, d = (Y*b*x + d*a*X) // g, d*(Y // g)
x %= d
return x, d
#以下modinv
def mod_inv(a, m):
g, x, y = extgcd(a, m)
if g != 1:
raise Exception("a and m are not coprime.")
if x < 0:
x += m
return x
#####segfunc#####
def Sum(x, y):
return x+y
#################
class SegTree:
"""
init(init_val, ide_ele): 配列init_valで初期化 O(N)
update(k, x): k番目の値をxに更新 O(logN)
query(l, r): 区間[l, r)をsegfuncしたものを返す O(logN)
"""
def __init__(self, init_val, segfunc, ide_ele):
"""
init_val: 配列の初期値
segfunc: 区間にしたい操作
ide_ele: 単位元
n: 要素数
num: n以上の最小の2のべき乗
tree: セグメント木(1-index)
"""
n = len(init_val)
self.segfunc = segfunc
self.ide_ele = ide_ele
self.num = 1 << (n - 1).bit_length()
self.tree = [ide_ele] * 2 * self.num
# 配列の値を葉にセット
for i in range(n):
self.tree[self.num + i] = init_val[i]
# 構築していく
for i in range(self.num - 1, 0, -1):
self.tree[i] = self.segfunc(self.tree[2 * i], self.tree[2 * i + 1])
def update(self, k, x):
"""
k番目の値をxに更新
k: index(0-index)
x: update value
"""
k += self.num
self.tree[k] = x
while k > 1:
self.tree[k >> 1] = self.segfunc(self.tree[k], self.tree[k ^ 1])
k >>= 1
def query(self, l, r):
"""
[l, r)のsegfuncしたものを得る
l: index(0-index)
r: index(0-index)
"""
res = self.ide_ele
l += self.num
r += self.num
while l < r:
if l & 1:
res = self.segfunc(res, self.tree[l])
l += 1
if r & 1:
res = self.segfunc(res, self.tree[r - 1])
l >>= 1
r >>= 1
return res
def setValue(self,x,i):
self.update(x-1,i)
def getMax(self,i,j):
return self.query(i-1,j)
import sys
input=sys.stdin.readline
N,Q=map(int,input().split())
A=list(map(int,input().split()))
Ai=[]
Aii=[]
for i in range(N):
Ai.append(A[i]*(i+1))
Aii.append(A[i]*(i+1)*(i+1))
sta=SegTree(A,Sum,0)
stai=SegTree(Ai,Sum,0)
staii=SegTree(Aii,Sum,0)
p=998244353
for _ in range(Q):
q=list(map(int,input().split()))
if q[0]==1:
q,x,v=q
sta.update(x-1,v)
stai.update(x-1,v*x)
staii.update(x-1,v*x*x)
else:
q,x=q
print((sta.getMax(1,x)*(x+1)*(x+2)-stai.getMax(1,x)*(2*x+3)+staii.getMax(1,x))*mod_inv(2,p)%p) | ConDefects/ConDefects/Code/abc256_f/Python/41932099 |
condefects-python_data_50 | #!/usr/bin/env python3
import sys
from bisect import bisect_left, bisect_right, insort_left, insort_right # type: ignore
from collections import Counter, defaultdict, deque # type: ignore
from math import gcd, sqrt # type: ignore
from heapq import heapify, heappop, heappush, heappushpop, heapreplace, merge # type: ignore
from itertools import accumulate, combinations, permutations, product # type: ignore
def LI(): return list(map(int, sys.stdin.buffer.readline().split()))
def I(): return int(sys.stdin.buffer.readline())
def LS(): return sys.stdin.buffer.readline().rstrip().decode("utf-8").split()
def S(): return sys.stdin.buffer.readline().rstrip().decode("utf-8")
def IR(n): return [I() for _ in range(n)]
def LIR(n): return [LI() for _ in range(n)]
def SR(n): return [S() for _ in range(n)]
def LSR(n): return [LS() for _ in range(n)]
def SRL(n): return [list(S()) for _ in range(n)]
#####segfunc#####
def segfunc(x, y):
return (x+y)%MOD
#################
#####ide_ele#####
ide_ele = 0
#################
class SegTree:
"""
init(init_val, ide_ele): 配列init_valで初期化 O(N)
update(k, x): k番目の値をxに更新 O(logN)
query(l, r): 区間[l, r)をsegfuncしたものを返す O(logN)
"""
def __init__(self, init_val, segfunc, ide_ele):
"""
init_val: 配列の初期値
segfunc: 区間にしたい操作
ide_ele: 単位元
n: 要素数
num: n以上の最小の2のべき乗
tree: セグメント木(1-index)
"""
n = len(init_val)
self.segfunc = segfunc
self.ide_ele = ide_ele
self.num = 1 << (n - 1).bit_length()
self.tree = [ide_ele] * 2 * self.num
# 配列の値を葉にセット
for i in range(n):
self.tree[self.num + i] = init_val[i]
# 構築していく
for i in range(self.num - 1, 0, -1):
self.tree[i] = self.segfunc(self.tree[2 * i], self.tree[2 * i + 1])
def update(self, k, x):
"""
k番目の値をxに更新
k: index(0-index)
x: update value
"""
k += self.num
self.tree[k] = x
while k > 1:
self.tree[k >> 1] = self.segfunc(self.tree[k], self.tree[k ^ 1])
k >>= 1
def query(self, l, r):
"""
[l, r)のsegfuncしたものを得る
l: index(0-index)
r: index(0-index)
"""
res = self.ide_ele
l += self.num
r += self.num
while l < r:
if l & 1:
res = self.segfunc(res, self.tree[l])
l += 1
if r & 1:
res = self.segfunc(res, self.tree[r - 1])
l >>= 1
r >>= 1
return res
N,Q = LI()
A = [0]+LI()
MOD = 998244353
aj = SegTree(A,segfunc,ide_ele)
jaj = SegTree([i*v for i,v in enumerate(A)],segfunc,ide_ele)
jjaj = SegTree([i*i*v for i,v in enumerate(A)],segfunc,ide_ele)
for _ in range(Q):
q = LI()
assert jaj.query(0,1)==0
assert jjaj.query(0,1)==0
if q[0]==1:
x,v = q[1:]
aj.update(x,v)
jaj.update(x,x*v)
jjaj.update(x,x*x*v)
else:
x = q[1]
tmp = jjaj.query(0,x+1)-(2*x+3)*jaj.query(0,x+1)+(x+1)*(x+2)*aj.query(0,x+1)
print((tmp//2)%MOD)
#!/usr/bin/env python3
import sys
from bisect import bisect_left, bisect_right, insort_left, insort_right # type: ignore
from collections import Counter, defaultdict, deque # type: ignore
from math import gcd, sqrt # type: ignore
from heapq import heapify, heappop, heappush, heappushpop, heapreplace, merge # type: ignore
from itertools import accumulate, combinations, permutations, product # type: ignore
def LI(): return list(map(int, sys.stdin.buffer.readline().split()))
def I(): return int(sys.stdin.buffer.readline())
def LS(): return sys.stdin.buffer.readline().rstrip().decode("utf-8").split()
def S(): return sys.stdin.buffer.readline().rstrip().decode("utf-8")
def IR(n): return [I() for _ in range(n)]
def LIR(n): return [LI() for _ in range(n)]
def SR(n): return [S() for _ in range(n)]
def LSR(n): return [LS() for _ in range(n)]
def SRL(n): return [list(S()) for _ in range(n)]
#####segfunc#####
def segfunc(x, y):
return (x+y)%MOD
#################
#####ide_ele#####
ide_ele = 0
#################
class SegTree:
"""
init(init_val, ide_ele): 配列init_valで初期化 O(N)
update(k, x): k番目の値をxに更新 O(logN)
query(l, r): 区間[l, r)をsegfuncしたものを返す O(logN)
"""
def __init__(self, init_val, segfunc, ide_ele):
"""
init_val: 配列の初期値
segfunc: 区間にしたい操作
ide_ele: 単位元
n: 要素数
num: n以上の最小の2のべき乗
tree: セグメント木(1-index)
"""
n = len(init_val)
self.segfunc = segfunc
self.ide_ele = ide_ele
self.num = 1 << (n - 1).bit_length()
self.tree = [ide_ele] * 2 * self.num
# 配列の値を葉にセット
for i in range(n):
self.tree[self.num + i] = init_val[i]
# 構築していく
for i in range(self.num - 1, 0, -1):
self.tree[i] = self.segfunc(self.tree[2 * i], self.tree[2 * i + 1])
def update(self, k, x):
"""
k番目の値をxに更新
k: index(0-index)
x: update value
"""
k += self.num
self.tree[k] = x
while k > 1:
self.tree[k >> 1] = self.segfunc(self.tree[k], self.tree[k ^ 1])
k >>= 1
def query(self, l, r):
"""
[l, r)のsegfuncしたものを得る
l: index(0-index)
r: index(0-index)
"""
res = self.ide_ele
l += self.num
r += self.num
while l < r:
if l & 1:
res = self.segfunc(res, self.tree[l])
l += 1
if r & 1:
res = self.segfunc(res, self.tree[r - 1])
l >>= 1
r >>= 1
return res
N,Q = LI()
A = [0]+LI()
MOD = 998244353
aj = SegTree(A,segfunc,ide_ele)
jaj = SegTree([i*v for i,v in enumerate(A)],segfunc,ide_ele)
jjaj = SegTree([i*i*v for i,v in enumerate(A)],segfunc,ide_ele)
for _ in range(Q):
q = LI()
assert jaj.query(0,1)==0
assert jjaj.query(0,1)==0
if q[0]==1:
x,v = q[1:]
aj.update(x,v)
jaj.update(x,x*v)
jjaj.update(x,x*x*v)
else:
x = q[1]
tmp = jjaj.query(0,x+1)-(2*x+3)*jaj.query(0,x+1)+(x+1)*(x+2)*aj.query(0,x+1)
print((tmp*pow(2,MOD-2,MOD))%MOD)
| ConDefects/ConDefects/Code/abc256_f/Python/42749759 |
condefects-python_data_51 | if __name__ == '__main__':
s = str(input())
n = int(input())
m = len(s)
res = 0
for i in range(m):
if s[i] == "1":
res += (1 << (m - 1 - i))
if res > n:
res = -1
else:
for i in range(m - 1, -1, -1):
if s[i] == "?" and res + (1 << (m - 1 - i)) <= n:
res += (1 << (m - 1 - i))
print(res)
if __name__ == '__main__':
s = str(input())
n = int(input())
m = len(s)
res = 0
for i in range(m):
if s[i] == "1":
res += (1 << (m - 1 - i))
if res > n:
res = -1
else:
for i in range(m):
if s[i] == "?" and res + (1 << (m - 1 - i)) <= n:
res += (1 << (m - 1 - i))
print(res) | ConDefects/ConDefects/Code/abc301_d/Python/45723653 |
condefects-python_data_52 |
def solve():
s = input()
n = int(input())
ans = int(s.replace('?', '0'), 2)
print(ans)
if ans > n:
print(-1)
return
m = len(s)
for i, c in enumerate(s):
if c == '?' and ans + (1 << (m - 1 - i)) <= n:
ans += (1 << (m - 1 - i))
return
solve()
def solve():
s = input()
n = int(input())
ans = int(s.replace('?', '0'), 2)
if ans > n:
print(-1)
return
m = len(s)
for i, c in enumerate(s):
if c == '?' and ans + (1 << (m - 1 - i)) <= n:
ans += (1 << (m - 1 - i))
print(ans)
return
solve() | ConDefects/ConDefects/Code/abc301_d/Python/45732372 |
condefects-python_data_53 | import sys
from functools import lru_cache, cmp_to_key
from itertools import accumulate
from collections import defaultdict, Counter, deque
from math import inf, sqrt, isqrt, ceil, comb
from bisect import bisect_left, bisect_right
from sortedcontainers import SortedSet, SortedList
# mod = 998244353
def main():
# 2023-09-19 15:39:55
s = input()
n = int(input())
res = int(s.replace("?", "0"), 2)
if res > n:
print(-1)
return
for i, ch in enumerate(s):
d = len(s) - 1 - i
if ch == "?" and (res + 1) << d <= n:
res += 1 << d
print(res)
def input() -> str:
return sys.stdin.readline().rstrip()
def read_ints():
return map(int, input().split())
if __name__ == "__main__":
main()
import sys
from functools import lru_cache, cmp_to_key
from itertools import accumulate
from collections import defaultdict, Counter, deque
from math import inf, sqrt, isqrt, ceil, comb
from bisect import bisect_left, bisect_right
from sortedcontainers import SortedSet, SortedList
# mod = 998244353
def main():
# 2023-09-19 15:39:55
s = input()
n = int(input())
res = int(s.replace("?", "0"), 2)
if res > n:
print(-1)
return
for i, ch in enumerate(s):
d = len(s) - 1 - i
if ch == "?" and res + (1 << d) <= n:
res += 1 << d
print(res)
def input() -> str:
return sys.stdin.readline().rstrip()
def read_ints():
return map(int, input().split())
if __name__ == "__main__":
main()
| ConDefects/ConDefects/Code/abc301_d/Python/45725346 |
condefects-python_data_54 | import sys
from collections import deque, defaultdict
from math import *
from bisect import bisect_left, bisect_right
input = sys.stdin.readline
def get(s1, s2):
global n
i = 0
while i < len(s1) and (s1[i] == '?' or s1[i] == s2[i]):
i += 1
if i == len(s1): return n
else:
if s1[i] < s2[i]:
v = 0
for j in range(i):
v = v * 2 + int(s2[j])
for j in range(i, len(s1)):
if s1[j] == '0': v = v * 2
else: v = v * 2 + 1
return v
else:
j = i - 1
while j >= 0 and (s1[j] != '?' or s2[j] == '0'):
j -= 1
if j == -1: return -1
else:
v = 0
for k in range(j):
v = v * 2 + int(s2[k])
v = v * 2
for k in range(j+1, len(s1)):
if s1[k] == '0': v = v << 1
else: v = v * 2 + 1
return v
if __name__ == "__main__":
s1 = input().strip()
n = int(input())
s2 = bin(n)[2:]
i = 0
while i < len(s1) - 1 and s1[i] == '0':
i += 1
s1 = s1[i:]
v = 0
if len(s1) < len(s2):
for x in s1:
if x == '0': v = v * 2
else: v = v * 2 + 1
elif len(s1) == len(s2):
v = get(s1, s2)
else:
le = len(s1) - len(s2)
if s1[:le] != '?' * le: v = -1
else:
v = get(s1[le:], s2)
print(v)
import sys
from collections import deque, defaultdict
from math import *
from bisect import bisect_left, bisect_right
input = sys.stdin.readline
def get(s1, s2):
global n
i = 0
while i < len(s1) and (s1[i] == '?' or s1[i] == s2[i]):
i += 1
if i == len(s1): return n
else:
if s1[i] < s2[i]:
v = 0
for j in range(i):
v = v * 2 + int(s2[j])
for j in range(i, len(s1)):
if s1[j] == '0': v = v * 2
else: v = v * 2 + 1
return v
else:
j = i - 1
while j >= 0 and (s1[j] != '?' or s2[j] == '0'):
j -= 1
if j == -1: return -1
else:
v = 0
for k in range(j):
v = v * 2 + int(s2[k])
v = v * 2
for k in range(j+1, len(s1)):
if s1[k] == '0': v = v << 1
else: v = v * 2 + 1
return v
if __name__ == "__main__":
s1 = input().strip()
n = int(input())
s2 = bin(n)[2:]
i = 0
while i < len(s1) - 1 and s1[i] == '0':
i += 1
s1 = s1[i:]
v = 0
if len(s1) < len(s2):
for x in s1:
if x == '0': v = v * 2
else: v = v * 2 + 1
elif len(s1) == len(s2):
v = get(s1, s2)
else:
le = len(s1) - len(s2)
if s1[:le].count('1') > 0: v = -1
else:
v = get(s1[le:], s2)
print(v)
| ConDefects/ConDefects/Code/abc301_d/Python/45747617 |
condefects-python_data_55 | def get_min(s):
mask = 1
val = 0
for ch in s[::-1]:
if ch == '1':
val += mask
mask <<= 1
return val
def I():
return input()
def II():
return int(input())
def solve():
s = I()
n = II()
min_val = get_min(s)
mask = 1 << (len(s) - 1)
if min_val > n:
return -1
ans = 0
for ch in s:
if ch == '?' and min_val + mask <= n:
ans += mask
n -= mask
if ch == '1':
min_val -= mask
mask >>= 1
return ans
print(solve())
def get_min(s):
mask = 1
val = 0
for ch in s[::-1]:
if ch == '1':
val += mask
mask <<= 1
return val
def I():
return input()
def II():
return int(input())
def solve():
s = I()
n = II()
min_val = get_min(s)
mask = 1 << (len(s) - 1)
if min_val > n:
return -1
ans = 0
for ch in s:
if ch == '?' and min_val + mask <= n:
ans += mask
n -= mask
if ch == '1':
min_val -= mask
ans += mask
n -= mask
mask >>= 1
return ans
print(solve()) | ConDefects/ConDefects/Code/abc301_d/Python/45718315 |
condefects-python_data_56 | n,m = map(int,input().split())
d = [[0] * (n+2) for _ in range(n+2)]
c = [0] * (n+1)
d[0][0] = c[0] = 1
M = 998244353
for i in range(1,n+1):
for s in range(i,n+1):
d[i][s] += d[i][s-i] + c[s-i]
for s in range(n+1):
c[s] += d[i][s] - d[i-m][s]
c[s] %= M
print(d[i][n])
n,m = map(int,input().split())
d = [[0] * (n+2) for _ in range(n+2)]
c = [0] * (n+1)
d[0][0] = c[0] = 1
M = 998244353
for i in range(1,n+1):
for s in range(i,n+1):
d[i][s] += d[i][s-i] + c[s-i]
for s in range(n+1):
c[s] += d[i][s] - d[i-m][s]
c[s] %= M
print(d[i][n] % M)
| ConDefects/ConDefects/Code/abc221_h/Python/40746464 |
condefects-python_data_57 | N,M = map(int,input().split())
MOD = 998244353
dp = [[0]*(N+1) for _ in range(N+1)] #dp[i][j]: i個使ってその和がj
dp[0][0] = 1
S = [[0,0] for _ in range(N+1)]
S[0][1] = 1
for i in range(1,N+1):
for j in range(N+1):
nj = j-i
if nj < 0:
S[j].append(S[j][-1])
continue
k_max = min(M,i) #1が最大で何個入っているか
print(i,j,nj,k_max)
dp[i][j] = (S[nj][-1]-S[nj][-1-k_max-1])%MOD
S[j].append((S[j][-1]+dp[i][j])%MOD)
for i in range(1,N+1):
print(dp[i][-1])
N,M = map(int,input().split())
MOD = 998244353
dp = [[0]*(N+1) for _ in range(N+1)] #dp[i][j]: i個使ってその和がj
dp[0][0] = 1
S = [[0,0] for _ in range(N+1)]
S[0][1] = 1
for i in range(1,N+1):
for j in range(N+1):
nj = j-i
if nj < 0:
S[j].append(S[j][-1])
continue
k_max = min(M,i) #1が最大で何個入っているか
#print(i,j,nj,k_max)
dp[i][j] = (S[nj][-1]-S[nj][-1-k_max-1])%MOD
S[j].append((S[j][-1]+dp[i][j])%MOD)
for i in range(1,N+1):
print(dp[i][-1]) | ConDefects/ConDefects/Code/abc221_h/Python/26325908 |
condefects-python_data_58 | import sys
readline = sys.stdin.readline
n,m = map(int,readline().split())
dp = [[0]*(n+1) for _ in range(n+1)]
acc = [[0]*(n+1) for _ in range(n+1)]
dp[0][0] = 1
acc[0] = [1]*(n+1)
MOD = 9998244353
for x in range(1,n+1):
dpx = dp[x]
for y in range(1,n+1):
dpx[y] = (acc[x-y][y] - (0 if y-m-1 < 0 else acc[x-y][y-m-1]))%MOD
acc[x][y] = (acc[x][y-1]+dpx[y])%MOD
print(*dp[n][1:],sep="\n")
import sys
readline = sys.stdin.readline
n,m = map(int,readline().split())
dp = [[0]*(n+1) for _ in range(n+1)]
acc = [[0]*(n+1) for _ in range(n+1)]
dp[0][0] = 1
acc[0] = [1]*(n+1)
MOD = 998244353
for x in range(1,n+1):
dpx = dp[x]
for y in range(1,n+1):
dpx[y] = (acc[x-y][y] - (0 if y-m-1 < 0 else acc[x-y][y-m-1]))%MOD
acc[x][y] = (acc[x][y-1]+dpx[y])%MOD
print(*dp[n][1:],sep="\n") | ConDefects/ConDefects/Code/abc221_h/Python/30564189 |
condefects-python_data_59 | #!usr/bin/env python3
from collections import defaultdict, deque
from heapq import heappush, heappop
from itertools import permutations, accumulate
import sys
import math
import bisect
def LI(): return [int(x) for x in sys.stdin.readline().split()]
def I(): return int(sys.stdin.readline())
def IR(n):
return [I() for _ in range(n)]
def LIR(n):
return [LI() for _ in range(n)]
sys.setrecursionlimit(1000000)
mod = 998244353
def solve():
n,m = LI()
dp = [[0]*(n+1) for _ in range(n+1)]
dp[0][0] = 1
for i in range(1,n+1):
ndp = dp[i]
ndp[1] = 1
for j in range(2,i+1):
ndp[j] = dp[i-j][j]+dp[i-1][j-1]
if i > m:
ndp[j] -= dp[i-j][j-1-m]
ndp[j] %= mod
for i in dp[n][1:]:
print(i)
return
if __name__ == "__main__":
solve()
#!usr/bin/env python3
from collections import defaultdict, deque
from heapq import heappush, heappop
from itertools import permutations, accumulate
import sys
import math
import bisect
def LI(): return [int(x) for x in sys.stdin.readline().split()]
def I(): return int(sys.stdin.readline())
def IR(n):
return [I() for _ in range(n)]
def LIR(n):
return [LI() for _ in range(n)]
sys.setrecursionlimit(1000000)
mod = 998244353
def solve():
n,m = LI()
dp = [[0]*(n+1) for _ in range(n+1)]
dp[0][0] = 1
for i in range(1,n+1):
ndp = dp[i]
ndp[1] = 1
for j in range(2,i+1):
ndp[j] = dp[i-j][j]+dp[i-1][j-1]
if j >= m:
ndp[j] -= dp[i-j][j-1-m]
ndp[j] %= mod
for i in dp[n][1:]:
print(i)
return
if __name__ == "__main__":
solve()
| ConDefects/ConDefects/Code/abc221_h/Python/26320903 |
condefects-python_data_60 | import sys
input = sys.stdin.readline
N,M=map(int,input().split())
mod=998244353
# ヤング図形を用いて考えるのが重要
# ヤング図形に置き換えた後はDP
DP=[[0]*(N+5) for i in range(N+5)]
# DP[i][j]で、今までの総和がi、今まで使った段差がj個。
# DP[i+j][j]+=DP[i][j] : 今までの段差全てに+1
# DP[i+k+j][j+k] += DP[i][j] : 今までの段差全てに+1し、さらにk<=M個一段のものを加える。
DP[1][1]=1
DP[1+M+1][1+M+1]=-1
for i in range(1,N+5):
for j in range(1,N+5):
DP[i][j]+=DP[i-1][j-1]
DP[i][j]%=mod
if i+j<N+5:
DP[i+j][j]+=DP[i][j]
DP[i+j][j]%=mod
if i+M+1+j<N+5 and j+M+1<N+5:
DP[i+M+1+j][j+M+1]-=DP[i][j]
DP[i+M+1+j][j+M+1]%=mod
print(*DP[N][1:N+1])
import sys
input = sys.stdin.readline
N,M=map(int,input().split())
mod=998244353
# ヤング図形を用いて考えるのが重要
# ヤング図形に置き換えた後はDP
DP=[[0]*(N+5) for i in range(N+5)]
# DP[i][j]で、今までの総和がi、今まで使った段差がj個。
# DP[i+j][j]+=DP[i][j] : 今までの段差全てに+1
# DP[i+k+j][j+k] += DP[i][j] : 今までの段差全てに+1し、さらにk<=M個一段のものを加える。
DP[1][1]=1
DP[1+M][1+M]=-1
for i in range(1,N+5):
for j in range(1,N+5):
DP[i][j]+=DP[i-1][j-1]
DP[i][j]%=mod
if i+j<N+5:
DP[i+j][j]+=DP[i][j]
DP[i+j][j]%=mod
if i+M+1+j<N+5 and j+M+1<N+5:
DP[i+M+1+j][j+M+1]-=DP[i][j]
DP[i+M+1+j][j+M+1]%=mod
print(*DP[N][1:N+1]) | ConDefects/ConDefects/Code/abc221_h/Python/26785022 |
condefects-python_data_61 | import math
from heapq import heapify, heappop, heappush
# import bisect
import sys
input = sys.stdin.readline
sys.setrecursionlimit(10**6)
def ipt(num=0):
if num==1:return int(input())
elif num==2:return map(int, input().split())
elif num==3:return input().rstrip()
return list(map(int, input().split()))
# mod = 998244353
# d = [[] for i in range(n)]
# for i in range(n):
n=ipt(1)
a=ipt()
class SegTree():
def __init__(self,n) -> None:
self.N0 = 2**(n-1).bit_length()
self.INF = 2**60
self.data = [self.INF]*(2*self.N0)
# a_k の値を x に更新
def update(self, k, x):
k += self.N0-1
self.data[k] = x
while k >= 0:
k = (k - 1) // 2
self.data[k] = min(self.data[2*k+1], self.data[2*k+2])
# 区間[l, r)の最小値
def query(self, l, r):
L = l + self.N0; R = r + self.N0
s = self.INF
while L < R:
if R & 1:
R -= 1
s = min(s, self.data[R-1])
if L & 1:
s = min(s, self.data[L-1])
L += 1
L >>= 1; R >>= 1
return s
inf=1<<40
l=[inf]*n
st=SegTree(n+1);st2=SegTree(n+1)
st.update(a[0],-a[0]-1)
st2.update(a[0],a[0]-1)
for i in range(1,n):
s=st.query(0,a[i])+a[i]+i+1
ss=st2.query(a[i]+1,n+1)-a[i]+i+1
l[i]=min(s,ss)
st.update(a[i],-a[i]-i-1)
st2.update(a[i],a[i]-i-1)
st=SegTree(n+1);st2=SegTree(n+1)
st.update(a[n-1],-a[n-1]+n)
st.update(a[n-1],a[n-1]+n)
for i in range(n-2,-1,-1):
s=st.query(0,a[i])+a[i]-i-1
ss=st2.query(a[i]+1,n+1)-a[i]-i-1
s=min(s,ss);l[i]=min(s,l[i])
st.update(a[i],-a[i]+i+1)
st2.update(a[i],a[i]+i+1)
print(*l)
import math
from heapq import heapify, heappop, heappush
# import bisect
import sys
input = sys.stdin.readline
sys.setrecursionlimit(10**6)
def ipt(num=0):
if num==1:return int(input())
elif num==2:return map(int, input().split())
elif num==3:return input().rstrip()
return list(map(int, input().split()))
# mod = 998244353
# d = [[] for i in range(n)]
# for i in range(n):
n=ipt(1)
a=ipt()
class SegTree():
def __init__(self,n) -> None:
self.N0 = 2**(n-1).bit_length()
self.INF = 2**60
self.data = [self.INF]*(2*self.N0)
# a_k の値を x に更新
def update(self, k, x):
k += self.N0-1
self.data[k] = x
while k >= 0:
k = (k - 1) // 2
self.data[k] = min(self.data[2*k+1], self.data[2*k+2])
# 区間[l, r)の最小値
def query(self, l, r):
L = l + self.N0; R = r + self.N0
s = self.INF
while L < R:
if R & 1:
R -= 1
s = min(s, self.data[R-1])
if L & 1:
s = min(s, self.data[L-1])
L += 1
L >>= 1; R >>= 1
return s
inf=1<<40
l=[inf]*n
st=SegTree(n+1);st2=SegTree(n+1)
st.update(a[0],-a[0]-1)
st2.update(a[0],a[0]-1)
for i in range(1,n):
s=st.query(0,a[i])+a[i]+i+1
ss=st2.query(a[i]+1,n+1)-a[i]+i+1
l[i]=min(s,ss)
st.update(a[i],-a[i]-i-1)
st2.update(a[i],a[i]-i-1)
st=SegTree(n+1);st2=SegTree(n+1)
st.update(a[n-1],-a[n-1]+n)
st2.update(a[n-1],a[n-1]+n)
for i in range(n-2,-1,-1):
s=st.query(0,a[i])+a[i]-i-1
ss=st2.query(a[i]+1,n+1)-a[i]-i-1
s=min(s,ss);l[i]=min(s,l[i])
st.update(a[i],-a[i]+i+1)
st2.update(a[i],a[i]+i+1)
print(*l)
| ConDefects/ConDefects/Code/abc283_f/Python/46910621 |
condefects-python_data_62 | from collections import deque
from collections import defaultdict
import sys
sys.setrecursionlimit(1000000)
s=input()
t=[]
for i in s:
t.append(i)
k=0
for i in range(len(t)):
if t[i]=="(":
k+=1
elif t[i]==")":
k-=1
else:
if k%2==1:
if ord(t[i])-ord("A")<26:
t[i]=chr(ord(t[i])-ord("A")+ord("a"))
else:
t[i]=chr(ord(t[i])+ord("A")-ord("a"))
#print(t)
pi=defaultdict(int)
ppi=defaultdict(int)
kakko=[0 for i in range(len(t))]
#kk=0
qu=[]
for i in range(len(t)):
if t[i]=="(":
#kk+=1
qu.append(i)
#pi[kk]=i
#kakko[i]=kk
elif t[i]==")":
r=qu.pop(-1)
ppi[i]=r
ppi[r]=i
print(ppi)
#kakko[i]=-qu.pop(-1)
#print(kakko)
def kai(s,f,u):
#print("p",s,f,u,"p")
#if s==f:
#return
if u==0:
i=s
while s<=i<f:
#for i in range(s,f):
if t[i]=="(":
p=ppi[i]
#p=kakko.index(-kakko[i])
kai(i,p,1)
i=p+1
elif t[i]==")":
break
else:
print(t[i],end="")
i+=1
else:
i=f-1
while s<=i<f:
#for i in reversed(range(s,f)):
if t[i]==")":
p=ppi[i]
#p=kakko.index(-kakko[i])
kai(p+1,i,0)
i=p-1
elif t[i]=="(":
break
else:
print(t[i],end="")
i-=1
kai(0,len(t),0)
print()
from collections import deque
from collections import defaultdict
import sys
sys.setrecursionlimit(1000000)
s=input()
t=[]
for i in s:
t.append(i)
k=0
for i in range(len(t)):
if t[i]=="(":
k+=1
elif t[i]==")":
k-=1
else:
if k%2==1:
if ord(t[i])-ord("A")<26:
t[i]=chr(ord(t[i])-ord("A")+ord("a"))
else:
t[i]=chr(ord(t[i])+ord("A")-ord("a"))
#print(t)
pi=defaultdict(int)
ppi=defaultdict(int)
kakko=[0 for i in range(len(t))]
#kk=0
qu=[]
for i in range(len(t)):
if t[i]=="(":
#kk+=1
qu.append(i)
#pi[kk]=i
#kakko[i]=kk
elif t[i]==")":
r=qu.pop(-1)
ppi[i]=r
ppi[r]=i
#print(ppi)
#kakko[i]=-qu.pop(-1)
#print(kakko)
def kai(s,f,u):
#print("p",s,f,u,"p")
#if s==f:
#return
if u==0:
i=s
while s<=i<f:
#for i in range(s,f):
if t[i]=="(":
p=ppi[i]
#p=kakko.index(-kakko[i])
kai(i,p,1)
i=p+1
elif t[i]==")":
break
else:
print(t[i],end="")
i+=1
else:
i=f-1
while s<=i<f:
#for i in reversed(range(s,f)):
if t[i]==")":
p=ppi[i]
#p=kakko.index(-kakko[i])
kai(p+1,i,0)
i=p-1
elif t[i]=="(":
break
else:
print(t[i],end="")
i-=1
kai(0,len(t),0)
print()
| ConDefects/ConDefects/Code/abc350_f/Python/54219104 |
condefects-python_data_63 | from collections import deque
def swap_char(x, swap):
if swap == 0:
return x
else:
xu = x.upper()
if x == xu:
return x.lower()
else:
return xu
S = list(input())
left_to_right = dict()
d = deque()
for i, s in enumerate(S):
if s == "(":
d.append(i)
if s == ")":
left_to_right[d.pop()] = i
right_to_left = {v: k for k, v in left_to_right.items()}
print(left_to_right)
print(right_to_left)
i = 0
swap = 0
while i < len(S):
if swap == 0:
if S[i] == "(":
i = left_to_right[i] - 1
swap = 1
elif S[i] == ")":
i = right_to_left[i] - 1
swap = 1
else:
print(S[i], end="")
i += 1
else:
if S[i] == ")":
i = right_to_left[i] + 1
swap = 0
elif S[i] == "(":
i = left_to_right[i] + 1
swap = 0
else:
print(swap_char(S[i], 1), end="")
i -= 1
print("")
from collections import deque
def swap_char(x, swap):
if swap == 0:
return x
else:
xu = x.upper()
if x == xu:
return x.lower()
else:
return xu
S = list(input())
left_to_right = dict()
d = deque()
for i, s in enumerate(S):
if s == "(":
d.append(i)
if s == ")":
left_to_right[d.pop()] = i
right_to_left = {v: k for k, v in left_to_right.items()}
i = 0
swap = 0
while i < len(S):
if swap == 0:
if S[i] == "(":
i = left_to_right[i] - 1
swap = 1
elif S[i] == ")":
i = right_to_left[i] - 1
swap = 1
else:
print(S[i], end="")
i += 1
else:
if S[i] == ")":
i = right_to_left[i] + 1
swap = 0
elif S[i] == "(":
i = left_to_right[i] + 1
swap = 0
else:
print(swap_char(S[i], 1), end="")
i -= 1
print("")
| ConDefects/ConDefects/Code/abc350_f/Python/53750325 |
condefects-python_data_64 | N, X = map(int, input().split())
A = list(map(int,input().split()))
Aset = set(A)
ok = False
for a in A:
if X-a in Aset:
ok = True
break
if ok:
print('Yes')
else:
print('No')
N, X = map(int, input().split())
A = list(map(int,input().split()))
Aset = set(A)
ok = False
for a in A:
if a + X in Aset:
ok = True
break
if ok:
print('Yes')
else:
print('No')
| ConDefects/ConDefects/Code/abc296_c/Python/46012599 |
condefects-python_data_65 | import heapq
import math
def dijkstra(graph,start):
N = len(graph)
dist = [float('inf')] * len(graph)
dist[start] = 0
q = [(0,start)]
while q:
cost,current = heapq.heappop(q)
if dist[current] < cost: continue
if math.isfinite(dist[goal]):
print(dist[goal])
exit()
for i, weight in graph[current]:
if cost + cost < dist[i]:
dist[i] = cost + weight
heapq.heappush(q, (dist[i],i,))
return dist
N,M = map(int,input().split())
A = list(map(int,input().split()))
B = list(map(int,input().split()))
order = sorted(range(N), key=lambda i:B[i])
A = [A[i] for i in order]
B = [B[i] for i in order]
start = order.index(0)
goal = order.index(N-1)
graph = [[] for _ in range(2*N)]
for i in range(N-1):
graph[N+i].append((N+i+1,B[i+1]-B[i],))
import bisect
for i in range(N):
graph[i ].append((N,A[i]+B[0]))
graph[i+N].append((i,0 ))
idx = bisect.bisect_left(B,M-A[i])
if idx < N:
graph[i].append((N+idx,A[i]+B[idx]-M))
dist = dijkstra(graph, start)
print(dist[goal])
import heapq
import math
def dijkstra(graph,start):
N = len(graph)
dist = [float('inf')] * len(graph)
dist[start] = 0
q = [(0,start)]
while q:
cost,current = heapq.heappop(q)
if dist[current] < cost: continue
if math.isfinite(dist[goal]):
print(dist[goal])
exit()
for i, weight in graph[current]:
if cost + weight < dist[i]:
dist[i] = cost + weight
heapq.heappush(q, (dist[i],i,))
return dist
N,M = map(int,input().split())
A = list(map(int,input().split()))
B = list(map(int,input().split()))
order = sorted(range(N), key=lambda i:B[i])
A = [A[i] for i in order]
B = [B[i] for i in order]
start = order.index(0)
goal = order.index(N-1)
graph = [[] for _ in range(2*N)]
for i in range(N-1):
graph[N+i].append((N+i+1,B[i+1]-B[i],))
import bisect
for i in range(N):
graph[i ].append((N,A[i]+B[0]))
graph[i+N].append((i,0 ))
idx = bisect.bisect_left(B,M-A[i])
if idx < N:
graph[i].append((N+idx,A[i]+B[idx]-M))
dist = dijkstra(graph, start)
print(dist[goal]) | ConDefects/ConDefects/Code/abc232_g/Python/28970603 |
condefects-python_data_66 | from bisect import bisect_left as bl
from bisect import bisect_right as br
from heapq import heapify, heappush as hpush, heappop as hpop
def dijkstra(n, E, i0=0):
kk = 18
mm = (1 << kk) - 1
h = [i0]
D = [-1] * n
done = [0] * n
D[i0] = 0
while h:
x = hpop(h)
d, i = x >> kk, x & mm
# di = hpop(h)
# d, i = unpack("d", pack("q", (di | mm) - mm))[0], di & mm
if done[i]: continue
done[i] = 1
for j, w in E[i]:
nd = d + w
if D[j] < 0 or D[j] > nd:
if done[j] == 0:
hpush(h, (nd << kk) + j)
# hpush(h, (unpack("q", pack("d", nd))[0] | mm) - (mm - j))
D[j] = nd
return D
N, M = map(int, input().split())
A = [int(a) for a in input().split()]
B = [int(a) for a in input().split()]
AB = sorted([(a, b, i) for i, (a, b) in enumerate(zip(A, B))], key = lambda x: x[1])
A = [ab[0] for ab in AB]
B = [ab[1] for ab in AB]
for j, (a, b, i) in enumerate(AB):
if i == 0:
s = j
elif i == N - 1:
t = j
B.append(1 << 60)
b0 = B[0]
X = [[] for _ in range(2 * N + 1)]
for i in range(N):
X[i+N].append((i + 1 + N, B[i+1] - B[i]))
X[i+N].append((i, 0))
for i, a in enumerate(A):
j = bl(B, M - a)
X[i].append((N, a + b0))
X[i].append((j + N, a + B[j] - M))
print(dijkstra(N * 2 + 1, X, s)[t])
from bisect import bisect_left as bl
from bisect import bisect_right as br
from heapq import heapify, heappush as hpush, heappop as hpop
def dijkstra(n, E, i0=0):
kk = 30
mm = (1 << kk) - 1
h = [i0]
D = [-1] * n
done = [0] * n
D[i0] = 0
while h:
x = hpop(h)
d, i = x >> kk, x & mm
# di = hpop(h)
# d, i = unpack("d", pack("q", (di | mm) - mm))[0], di & mm
if done[i]: continue
done[i] = 1
for j, w in E[i]:
nd = d + w
if D[j] < 0 or D[j] > nd:
if done[j] == 0:
hpush(h, (nd << kk) + j)
# hpush(h, (unpack("q", pack("d", nd))[0] | mm) - (mm - j))
D[j] = nd
return D
N, M = map(int, input().split())
A = [int(a) for a in input().split()]
B = [int(a) for a in input().split()]
AB = sorted([(a, b, i) for i, (a, b) in enumerate(zip(A, B))], key = lambda x: x[1])
A = [ab[0] for ab in AB]
B = [ab[1] for ab in AB]
for j, (a, b, i) in enumerate(AB):
if i == 0:
s = j
elif i == N - 1:
t = j
B.append(1 << 60)
b0 = B[0]
X = [[] for _ in range(2 * N + 1)]
for i in range(N):
X[i+N].append((i + 1 + N, B[i+1] - B[i]))
X[i+N].append((i, 0))
for i, a in enumerate(A):
j = bl(B, M - a)
X[i].append((N, a + b0))
X[i].append((j + N, a + B[j] - M))
print(dijkstra(N * 2 + 1, X, s)[t])
| ConDefects/ConDefects/Code/abc232_g/Python/28189928 |
condefects-python_data_67 | N,M=map(int,input().split())
A=list(map(int,input().split()))
B=list(map(int,input().split()))
C=list()
for i in range(N):
C.append([B[i]-M,i])
C.sort()
for i in range(N):
if C[i][1]==0:
st=i
if C[i][1]==N-1:
fin=i
G=[list() for i in range(N)]
for i in range(N):
if C[i][1]==0:
G[i].append([(i+2)%N,(C[(i+2)%N][0]-C[i][0])%M])
else:
G[i].append([(i+1)%N,(C[(i+1)%N][0]-C[i][0])%M])
K=list()
d=dict()
for i in range(N):
K.append(-A[C[i][1]])
K.sort()
this=0
for i in range(N):
if this==N:
d[K[i]]=this
continue
while C[this][0]<K[i]:
this+=1
if this==N:
break
d[K[i]]=this
for i in range(N):
to=d[-A[C[i][1]]]
if to==N:
to=0
if C[to][1]!=0:
G[i].append([to,(A[C[i][1]]+C[to][0])%M])
else:
G[i].append([(to+1)%N,(A[C[i][1]]+C[(to+1)%N][0])%M])
import heapq
INF=float('inf')
dist=[INF]*N
dist[st]=0
hq=[(0,st)]
heapq.heapify(hq)
while hq:
#print(hq)
cost1,a=heapq.heappop(hq)
for to,cost in G[a]:
if dist[to]>dist[a]+cost:
dist[to]=dist[a]+cost
heapq.heappush(hq,(dist[to],to))
print(dist[fin])
N,M=map(int,input().split())
A=list(map(int,input().split()))
B=list(map(int,input().split()))
C=list()
for i in range(N):
C.append([B[i]-M,i])
C.sort()
for i in range(N):
if C[i][1]==0:
st=i
if C[i][1]==N-1:
fin=i
G=[list() for i in range(N)]
for i in range(N):
if C[i][1]==0:
continue
if C[(i+1)%N][1]==0:
G[i].append([(i+2)%N,(C[(i+2)%N][0]-C[i][0])%M])
else:
G[i].append([(i+1)%N,(C[(i+1)%N][0]-C[i][0])%M])
K=list()
d=dict()
for i in range(N):
K.append(-A[C[i][1]])
K.sort()
this=0
for i in range(N):
if this==N:
d[K[i]]=this
continue
while C[this][0]<K[i]:
this+=1
if this==N:
break
d[K[i]]=this
for i in range(N):
to=d[-A[C[i][1]]]
if to==N:
to=0
if C[to][1]!=0:
G[i].append([to,(A[C[i][1]]+C[to][0])%M])
else:
G[i].append([(to+1)%N,(A[C[i][1]]+C[(to+1)%N][0])%M])
import heapq
INF=float('inf')
dist=[INF]*N
dist[st]=0
hq=[(0,st)]
heapq.heapify(hq)
while hq:
#print(hq)
cost1,a=heapq.heappop(hq)
for to,cost in G[a]:
if dist[to]>dist[a]+cost:
dist[to]=dist[a]+cost
heapq.heappush(hq,(dist[to],to))
print(dist[fin]) | ConDefects/ConDefects/Code/abc232_g/Python/28190550 |
condefects-python_data_68 | n,m = map(int, input().split())
xl = list(map(int, input().split()))
cyl = [list(map(int, input().split())) for _ in range(m)]
yl = [0] * n
for c,y in cyl:
yl[c-1] = y
dp = [[0] * (n) for i in range(n)]
for i in range(n):
if i == 0:
dp[i][0] = xl[0] + yl[0]
else:
for j in range(1,i+1):
dp[i][j] = dp[i-1][j-1] + xl[i] + yl[j]
if i != 1:
dp[i][0] = max(dp[i-2]) + xl[i] + yl[j]
print(max(dp[n-1]))
n,m = map(int, input().split())
xl = list(map(int, input().split()))
cyl = [list(map(int, input().split())) for _ in range(m)]
yl = [0] * n
for c,y in cyl:
yl[c-1] = y
dp = [[0] * (n) for i in range(n)]
for i in range(n):
if i == 0:
dp[i][0] = xl[0] + yl[0]
else:
for j in range(1,i+1):
dp[i][j] = dp[i-1][j-1] + xl[i] + yl[j]
if i != 1:
dp[i][0] = max(dp[i-2]) + xl[i] + yl[0]
print(max(dp[n-1])) | ConDefects/ConDefects/Code/abc261_d/Python/45285878 |
condefects-python_data_69 | # ref: https://qiita.com/Kota-Y/items/396ab3c57830dad65cfb
import sys
import re
from math import ceil, floor, sqrt, pi, factorial, gcd
from copy import deepcopy
from collections import Counter, deque, defaultdict
from heapq import heapify, heappop, heappush
from itertools import accumulate, product, combinations, combinations_with_replacement, permutations
from bisect import bisect, bisect_left, bisect_right
from functools import reduce
from decimal import Decimal, getcontext
def input(): return sys.stdin.readline().strip()
def i_input(): return int(input())
def i_map(): return map(int, input().split())
def i_list(): return list(i_map())
def i_row(N): return [i_input() for _ in range(N)]
def i_row_list(N): return [i_list() for _ in range(N)]
def s_input(): return input()
def s_map(): return input().split()
def s_list(): return list(s_map())
def s_row(N): return [s_input() for _ in range(N)]
def s_row_str(N): return [s_list() for _ in range(N)]
def s_row_list(N): return [list(s_input()) for _ in range(N)]
def lcm(a, b): return a * b // gcd(a, b)
def rotate90(S): return list(zip(*S[::-1]))
def rotate180(S): return list(zip(*list(zip(*S[::-1]))[::-1]))
def rotate270(S): return list(zip(*S))[::-1]
sys.setrecursionlimit(10 ** 6)
INF = float('inf')
MOD = 10 ** 9 + 7
DIRECTION = [
(1, 0),
(1, 1),
(0, 1),
(-1, 1),
(-1, 0),
(-1, -1),
(0, -1),
(1, -1),
]
def main():
N, M = i_map()
X = i_list()
CY = i_row_list(M)
Y = [0 for _ in range(N+1)]
for c, y in CY:
Y[c] = y
# print(Y)
dp = [[-MOD for _ in range(N+1)] for _ in range(N+1)]
dp[0][0] = 0
for i in range(N):
for j in range(N):
# 0のとき
dp[i+1][0] = max(dp[i][j], dp[i+1][0])
# 1のとき
dp[i+1][j+1] = max(dp[i][j]+X[i]+Y[j+1], dp[i+1][j+1])
# for d in dp:
# print(d)
print(max(dp[-1]))
if __name__ == '__main__':
main()
# ref: https://qiita.com/Kota-Y/items/396ab3c57830dad65cfb
import sys
import re
from math import ceil, floor, sqrt, pi, factorial, gcd
from copy import deepcopy
from collections import Counter, deque, defaultdict
from heapq import heapify, heappop, heappush
from itertools import accumulate, product, combinations, combinations_with_replacement, permutations
from bisect import bisect, bisect_left, bisect_right
from functools import reduce
from decimal import Decimal, getcontext
def input(): return sys.stdin.readline().strip()
def i_input(): return int(input())
def i_map(): return map(int, input().split())
def i_list(): return list(i_map())
def i_row(N): return [i_input() for _ in range(N)]
def i_row_list(N): return [i_list() for _ in range(N)]
def s_input(): return input()
def s_map(): return input().split()
def s_list(): return list(s_map())
def s_row(N): return [s_input() for _ in range(N)]
def s_row_str(N): return [s_list() for _ in range(N)]
def s_row_list(N): return [list(s_input()) for _ in range(N)]
def lcm(a, b): return a * b // gcd(a, b)
def rotate90(S): return list(zip(*S[::-1]))
def rotate180(S): return list(zip(*list(zip(*S[::-1]))[::-1]))
def rotate270(S): return list(zip(*S))[::-1]
sys.setrecursionlimit(10 ** 6)
INF = float('inf')
MOD = 10 ** 9 + 7
DIRECTION = [
(1, 0),
(1, 1),
(0, 1),
(-1, 1),
(-1, 0),
(-1, -1),
(0, -1),
(1, -1),
]
def main():
N, M = i_map()
X = i_list()
CY = i_row_list(M)
Y = [0 for _ in range(N+1)]
for c, y in CY:
Y[c] = y
# print(Y)
dp = [[-INF for _ in range(N+1)] for _ in range(N+1)]
dp[0][0] = 0
for i in range(N):
for j in range(N):
# 0のとき
dp[i+1][0] = max(dp[i][j], dp[i+1][0])
# 1のとき
dp[i+1][j+1] = max(dp[i][j]+X[i]+Y[j+1], dp[i+1][j+1])
# for d in dp:
# print(d)
print(max(dp[-1]))
if __name__ == '__main__':
main()
| ConDefects/ConDefects/Code/abc261_d/Python/45506869 |
condefects-python_data_70 | n,m=map(int,input().split())
x=list(map(int,input().split()))
s=[list(map(int,input().split())) for i in range(m)]
ans=0
d=[0]*(n+1)
for i in range(m):
d[s[i][0]]=s[i][1]
dp=[[0]*(n+1) for i in range(n+1)]
for i in range(n):
for j in range(1,n+1):
dp[i+1][j]=dp[i][j-1]+x[i]+d[j]
dp[i+1][0]=max(dp[i])
print(max(dp[-1]))
n,m=map(int,input().split())
x=list(map(int,input().split()))
s=[list(map(int,input().split())) for i in range(m)]
ans=0
d=[0]*(n+1)
for i in range(m):
d[s[i][0]]=s[i][1]
dp=[[0]*(n+1) for i in range(n+1)]
for i in range(n):
for j in range(1,i+2):
dp[i+1][j]=dp[i][j-1]+x[i]+d[j]
dp[i+1][0]=max(dp[i])
print(max(dp[-1])) | ConDefects/ConDefects/Code/abc261_d/Python/46044177 |
condefects-python_data_71 | n = int(input())
adict = dict(zip(list(range(1,n+1)), list(map(int, input().split()))))
iset = set(adict.keys())
aset = set(adict.values())
last = (iset - aset).pop()
acc = []
while last != -1:
acc.append(last)
last = adict[last]
acc.reverse()
print(acc)
n = int(input())
adict = dict(zip(list(range(1,n+1)), list(map(int, input().split()))))
iset = set(adict.keys())
aset = set(adict.values())
last = (iset - aset).pop()
acc = []
while last != -1:
acc.append(last)
last = adict[last]
acc.reverse()
print(*acc) | ConDefects/ConDefects/Code/abc337_c/Python/54271526 |
condefects-python_data_72 | N = int(input())
A = list(map(int, input().split()))
s = [i for i in range(1,N+1)]
d = dict(zip(A, s))
next = d[-1]
while next!=N:
print(next, end = ' ')
next = d[next]
print(next)
N = int(input())
A = list(map(int, input().split()))
s = [i for i in range(1,N+1)]
d = dict(zip(A, s))
next = d[-1]
for _ in range(N-1):
print(next, end = ' ')
next = d[next]
print(next) | ConDefects/ConDefects/Code/abc337_c/Python/54225038 |
condefects-python_data_73 | def solve():
H, W, N = map(int, input().split())
Grid = [[1] * (W + 1) for _ in range(H + 1)]
for i in range(N):
a, b = map(int, input().split())
Grid[a][b] = 0
ans = 0
ODP = [0] * (W + 1)
DP = [0] * (W + 1)
for i in range(1, H + 1):
ODP, DP = DP, ODP
Grid_i = Grid[i]
for j in range(1, W + 1):
if Grid_i[j]:
DP[j] = min(ODP[j - 1], ODP[j], ODP[j - 1]) + 1
else:
DP[j] = 0
ans += DP[j]
return ans
#==================================================
import sys
input=sys.stdin.readline
write=sys.stdout.write
print(solve())
def solve():
H, W, N = map(int, input().split())
Grid = [[1] * (W + 1) for _ in range(H + 1)]
for i in range(N):
a, b = map(int, input().split())
Grid[a][b] = 0
ans = 0
ODP = [0] * (W + 1)
DP = [0] * (W + 1)
for i in range(1, H + 1):
ODP, DP = DP, ODP
Grid_i = Grid[i]
for j in range(1, W + 1):
if Grid_i[j]:
DP[j] = min(DP[j - 1], ODP[j], ODP[j - 1]) + 1
else:
DP[j] = 0
ans += DP[j]
return ans
#==================================================
import sys
input=sys.stdin.readline
write=sys.stdout.write
print(solve())
| ConDefects/ConDefects/Code/abc311_e/Python/45970897 |
condefects-python_data_74 | import sys, math, itertools, heapq, copy, collections, bisect, random, time
from collections import deque, defaultdict, Counter
from decimal import Decimal
from functools import lru_cache
def MI(): return map(int, sys.stdin.buffer.readline().split())
def MI1(): return map(lambda x:int(x)-1, sys.stdin.buffer.readline().split())
def LI(): return list(map(int, sys.stdin.buffer.readline().split()))
def I(): return int(sys.stdin.buffer.readline())
def S(): return sys.stdin.buffer.readline().rstrip().decode('utf-8')
def LS(): return sys.stdin.buffer.readline().rstrip().decode('utf-8').split()
def SL(): return list(sys.stdin.buffer.readline().rstrip().decode('utf-8'))
def IR(n): return [I() for _ in range(n)]
def LIR(n): return [LI() for _ in range(n)]
def LSR(n): return [LS() for _ in range(n)]
def SLR(n): return [SL() for _ in range(n)]
def resolve():
X = 10**18
mod = 998244353
@lru_cache(maxsize=None)
def dfs(now):
if now <= 4:
return now
return dfs((now//2))*dfs(((now+1)//2))%mod
print(dfs(X))
if __name__ == "__main__":
resolve()
import sys, math, itertools, heapq, copy, collections, bisect, random, time
from collections import deque, defaultdict, Counter
from decimal import Decimal
from functools import lru_cache
def MI(): return map(int, sys.stdin.buffer.readline().split())
def MI1(): return map(lambda x:int(x)-1, sys.stdin.buffer.readline().split())
def LI(): return list(map(int, sys.stdin.buffer.readline().split()))
def I(): return int(sys.stdin.buffer.readline())
def S(): return sys.stdin.buffer.readline().rstrip().decode('utf-8')
def LS(): return sys.stdin.buffer.readline().rstrip().decode('utf-8').split()
def SL(): return list(sys.stdin.buffer.readline().rstrip().decode('utf-8'))
def IR(n): return [I() for _ in range(n)]
def LIR(n): return [LI() for _ in range(n)]
def LSR(n): return [LS() for _ in range(n)]
def SLR(n): return [SL() for _ in range(n)]
def resolve():
X = I()
mod = 998244353
@lru_cache(maxsize=None)
def dfs(now):
if now <= 4:
return now
return dfs((now//2))*dfs(((now+1)//2))%mod
print(dfs(X))
if __name__ == "__main__":
resolve()
| ConDefects/ConDefects/Code/arc135_a/Python/43694743 |
condefects-python_data_75 | from collections import deque
N, M = map(int, input().split())
A = deque(map(int, input().split()))
C = deque(map(int, input().split()))
answer = []
while A[0] == 0:
A.popleft()
A = list(A)
# 多項式を筆算で割り算する動きをシミュレーションする
while len(C) >= len(A):
c = C.popleft()
answer.append(c // A[0])
for i, a in enumerate(A[1:]):
C[i] = C[i] - a * (c // A[0])
# 割り切れること
assert sum(C) == 0
print(' '.join(map(str, answer[-M:])))
from collections import deque
N, M = map(int, input().split())
A = deque(map(int, input().split()))
C = deque(map(int, input().split()))
answer = []
while A[0] == 0:
A.popleft()
A = list(A)
# 多項式を筆算で割り算する動きをシミュレーションする
while len(C) >= len(A):
c = C.popleft()
answer.append(c // A[0])
for i, a in enumerate(A[1:]):
C[i] = C[i] - a * (c // A[0])
# 割り切れること
assert sum(C) == 0
print(' '.join(map(str, answer[-(M + 1):])))
| ConDefects/ConDefects/Code/abc245_d/Python/52210355 |
condefects-python_data_76 | # B
n = int(input())
a = list(map(int, input().split()))
#n = 5
#a = [3, 1, 4, 5, 4]
#print(a)
call = set()
for i in range(n):
#print(i)
#print(a[i])
if i+1 in call:
pass
else:
call.add(a[i])
print(sorted(call))
no_call =[]
for i in range(1, n+1):
if i not in call:
#print(i)
no_call.append(i)
print(len(no_call))
print(*no_call)
# B
n = int(input())
a = list(map(int, input().split()))
#n = 5
#a = [3, 1, 4, 5, 4]
#print(a)
call = set()
for i in range(n):
#print(i)
#print(a[i])
if i+1 in call:
pass
else:
call.add(a[i])
#print(sorted(call))
no_call =[]
for i in range(1, n+1):
if i not in call:
#print(i)
no_call.append(i)
print(len(no_call))
print(*no_call)
| ConDefects/ConDefects/Code/abc293_b/Python/46050349 |
condefects-python_data_77 |
import bisect, heapq, sys, math, copy, itertools, decimal
from collections import defaultdict, deque
sys.setrecursionlimit(10**7)
def INT(): return int(input())
def MI(): return map(int, input().split())
def MS(): return map(str, input().split())
def LI(): return list(map(int, input().split()))
def LS(): return list(map(str, input().split()))
def pr_line(itr): print(*itr, sep='\n')
def pr_mtx(matrix): [print(*row) for row in matrix]
INF = 1<<62
'''
操作:(segfunc, 単位元) = {
最小値:(min(x, y), INF),
最大値:(max(x, y), -INF),
区間和:(x + y, 0),
区間積:(x * y, 1),
最大公約数:(math.gcd(x, y), 0),
論理和:(x | y, 0)
論理積:(x & y, 0)
排他的論理和:(x ^ y, 0)
}
'''
#############################################################s
def segfunc(x, y):
return [x[0] + y[0], min(x[1], x[0] + y[1])]
ide_ele = [0, INF]
class SegTree:
def __init__(self, init_val, segfunc, ide_ele):
n = len(init_val) #要素数
self.segfunc = segfunc #区間にしたい操作
self.ide_ele = ide_ele #単位元
self.num = 1 << (n-1).bit_length() #n以上最小の2のべき乗
self.tree = [ide_ele] * 2 * self.num #セグメント木
#配列の値を歯にセット
for i in range(n):
self.tree[self.num + i] = init_val[i]
#構築していく
for i in range(self.num - 1, 0, -1):
self.tree[i] = self.segfunc(self.tree[2 * i], self.tree[2 * i + 1])
def update(self, k, x): #k番目(0-index)の値をxに更新
k += self.num #葉に移動
self.tree[k] = x
while k > 1:
#隣同士の子ノードの処理結果を親ノードに更新
self.tree[k >> 1] = self.segfunc(self.tree[k], self.tree[k | 1])
k >>= 1
def query(self, l ,r): #[l, r)のsegfunc結果を得る(0-index)
res_l, res_r = self.ide_ele, self.ide_ele
l += self.num
r += self.num
while l < r:
if l & 1:
res_l = self.segfunc(res_l, self.tree[l])
l += 1
if r & 1:
res_r = self.segfunc(self.tree[r - 1], res_r)
l >>= 1
r >>= 1
res = self.segfunc(res_l, res_r)
return res
def __getitem__(self, x):
x += self.num #葉に移動
return self.tree[x]
###############################################################
N, Q = MI()
S = list(input())
A = [[1, 1] if s=='(' else [-1, -1] for s in S]
seg = SegTree(A, segfunc=segfunc, ide_ele=ide_ele)
ans = []
for _ in range(Q):
q, l, r = MI()
l -= 1
r -= 1
if q == 1:
a, b = seg[l], seg[r]
seg.update(l, b)
seg.update(r, a)
else:
a, b = seg.query(l, r+1) #a:l~rの累積和, b:l~rの最小値
if a == 0 and b == 0:
ans.append('Yes')
else:
ans.append('No')
pr_line(ans)
import bisect, heapq, sys, math, copy, itertools, decimal
from collections import defaultdict, deque
sys.setrecursionlimit(10**7)
def INT(): return int(input())
def MI(): return map(int, input().split())
def MS(): return map(str, input().split())
def LI(): return list(map(int, input().split()))
def LS(): return list(map(str, input().split()))
def pr_line(itr): print(*itr, sep='\n')
def pr_mtx(matrix): [print(*row) for row in matrix]
INF = 1<<62
'''
操作:(segfunc, 単位元) = {
最小値:(min(x, y), INF),
最大値:(max(x, y), -INF),
区間和:(x + y, 0),
区間積:(x * y, 1),
最大公約数:(math.gcd(x, y), 0),
論理和:(x | y, 0)
論理積:(x & y, 0)
排他的論理和:(x ^ y, 0)
}
'''
#############################################################s
def segfunc(x, y):
return [x[0] + y[0], min(x[1], x[0] + y[1])]
ide_ele = [0, INF]
class SegTree:
def __init__(self, init_val, segfunc, ide_ele):
n = len(init_val) #要素数
self.segfunc = segfunc #区間にしたい操作
self.ide_ele = ide_ele #単位元
self.num = 1 << (n-1).bit_length() #n以上最小の2のべき乗
self.tree = [ide_ele] * 2 * self.num #セグメント木
#配列の値を歯にセット
for i in range(n):
self.tree[self.num + i] = init_val[i]
#構築していく
for i in range(self.num - 1, 0, -1):
self.tree[i] = self.segfunc(self.tree[2 * i], self.tree[2 * i + 1])
def update(self, k, x): #k番目(0-index)の値をxに更新
k += self.num #葉に移動
self.tree[k] = x
while k > 1:
#隣同士の子ノードの処理結果を親ノードに更新
k >>= 1
self.tree[k] = self.segfunc(self.tree[k<<1], self.tree[k<<1 | 1])
def query(self, l ,r): #[l, r)のsegfunc結果を得る(0-index)
res_l, res_r = self.ide_ele, self.ide_ele
l += self.num
r += self.num
while l < r:
if l & 1:
res_l = self.segfunc(res_l, self.tree[l])
l += 1
if r & 1:
res_r = self.segfunc(self.tree[r - 1], res_r)
l >>= 1
r >>= 1
res = self.segfunc(res_l, res_r)
return res
def __getitem__(self, x):
x += self.num #葉に移動
return self.tree[x]
###############################################################
N, Q = MI()
S = list(input())
A = [[1, 1] if s=='(' else [-1, -1] for s in S]
seg = SegTree(A, segfunc=segfunc, ide_ele=ide_ele)
ans = []
for _ in range(Q):
q, l, r = MI()
l -= 1
r -= 1
if q == 1:
a, b = seg[l], seg[r]
seg.update(l, b)
seg.update(r, a)
else:
a, b = seg.query(l, r+1) #a:l~rの累積和, b:l~rの最小値
if a == 0 and b == 0:
ans.append('Yes')
else:
ans.append('No')
pr_line(ans) | ConDefects/ConDefects/Code/abc223_f/Python/46212630 |
condefects-python_data_78 | from atcoder import lazysegtree
n,q=map(int,input().split())
s=list(input())
st=lazysegtree.LazySegTree(
lambda x,y:min(x,y),
n,
lambda dd,d:dd+d,
lambda ddd,dd:ddd+dd,
0,
[0]*n
)
for i in range(n):
st.apply(i,n,2*(s[i]=="(")-1)
for i in range(q):
t,l,r=map(int,input().split())
t-=1
l-=1
r-=1
if t:
print(["No","Yes"][st.get(l)-1==st.prod(l,r+1)==st.get(r)])
else:
st.apply(l,n,-2*(s[l]=="(")+1)
st.apply(r,n,-2*(s[r]=="(")+1)
s[l],s[r]=s[r],s[l]
st.apply(l,n,2*(s[l]=="(")-1)
st.apply(r,n,2*(s[r]=="(")-1)
from atcoder import lazysegtree
n,q=map(int,input().split())
s=list(input())
st=lazysegtree.LazySegTree(
lambda x,y:min(x,y),
n,
lambda dd,d:dd+d,
lambda ddd,dd:ddd+dd,
0,
[0]*n
)
for i in range(n):
st.apply(i,n,2*(s[i]=="(")-1)
for i in range(q):
t,l,r=map(int,input().split())
t-=1
l-=1
r-=1
if t:
print(["No","Yes"][s[l]=="(" and s[r]==")" and st.get(l)-1==st.prod(l,r+1)==st.get(r)])
else:
st.apply(l,n,-2*(s[l]=="(")+1)
st.apply(r,n,-2*(s[r]=="(")+1)
s[l],s[r]=s[r],s[l]
st.apply(l,n,2*(s[l]=="(")-1)
st.apply(r,n,2*(s[r]=="(")-1) | ConDefects/ConDefects/Code/abc223_f/Python/45728797 |
condefects-python_data_79 | import sys
sys.setrecursionlimit(10**6)
# import resource
# resource.setrlimit(resource.RLIMIT_STACK, (1073741824//4, 1073741824//4))
from collections import deque, Counter, defaultdict
from itertools import accumulate, permutations, combinations
from bisect import bisect_left, bisect_right
from heapq import heapify, heappush, heappop
from string import ascii_letters, ascii_lowercase, ascii_uppercase, digits, printable
from operator import itemgetter
from functools import lru_cache, cmp_to_key
from math import gcd, sqrt
from atcoder.dsu import DSU
from atcoder.scc import SCCGraph
from atcoder.segtree import SegTree
from sortedcontainers import SortedList, SortedDict, SortedSet
INFTY = sys.maxsize
MOD10 = 10**9+7
MOD99 = 998244353
MOD = MOD99
YES = 'Yes'
NO = 'No'
DRDC = [[-1, 0], [1, 0], [0, -1], [0, 1]]
DRDC2 = [[1, 1], [-1, 1], [1, -1], [-1, -1]]
def chr2num(c): return printable.index(c)
def num2chr(i): return printable[i]
def bisect_lt(a, x):
'''Return rightmost index less than x, if not exits return -1'''
return bisect_left(a, x) - 1
def bisect_le(a, x):
'''Return rightmost index less than or equal to x, if not exists return -1'''
return bisect_right(a, x) - 1
def bisect_gt(a, x):
'''Return leftmost index greater than x, if not exists return len(a)'''
return bisect_right(a, x)
def bisect_ge(a, x):
'''Return leftmost index greater than or equal to x, if not exists return len(a)'''
return bisect_left(a, x)
def bisect_lecount(a, x): return bisect_right(a, x)
def bisect_ltcount(a, x): return bisect_left(a, x)
def bisect_gecount(a, x): return len(a) - bisect_left(a, x)
def bisect_gtcount(a, x): return len(a) - bisect_right(a, x)
def sc_bisect_lt(sc, x): return sc.bisect_left(x) - 1
def sc_bisect_le(sc, x): return sc.bisect_right(x) - 1
def sc_bisect_gt(sc, x): return sc.bisect_right(x)
def sc_bisect_ge(sc, x): return sc.bisect_left(x)
def sc_bisect_lecount(sc, x): return sc.bisect_right(x)
def sc_bisect_ltcount(sc, x): return sc.bisect_left(x)
def sc_bisect_gecount(sc, x): return len(sc) - sc.bisect_left(x)
def sc_bisect_gtcount(sc, x): return len(sc) - sc.bisect_right(x)
def cmp_for_key(x, y):
'''functools.cmp_to_key()に渡すための比較関数。
タプルのソートなどでは x, y にタプルまるごと渡すようにする(遅くなるので)。
key=cmp_to_key(cmp_for_key)'''
s = x - y # ここを必要に応じて書き換える。
if s < 0: return -1 # x < y (x が y より前)
elif s == 0: return 0 # x == y
else: return 1 # x > y (x が y より後)
# input = sys.stdin.readline
def iinput(): return int(input())
def minput(): return map(int, input().split())
def linput(): return list(map(int, input().split()))
# DEBUG = False
# def printd(*args):
# if DEBUG:
# print(*args)
def readinput():
n,k=minput()
return n,k
def subsolve1(n):
a = [0]*n
for i in range(n):
print(f'? {i+1}')
a[i] = iinput()
print('! ', end='')
print(*a)
print()
sys.exit()
def subsolve2(n, k):
a = [0]*n
b = [0]*(k+1)
for i in range(k+1):
print('?', end='')
for j in range(k+1):
if j == i:
continue
print(f' {j+1}', end='')
print()
b[i] = iinput()
c = sum(b) % 2
for i in range(k+1):
a[i] = (c - b[i]) % 2
c = sum(a[:k-1]) % 2
for i in range(k+1, n):
print('?', end='')
for j in range(k-1):
print(f' {j+1}', end='')
print(f' {i+1}')
t = iinput()
a[i] = (t - c) % 2
print('!')
for i in range(n):
print(f' {a[i]}', end='')
print()
sys.exit()
def solve(args):
n,k=args
if k == 1:
subsolve1(n)
else:
subsolve2(n, k)
def printans(ans):
if isinstance(ans, list) or isinstance(ans, tuple):
print(*ans, sep='\n')
else:
print(ans)
if __name__=='__main__':
args=readinput()
ans=solve(args)
printans(ans)
import sys
sys.setrecursionlimit(10**6)
# import resource
# resource.setrlimit(resource.RLIMIT_STACK, (1073741824//4, 1073741824//4))
from collections import deque, Counter, defaultdict
from itertools import accumulate, permutations, combinations
from bisect import bisect_left, bisect_right
from heapq import heapify, heappush, heappop
from string import ascii_letters, ascii_lowercase, ascii_uppercase, digits, printable
from operator import itemgetter
from functools import lru_cache, cmp_to_key
from math import gcd, sqrt
from atcoder.dsu import DSU
from atcoder.scc import SCCGraph
from atcoder.segtree import SegTree
from sortedcontainers import SortedList, SortedDict, SortedSet
INFTY = sys.maxsize
MOD10 = 10**9+7
MOD99 = 998244353
MOD = MOD99
YES = 'Yes'
NO = 'No'
DRDC = [[-1, 0], [1, 0], [0, -1], [0, 1]]
DRDC2 = [[1, 1], [-1, 1], [1, -1], [-1, -1]]
def chr2num(c): return printable.index(c)
def num2chr(i): return printable[i]
def bisect_lt(a, x):
'''Return rightmost index less than x, if not exits return -1'''
return bisect_left(a, x) - 1
def bisect_le(a, x):
'''Return rightmost index less than or equal to x, if not exists return -1'''
return bisect_right(a, x) - 1
def bisect_gt(a, x):
'''Return leftmost index greater than x, if not exists return len(a)'''
return bisect_right(a, x)
def bisect_ge(a, x):
'''Return leftmost index greater than or equal to x, if not exists return len(a)'''
return bisect_left(a, x)
def bisect_lecount(a, x): return bisect_right(a, x)
def bisect_ltcount(a, x): return bisect_left(a, x)
def bisect_gecount(a, x): return len(a) - bisect_left(a, x)
def bisect_gtcount(a, x): return len(a) - bisect_right(a, x)
def sc_bisect_lt(sc, x): return sc.bisect_left(x) - 1
def sc_bisect_le(sc, x): return sc.bisect_right(x) - 1
def sc_bisect_gt(sc, x): return sc.bisect_right(x)
def sc_bisect_ge(sc, x): return sc.bisect_left(x)
def sc_bisect_lecount(sc, x): return sc.bisect_right(x)
def sc_bisect_ltcount(sc, x): return sc.bisect_left(x)
def sc_bisect_gecount(sc, x): return len(sc) - sc.bisect_left(x)
def sc_bisect_gtcount(sc, x): return len(sc) - sc.bisect_right(x)
def cmp_for_key(x, y):
'''functools.cmp_to_key()に渡すための比較関数。
タプルのソートなどでは x, y にタプルまるごと渡すようにする(遅くなるので)。
key=cmp_to_key(cmp_for_key)'''
s = x - y # ここを必要に応じて書き換える。
if s < 0: return -1 # x < y (x が y より前)
elif s == 0: return 0 # x == y
else: return 1 # x > y (x が y より後)
# input = sys.stdin.readline
def iinput(): return int(input())
def minput(): return map(int, input().split())
def linput(): return list(map(int, input().split()))
# DEBUG = False
# def printd(*args):
# if DEBUG:
# print(*args)
def readinput():
n,k=minput()
return n,k
def subsolve1(n):
a = [0]*n
for i in range(n):
print(f'? {i+1}')
a[i] = iinput()
print('! ', end='')
print(*a)
print()
sys.exit()
def subsolve2(n, k):
a = [0]*n
b = [0]*(k+1)
for i in range(k+1):
print('?', end='')
for j in range(k+1):
if j == i:
continue
print(f' {j+1}', end='')
print()
b[i] = iinput()
c = sum(b) % 2
for i in range(k+1):
a[i] = (c - b[i]) % 2
c = sum(a[:k-1]) % 2
for i in range(k+1, n):
print('?', end='')
for j in range(k-1):
print(f' {j+1}', end='')
print(f' {i+1}')
t = iinput()
a[i] = (t - c) % 2
print('!', end='')
for i in range(n):
print(f' {a[i]}', end='')
print()
sys.exit()
def solve(args):
n,k=args
if k == 1:
subsolve1(n)
else:
subsolve2(n, k)
def printans(ans):
if isinstance(ans, list) or isinstance(ans, tuple):
print(*ans, sep='\n')
else:
print(ans)
if __name__=='__main__':
args=readinput()
ans=solve(args)
printans(ans)
| ConDefects/ConDefects/Code/abc313_d/Python/45777524 |
condefects-python_data_80 | N,K = map(int,input().split())
A = [0] * N
S = []
def request(i):
if i <= K:
X = [(k+i)%(K+1)+1 for k in range(K)]
else:
X = [k+1 for k in range(K-1)] + [i+1]
print("?",*X)
s = int(input())
S.append(s)
for i in range(N):
request(i)
T = sum(S[:K+1]) % 2
for i in range(K+1):
A[(i-1)%(K+1)] = (T-S[i]) % 2
for i in range(K+1,N):
A[i] = (S[0]-A[2]-S[i]) % 2
print("!",*A)
N,K = map(int,input().split())
A = [0] * N
S = []
def request(i):
if i <= K:
X = [(k+i)%(K+1)+1 for k in range(K)]
else:
X = [k+1 for k in range(K-1)] + [i+1]
print("?",*X)
s = int(input())
S.append(s)
for i in range(N):
request(i)
T = sum(S[:K+1]) % 2
for i in range(K+1):
A[(i-1)%(K+1)] = (T-S[i]) % 2
for i in range(K+1,N):
A[i] = (S[0]-A[K-1]-S[i]) % 2
print("!",*A) | ConDefects/ConDefects/Code/abc313_d/Python/45654990 |
condefects-python_data_81 | n,q = map(int,input().split())
s = str(input())
cnt = 0
for i in range(q):
t,x = map(int,input().split())
if t == 1:
cnt += 1
cnt = cnt % n
if t == 2:
print(s[(n - cnt + (x-1))%n])
n,q = map(int,input().split())
s = str(input())
cnt = 0
for i in range(q):
t,x = map(int,input().split())
if t == 1:
cnt += x
cnt = cnt % n
if t == 2:
print(s[(n - cnt + (x-1))%n]) | ConDefects/ConDefects/Code/abc258_c/Python/44704874 |
condefects-python_data_82 | N = int(input())
H = list(map(int, input().split()))
ans = 0
for i in range(1, N):
if H[i] > H[i-1]:
ans = H[i]
else:
break
print(ans)
N = int(input())
H = list(map(int, input().split()))
ans = H[0]
for i in range(1, N):
if H[i] > H[i-1]:
ans = H[i]
else:
break
print(ans) | ConDefects/ConDefects/Code/abc235_b/Python/44832943 |
condefects-python_data_83 | N = int(input())
H = list(map(int, input().split()))
ans = 0
for i in range(N -1):
if H[i] < H[i + 1] :
ans = H[i + 1]
if H[0] >= H[1]:
ans = H[0]
else: break
print(ans)
N = int(input())
H = list(map(int, input().split()))
ans = 0
for i in range(N -1):
if H[i] < H[i + 1] :
ans = H[i + 1]
elif H[0] >= H[1]:
ans = H[0]
else: break
print(ans)
| ConDefects/ConDefects/Code/abc235_b/Python/45931351 |
condefects-python_data_84 | n = int(input())
H = list(map(int, input().split()))
count = 0
for i in range(n-1):
if H[i] < H[i+1]:
count += 1
print(H[count])
n = int(input())
H = list(map(int, input().split()))
count = 0
for i in range(n-1):
if H[i] < H[i+1]:
count += 1
else:
break
print(H[count])
| ConDefects/ConDefects/Code/abc235_b/Python/45498250 |
condefects-python_data_85 | N = int(input())
H = list(map(int,input().split()))
ans=0
for n in range(N-1):
if H[n+1]>H[n]:
ans=H[n+1]
else:
break
print(ans)
N = int(input())
H = list(map(int,input().split()))
ans=H[0]
for n in range(N-1):
if H[n+1]>H[n]:
ans=H[n+1]
else:
break
print(ans)
| ConDefects/ConDefects/Code/abc235_b/Python/44433073 |
condefects-python_data_86 | import sys
input = sys.stdin.readline
mod=998244353
N,S=map(int,input().split())
A=sorted(map(int,input().split()))
if 1 in A:
DP=[1,0]
else:
DP=[1,1]
DP=[DP]
# 行列の計算(numpyを使えないとき,modを使用)
def prod(A,B,k,l,m):# A:k*l,B:l*m
C=[[None for i in range(m)] for j in range(k)]
for i in range(k):
for j in range(m):
ANS=0
for pl in range(l):
ANS=(ANS+A[i][pl]*B[pl][j])%mod
C[i][j]=ANS
return C
def plus(A,B,k,l):# a,B:k*l
C=[[None for i in range(l)] for j in range(k)]
for i in range(k):
for j in range(l):
C[i][j]=(A[i][j]+B[i][j])%mod
return C
# 漸化式を行列累乗で求める(ダブリング)
POWA=[[[1,1],[1,2]]]
for i in range(60):
POWA.append(prod(POWA[-1],POWA[-1],2,2,2)) # ベキを求めて
now=0
ind=0
if A[ind]==1:
ind+=1
while ind<len(A):
#print(now,DP)
a=A[ind]
if a%2==0 and ind+1<len(A) and A[ind+1]==a+1:
X=DP
n=(a-now)//2-1
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
ind+=2
now=a
elif a%2==0:
X=DP
n=(a-now)//2-1
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
DP[0][1]=DP[0][0]+DP[0][1]
now=a
ind+=1
elif a%2==1:
X=DP
n=(a-now)//2-1
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
DP[0][0]=DP[0][0]+DP[0][1]
now=a-1
ind+=1
#print(now,DP)
if S==now+1:
print(DP[0][0])
exit()
n=(S-now)//2-1
X=DP
#print(n)
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
#print(now,DP)
MINUS=DP[0][0]
X=DP
n=1
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
if S%2==1:
print(DP[0][0])
else:
print(DP[0][0]-MINUS)
import sys
input = sys.stdin.readline
mod=998244353
N,S=map(int,input().split())
A=sorted(map(int,input().split()))
if 1 in A:
DP=[1,0]
else:
DP=[1,1]
DP=[DP]
# 行列の計算(numpyを使えないとき,modを使用)
def prod(A,B,k,l,m):# A:k*l,B:l*m
C=[[None for i in range(m)] for j in range(k)]
for i in range(k):
for j in range(m):
ANS=0
for pl in range(l):
ANS=(ANS+A[i][pl]*B[pl][j])%mod
C[i][j]=ANS
return C
def plus(A,B,k,l):# a,B:k*l
C=[[None for i in range(l)] for j in range(k)]
for i in range(k):
for j in range(l):
C[i][j]=(A[i][j]+B[i][j])%mod
return C
# 漸化式を行列累乗で求める(ダブリング)
POWA=[[[1,1],[1,2]]]
for i in range(60):
POWA.append(prod(POWA[-1],POWA[-1],2,2,2)) # ベキを求めて
now=0
ind=0
if A[ind]==1:
ind+=1
while ind<len(A):
#print(now,DP)
a=A[ind]
if a%2==0 and ind+1<len(A) and A[ind+1]==a+1:
X=DP
n=(a-now)//2-1
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
ind+=2
now=a
elif a%2==0:
X=DP
n=(a-now)//2-1
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
DP[0][1]=DP[0][0]+DP[0][1]
now=a
ind+=1
elif a%2==1:
X=DP
n=(a-now)//2-1
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
DP[0][0]=DP[0][0]+DP[0][1]
now=a-1
ind+=1
#print(now,DP)
if S==now+1:
print(DP[0][0])
exit()
n=(S-now)//2-1
X=DP
#print(n)
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
#print(now,DP)
MINUS=DP[0][0]
X=DP
n=1
while n:
X=prod(X,POWA[n.bit_length()-1],1,2,2) # n乗の場合
n-=1<<(n.bit_length()-1)
DP=X
if S%2==1:
print(DP[0][0])
else:
print((DP[0][0]-MINUS)%mod) | ConDefects/ConDefects/Code/abc258_h/Python/33045301 |
condefects-python_data_87 | import sys
def mul(A, v, mod):
m = len(A)
n = len(v)
w = [0]*m
for i in range(m):
s = 0
for k in range(n):
s += A[i][k] * v[k]
w[i] = s % mod
return w
def p2(A, mod):
n = len(A)
C = [[0]*n for _ in range(n)]
for i in range(n):
for j in range(n):
s = 0
for k in range(n):
s += A[i][k] * A[k][j]
s %= mod
C[i][j] = s
return C
def pow(A, v, e, mod):
MUL = A
while e > 0:
if e&1:
v = mul(MUL, v, mod)
MUL = p2(MUL, mod)
e >>= 1
return v
def solve():
sys.setrecursionlimit(500005)
stdin = sys.stdin
ni = lambda: int(ns())
na = lambda: list(map(int, stdin.readline().split()))
ns = lambda: stdin.readline().strip()
# dp = [0] * 70
# dp[0] = 1
# for i in range(1, len(dp)):
# for j in range(1, i+1, 2):
# dp[i] += dp[i-j]
n, S = na()
a = [0] + na() + [S]
ep = [0] * len(a)
ep[0] = -1
M = [[1, 1], [1, 0]]
v = [-1, 0]
mod = 998244353
for i in range(1, len(a)):
v = pow(M, v, a[i] - a[i-1], mod)
ep[i] -= v[1]
ep[i] %= 998244353
v[0] += ep[i]
# v[1] -= ep[i]
# 3a+5b
# 5a+8b
# print(ep[-1])
# ep = [0] * len(a)
# ep[0] = -1
# M = [[1, 1], [1, 0]]
# mod = 998244353
# for i in range(1, len(a)):
# for j in range(i):
# u = pow(M, [1, 0], a[i] - a[j], mod)
# # print(a[i] - a[j], u)
# ep[i] -= ep[j] * u[1]
# ep[i] %= 998244353
# print(ep)
# print(dp)
if __name__ == "__main__":
solve()
import sys
def mul(A, v, mod):
m = len(A)
n = len(v)
w = [0]*m
for i in range(m):
s = 0
for k in range(n):
s += A[i][k] * v[k]
w[i] = s % mod
return w
def p2(A, mod):
n = len(A)
C = [[0]*n for _ in range(n)]
for i in range(n):
for j in range(n):
s = 0
for k in range(n):
s += A[i][k] * A[k][j]
s %= mod
C[i][j] = s
return C
def pow(A, v, e, mod):
MUL = A
while e > 0:
if e&1:
v = mul(MUL, v, mod)
MUL = p2(MUL, mod)
e >>= 1
return v
def solve():
sys.setrecursionlimit(500005)
stdin = sys.stdin
ni = lambda: int(ns())
na = lambda: list(map(int, stdin.readline().split()))
ns = lambda: stdin.readline().strip()
# dp = [0] * 70
# dp[0] = 1
# for i in range(1, len(dp)):
# for j in range(1, i+1, 2):
# dp[i] += dp[i-j]
n, S = na()
a = [0] + na() + [S]
ep = [0] * len(a)
ep[0] = -1
M = [[1, 1], [1, 0]]
v = [-1, 0]
mod = 998244353
for i in range(1, len(a)):
v = pow(M, v, a[i] - a[i-1], mod)
ep[i] -= v[1]
ep[i] %= 998244353
v[0] += ep[i]
# v[1] -= ep[i]
# 3a+5b
# 5a+8b
print(ep[-1])
# ep = [0] * len(a)
# ep[0] = -1
# M = [[1, 1], [1, 0]]
# mod = 998244353
# for i in range(1, len(a)):
# for j in range(i):
# u = pow(M, [1, 0], a[i] - a[j], mod)
# # print(a[i] - a[j], u)
# ep[i] -= ep[j] * u[1]
# ep[i] %= 998244353
# print(ep)
# print(dp)
if __name__ == "__main__":
solve()
| ConDefects/ConDefects/Code/abc258_h/Python/32929696 |
condefects-python_data_88 | M=998244353
n,s=map(int,input().split())
f=lambda a,b,c,d:[(a*c+b*d*5)%M,(a*d+b*c)%M]
CD=[cd:=[M//2+1]*2]+[cd:=f(*cd,*cd)for i in range(60)]
g=1
k=0
a=[0,*map(int,input().split()),s]
for i in range(1,n+2):
x,y=0,598946612
r=a[i]-a[i-1]-1
for j in range(60):
if r&1:x,y=f(x,y,*CD[j])
r>>=1
c,d=x*2%M,f(x,y,*CD[0])[0]*2%M
b=(d-c)%M
g,k=(c*g+b*k)%M,(d*g+c*k)%M
print(g if s&1 else k)
M=998244353
n,s=map(int,input().split())
f=lambda a,b,c,d:[(a*c+b*d*5)%M,(a*d+b*c)%M]
CD=[cd:=[M//2+1]*2]+[cd:=f(*cd,*cd)for i in range(60)]
g=1
k=0
a=[0,*map(int,input().split()),s]
for i in range(1,n+2):
x,y=0,598946612
r=a[i]-a[i-1]-1
for j in range(60):
if r&1:x,y=f(x,y,*CD[j])
r>>=1
c,d=x*2%M,f(x,y,*CD[0])[0]*2%M
b=(d-c)%M
g,k=(c*g+b*k)%M,(d*g+c*k)%M
print(k) | ConDefects/ConDefects/Code/abc258_h/Python/50522493 |
condefects-python_data_89 | def ip():return int(input())
def mp():return map(int, input().split())
def lmp():return list(map(int, input().split()))
# 20230610 ABC305 E 1158 - Art Gallery on Graph PyPyで提出
N, M, K = mp()
edge = [[] for _ in range(N)]
for _ in range(M):
a, b = mp()
a -= 1
b -= 1
edge[a].append(b)
edge[b].append(a)
from heapq import heappop, heappush, heapify
H = [-1] * N
for _ in range(K):
p, h = mp()
p -= 1
H[p] = h
que = [(-H[i], i) for i in range(N)]
heapify(que)
while que:
h, v = heappop(que)
h *= -1
if h < H[v] or h == 0:
continue
for to in edge[v]:
if H[to] != -1 or H[to] >= h-1:
continue
H[to] = h - 1
heappush(que, (-H[to], to))
ans = []
for i in range(N):
if H[i] != -1:
ans.append(i+1)
print(len(ans))
print(*ans)
def ip():return int(input())
def mp():return map(int, input().split())
def lmp():return list(map(int, input().split()))
# 20230610 ABC305 E 1158 - Art Gallery on Graph PyPyで提出
N, M, K = mp()
edge = [[] for _ in range(N)]
for _ in range(M):
a, b = mp()
a -= 1
b -= 1
edge[a].append(b)
edge[b].append(a)
from heapq import heappop, heappush, heapify
H = [-1] * N
for _ in range(K):
p, h = mp()
p -= 1
H[p] = h
que = [(-H[i], i) for i in range(N)]
heapify(que)
while que:
h, v = heappop(que)
h *= -1
if h < H[v] or h == 0:
continue
for to in edge[v]:
if H[to] >= h-1:
continue
H[to] = h - 1
heappush(que, (-H[to], to))
ans = []
for i in range(N):
if H[i] != -1:
ans.append(i+1)
print(len(ans))
print(*ans) | ConDefects/ConDefects/Code/abc305_e/Python/46045921 |
condefects-python_data_90 | N=int(input())
S=[input() for _ in range(N)]
#i行目のl列目からr列目までに"#"は含まれるか
pre_h = [0]*N**3
for i in range(N):
for l in range(N):
for r in range(N):
for k in range(l,r+1):
if S[i][k]=="#":
pre_h[i*N**2+l*N+r]=1
#i列目のl行目からr行目までに"#"は含まれるか
pre_w = [0]*N**3
for i in range(N):
for l in range(N):
for r in range(N):
for k in range(l,r+1):
if S[k][i]=="#":
pre_w[i*N**2+l*N+r]=1
INF=N+10
di=[INF]*N**4
def dp(lx,ly,rx,ry):
if lx>rx or ly>ry: return 0
C=lx*N**3+ly*N**2+rx*N+ry
if di[C]!=INF: return di[C]
ans=max(rx-lx+1,ry-ly+1)
for i in range(lx,rx+1):
if not pre_h[i*N**2+ly*N+ry]:
ans=min(ans,dp(lx,ly,i-1,ry)+dp(i+1,ly,rx,ry))
for j in range(ly,ry):
if not pre_w[j*N**2+lx*N+rx]:
ans=min(ans,dp(lx,ly,rx,j-1)+dp(lx,j+1,rx,ry))
di[C]=ans ; return ans
print(dp(0,0,N-1,N-1))
N=int(input())
S=[input() for _ in range(N)]
#i行目のl列目からr列目までに"#"は含まれるか
pre_h = [0]*N**3
for i in range(N):
for l in range(N):
for r in range(N):
for k in range(l,r+1):
if S[i][k]=="#":
pre_h[i*N**2+l*N+r]=1
#i列目のl行目からr行目までに"#"は含まれるか
pre_w = [0]*N**3
for i in range(N):
for l in range(N):
for r in range(N):
for k in range(l,r+1):
if S[k][i]=="#":
pre_w[i*N**2+l*N+r]=1
INF=N+10
di=[INF]*N**4
def dp(lx,ly,rx,ry):
if lx>rx or ly>ry: return 0
C=lx*N**3+ly*N**2+rx*N+ry
if di[C]!=INF: return di[C]
ans=max(rx-lx+1,ry-ly+1)
for i in range(lx,rx+1):
if not pre_h[i*N**2+ly*N+ry]:
ans=min(ans,dp(lx,ly,i-1,ry)+dp(i+1,ly,rx,ry))
for j in range(ly,ry+1):
if not pre_w[j*N**2+lx*N+rx]:
ans=min(ans,dp(lx,ly,rx,j-1)+dp(lx,j+1,rx,ry))
di[C]=ans ; return ans
print(dp(0,0,N-1,N-1)) | ConDefects/ConDefects/Code/abc233_g/Python/38349532 |
condefects-python_data_91 | def f(n):
return n**2+2*n+3
n=int(input())
print(f(f(f(n)+n))+f(f(n)))
def f(n):
return n**2+2*n+3
n=int(input())
print(f(f(f(n)+n)+f(f(n)))) | ConDefects/ConDefects/Code/abc234_a/Python/45030219 |
condefects-python_data_92 | def f(x):
return x**2+2*x+3
t = int(input())
print((f(f(t)+t)+f(f(t))))
def f(x):
return x**2+2*x+3
t = int(input())
print(f(f(f(t)+t)+f(f(t)))) | ConDefects/ConDefects/Code/abc234_a/Python/44890153 |
condefects-python_data_93 | S = input()
def inverse(n, d):
return n * pow(d, -1, MOD) % MOD
MOD = 998244353
comb = [[0]*len(S) for _ in range(len(S))]
for i in range(len(S)):
for j in range((i+1)//2+1):
if j == 0:
comb[i][j] = i+1
else:
comb[i][j] = comb[i][j-1]
comb[i][j] *= inverse(i+1-j, j+1)
comb[i][j] %= MOD
cnt = [0]*26
for i in range(len(S)):
cnt[ord(S[i])-ord("a")] += 1
dp = [[0]*(len(S)+1) for _ in range(27)]
dp[0][0] = 1
SUM = cnt[0]
for i in range(1, 27):
for j in range(SUM+1):
dp[i][j] += dp[i-1][j]
dp[i][j] %= MOD
for k in range(1, min(j+1, cnt[i-1]+1)):
J, K = j, k
if J == K:
dp[i][j] += dp[i-1][j-k]
dp[i][j] %= MOD
else:
if j % 2 == 0 and K > j//2:
K -= (K-j//2)*2
elif j & 2 == 1 and K > j//2:
K -= (K-j//2-1)*2+1
dp[i][j] += comb[J-1][K-1]*dp[i-1][j-k]
dp[i][j] %= MOD
if i < 26:
SUM += cnt[i]
ans = 0
for i in range(1, len(S)+1):
ans += dp[-1][i]
ans %= MOD
print(ans)
S = input()
def inverse(n, d):
return n * pow(d, -1, MOD) % MOD
MOD = 998244353
comb = [[0]*len(S) for _ in range(len(S))]
for i in range(len(S)):
for j in range((i+1)//2+1):
if j == 0:
comb[i][j] = i+1
else:
comb[i][j] = comb[i][j-1]
comb[i][j] *= inverse(i+1-j, j+1)
comb[i][j] %= MOD
cnt = [0]*26
for i in range(len(S)):
cnt[ord(S[i])-ord("a")] += 1
dp = [[0]*(len(S)+1) for _ in range(27)]
dp[0][0] = 1
SUM = cnt[0]
for i in range(1, 27):
for j in range(SUM+1):
dp[i][j] += dp[i-1][j]
dp[i][j] %= MOD
for k in range(1, min(j+1, cnt[i-1]+1)):
J, K = j, k
if J == K:
dp[i][j] += dp[i-1][j-k]
dp[i][j] %= MOD
else:
if j % 2 == 0 and K > j//2:
K -= (K-j//2)*2
elif j % 2 == 1 and K > j//2:
K -= (K-j//2-1)*2+1
dp[i][j] += comb[J-1][K-1]*dp[i-1][j-k]
dp[i][j] %= MOD
if i < 26:
SUM += cnt[i]
ans = 0
for i in range(1, len(S)+1):
ans += dp[-1][i]
ans %= MOD
print(ans) | ConDefects/ConDefects/Code/abc234_f/Python/53824155 |
End of preview. Expand
in Dataset Viewer.
README.md exists but content is empty.
Use the Edit dataset card button to edit it.
- Downloads last month
- 31