結果
| 問題 |
No.3265 地元に帰れば天才扱い!
|
| ユーザー |
 kmmtkm
|
| 提出日時 | 2025-09-06 14:52:09 |
| 言語 | PyPy3 (7.3.15) |
| 結果 |
TLE
|
| 実行時間 | - |
| コード長 | 9,319 bytes |
| コンパイル時間 | 356 ms |
| コンパイル使用メモリ | 82,600 KB |
| 実行使用メモリ | 153,164 KB |
| 最終ジャッジ日時 | 2025-09-06 14:52:55 |
| 合計ジャッジ時間 | 10,391 ms |
|
ジャッジサーバーID (参考情報) |
judge / judge2 |
(要ログイン)
| ファイルパターン | 結果 |
|---|---|
| sample | AC * 4 |
| other | TLE * 13 -- * 8 |
ソースコード
# 自作ライブラリ
# https://github.com/takumi-okamoto/competitive-programming-public/tree/main/mylib
import sys
# from atcoder.fenwicktree import FenwickTree
# from atcoder.lazysegtree import LazySegTree
# sys.setrecursionlimit(10**8)
import typing
# https://github.com/not522/ac-library-python/blob/master/atcoder/fenwicktree.py
class FenwickTree:
"""Reference: https://en.wikipedia.org/wiki/Fenwick_tree"""
def __init__(self, n: int = 0) -> None:
self._n = n
self.data = [0] * n
def add(self, p: int, x: typing.Any) -> None:
assert 0 <= p < self._n
p += 1
while p <= self._n:
self.data[p - 1] += x
p += p & -p
def sum(self, left: int, right: int) -> typing.Any:
assert 0 <= left <= right <= self._n
return self._sum(right) - self._sum(left)
def _sum(self, r: int) -> typing.Any:
s = 0
while r > 0:
s += self.data[r - 1]
r -= r & -r
return s
# https://github.com/not522/ac-library-python/blob/master/atcoder/_bit.py
def _ceil_pow2(n: int) -> int:
x = 0
while (1 << x) < n:
x += 1
return x
# https://github.com/not522/ac-library-python/blob/master/atcoder/lazysegtree.py
# を一部改変
class LazySegTree:
def __init__(
self,
op: typing.Callable[[typing.Any, typing.Any], typing.Any],
e: typing.Any,
mapping: typing.Callable[[typing.Any, typing.Any], typing.Any],
composition: typing.Callable[[typing.Any, typing.Any], typing.Any],
id_: typing.Any,
v: typing.Union[int, typing.List[typing.Any]],
) -> None:
self._op = op
self._e = e
self._mapping = mapping
self._composition = composition
self._id = id_
if isinstance(v, int):
v = [e] * v
self._n = len(v)
self._log = _ceil_pow2(self._n)
self._size = 1 << self._log
self._d = [e] * (2 * self._size)
self._lz = [self._id] * self._size
for i in range(self._n):
self._d[self._size + i] = v[i]
for i in range(self._size - 1, 0, -1):
self._update(i)
def set(self, p: int, x: typing.Any) -> None:
assert 0 <= p < self._n
p += self._size
for i in range(self._log, 0, -1):
self._push(p >> i)
self._d[p] = x
for i in range(1, self._log + 1):
self._update(p >> i)
def get(self, p: int) -> typing.Any:
assert 0 <= p < self._n
p += self._size
for i in range(self._log, 0, -1):
self._push(p >> i)
return self._d[p]
def prod(self, left: int, right: int) -> typing.Any:
assert 0 <= left <= right <= self._n
if left == right:
return self._e
left += self._size
right += self._size
for i in range(self._log, 0, -1):
if ((left >> i) << i) != left:
self._push(left >> i)
if ((right >> i) << i) != right:
self._push((right - 1) >> i)
sml = self._e
smr = self._e
while left < right:
if left & 1:
sml = self._op(sml, self._d[left])
left += 1
if right & 1:
right -= 1
smr = self._op(self._d[right], smr)
left >>= 1
right >>= 1
return self._op(sml, smr)
def all_prod(self) -> typing.Any:
return self._d[1]
def apply(
self,
left: int,
right: typing.Optional[int] = None,
f: typing.Optional[typing.Any] = None,
) -> None:
assert f is not None
if right is None:
p = left
assert 0 <= left < self._n
p += self._size
for i in range(self._log, 0, -1):
self._push(p >> i)
self._d[p] = self._mapping(f, self._d[p])
for i in range(1, self._log + 1):
self._update(p >> i)
else:
assert 0 <= left <= right <= self._n
if left == right:
return
left += self._size
right += self._size
for i in range(self._log, 0, -1):
if ((left >> i) << i) != left:
self._push(left >> i)
if ((right >> i) << i) != right:
self._push((right - 1) >> i)
l2 = left
r2 = right
while left < right:
if left & 1:
self._all_apply(left, f)
left += 1
if right & 1:
right -= 1
self._all_apply(right, f)
left >>= 1
right >>= 1
left = l2
right = r2
for i in range(1, self._log + 1):
if ((left >> i) << i) != left:
self._update(left >> i)
if ((right >> i) << i) != right:
self._update((right - 1) >> i)
def max_right(self, left: int, g: typing.Callable[[typing.Any], bool]) -> int:
assert 0 <= left <= self._n
assert g(self._e)
if left == self._n:
return self._n
left += self._size
for i in range(self._log, 0, -1):
self._push(left >> i)
sm = self._e
first = True
while first or (left & -left) != left:
first = False
while left % 2 == 0:
left >>= 1
if not g(self._op(sm, self._d[left])):
while left < self._size:
self._push(left)
left *= 2
if g(self._op(sm, self._d[left])):
sm = self._op(sm, self._d[left])
left += 1
return left - self._size
sm = self._op(sm, self._d[left])
left += 1
return self._n
def min_left(self, right: int, g: typing.Any) -> int:
assert 0 <= right <= self._n
assert g(self._e)
if right == 0:
return 0
right += self._size
for i in range(self._log, 0, -1):
self._push((right - 1) >> i)
sm = self._e
first = True
while first or (right & -right) != right:
first = False
right -= 1
while right > 1 and right % 2:
right >>= 1
if not g(self._op(self._d[right], sm)):
while right < self._size:
self._push(right)
right = 2 * right + 1
if g(self._op(self._d[right], sm)):
sm = self._op(self._d[right], sm)
right -= 1
return right + 1 - self._size
sm = self._op(self._d[right], sm)
return 0
def _update(self, k: int) -> None:
self._d[k] = self._op(self._d[2 * k], self._d[2 * k + 1])
def _all_apply(self, k: int, f: typing.Any) -> None:
self._d[k] = self._mapping(f, self._d[k])
if k < self._size:
self._lz[k] = self._composition(f, self._lz[k])
def _push(self, k: int) -> None:
self._all_apply(2 * k, self._lz[k])
self._all_apply(2 * k + 1, self._lz[k])
self._lz[k] = self._id
def debug(*args):
print(*args, file=sys.stderr)
def main():
n, m = map(int, input().split())
a = []
l = []
r = []
for _ in range(n):
ai, li, ri = map(int, input().split())
a.append(ai)
l.append(li - 1)
r.append(ri)
b = FenwickTree(m)
for i in range(n):
b.add(i, a[i])
INF = 10**18
counter = LazySegTree(
op=lambda v1, v2: min(v1, v2),
mapping=lambda f, v: f + v,
composition=lambda f, g: f + g,
e=INF,
id_=0,
v=[0] * m,
)
# 初期化
ans = 0
pos = [None] * m
inv_pos = dict()
for i in range(n):
ai, li, ri = a[i], l[i], r[i]
ans += ai * (ri - li) - b.sum(li, ri)
counter.apply(li, ri, 1)
pos[i] = i
inv_pos[i] = i
# debug(ans)
# debug(counter)
# debug("counter", [counter.get(i) for i in range(m)])
# debug("b", [b.sum(i, i + 1) for i in range(m)])
q = int(input())
for _ in range(q):
x, y, u, v = map(int, input().split())
x -= 1
y -= 1
u -= 1
# 自分のレートの幅の差分
ans += a[x] * (v - u) - a[x] * (r[x] - l[x])
# 自分に対する相対基準の幅の差分
ans += b.sum(l[x], r[x])
pre_house = pos[x]
# 自分が相対基準だったとこ
counter.apply(l[x], r[x], -1)
ans += a[x] * counter.get(pre_house)
# 自分が相対基準になるところ
ans -= a[x] * counter.get(y)
counter.apply(u, v, 1)
# お家の移動
b.add(pre_house, -a[x])
b.add(y, a[x])
ans -= b.sum(u, v)
pos[x] = y
inv_pos[y] = x
l[x], r[x] = u, v
print(ans)
# debug("counter", [counter.get(i) for i in range(m)])
# debug("b", [b.sum(i, i + 1) for i in range(m)])
if __name__ == "__main__":
main()