#1106807 (PyPy3) No.3214 small square

提出ソース

結果

問題	No.3214 small square
ユーザー	lif4635
提出日時	2025-07-25 20:45:16
言語	PyPy3 (7.3.15)
結果	AC
実行時間	1,552 ms / 3,000 ms
コード長	5,614 bytes
コンパイル時間	320 ms
コンパイル使用メモリ	82,764 KB
実行使用メモリ	166,756 KB
最終ジャッジ日時	2025-07-25 21:20:03
合計ジャッジ時間	45,007 ms
ジャッジサーバーID （参考情報）	judge1 / judge2

このコードへのチャレンジ
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ファイルパターン	結果
sample	AC * 3
other	AC * 40

権限があれば一括ダウンロードができます

ソースコード

raw source code

# import sys
# input = sys.stdin.readline

class lazy_segtree:
    def update(self, k):
        self.d[k] = self.op(self.d[2 * k], self.d[2 * k + 1])

    def all_apply(self, k, f):
        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):
        self.all_apply(2 * k, self.lz[k])
        self.all_apply(2 * k + 1, self.lz[k])
        self.lz[k] = self.identity

    def __init__(self, V, OP, E, MAPPING, COMPOSITION, ID):
        self.n = len(V)
        self.log = (self.n - 1).bit_length()
        self.size = 1 << self.log
        self.d = [E for i in range(2 * self.size)]
        self.lz = [ID for i in range(self.size)]
        self.e = E
        self.op = OP
        self.mapping = MAPPING
        self.composition = COMPOSITION
        self.identity = ID
        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, x):
        assert 0 <= p and 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):
        assert 0 <= p and 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, l, r):
        assert 0 <= l and l <= r and r <= self.n
        if l == r:
            return self.e
        l += self.size
        r += self.size
        for i in range(self.log, 0, -1):
            if ((l >> i) << i) != l:
                self.push(l >> i)
            if ((r >> i) << i) != r:
                self.push(r >> i)
        sml, smr = self.e, self.e
        while l < r:
            if l & 1:
                sml = self.op(sml, self.d[l])
                l += 1
            if r & 1:
                r -= 1
                smr = self.op(self.d[r], smr)
            l >>= 1
            r >>= 1
        return self.op(sml, smr)

    def all_prod(self):
        return self.d[1]

    def apply_point(self, p, f):
        assert 0 <= p and p < 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)

    def apply(self, l, r, f):
        assert 0 <= l and l <= r and r <= self.n
        if l == r:
            return
        l += self.size
        r += self.size
        for i in range(self.log, 0, -1):
            if ((l >> i) << i) != l:
                self.push(l >> i)
            if ((r >> i) << i) != r:
                self.push((r - 1) >> i)
        l2, r2 = l, r
        while l < r:
            if l & 1:
                self.all_apply(l, f)
                l += 1
            if r & 1:
                r -= 1
                self.all_apply(r, f)
            l >>= 1
            r >>= 1
        l, r = l2, r2
        for i in range(1, self.log + 1):
            if ((l >> i) << i) != l:
                self.update(l >> i)
            if ((r >> i) << i) != r:
                self.update((r - 1) >> i)

    def max_right(self, l, g):
        assert 0 <= l and l <= self.n
        assert g(self.e)
        if l == self.n:
            return self.n
        l += self.size
        for i in range(self.log, 0, -1):
            self.push(l >> i)
        sm = self.e
        while 1:
            while l % 2 == 0:
                l >>= 1
            if not (g(self.op(sm, self.d[l]))):
                while l < self.size:
                    self.push(l)
                    l = 2 * l
                    if g(self.op(sm, self.d[l])):
                        sm = self.op(sm, self.d[l])
                        l += 1
                return l - self.size
            sm = self.op(sm, self.d[l])
            l += 1
            if (l & -l) == l:
                break
        return self.n

    def min_left(self, r, g):
        assert 0 <= r and r <= self.n
        assert g(self.e)
        if r == 0:
            return 0
        r += self.size
        for i in range(self.log, 0, -1):
            self.push((r - 1) >> i)
        sm = self.e
        while 1:
            r -= 1
            while r > 1 and (r % 2):
                r >>= 1
            if not (g(self.op(self.d[r], sm))):
                while r < self.size:
                    self.push(r)
                    r = 2 * r + 1
                    if g(self.op(self.d[r], sm)):
                        sm = self.op(self.d[r], sm)
                        r -= 1
                return r + 1 - self.size
            sm = self.op(self.d[r], sm)
            if (r & -r) == r:
                break
        return 0

n, a = map(int, input().split())
assert 1 <= n <= 10 ** 5
assert 1 <= a <= 10 ** 9


# すべてを2倍しておくことで、簡単に整数で扱う
ys = set()
qry = []
for i in range(n):
    x, y, v = map(int, input().split())
    assert -10 ** 9 <= x <= 10 ** 9
    assert -10 ** 9 <= y <= 10 ** 9
    assert -10 ** 9 <= v <= 10 ** 9
    qry.append((2*(x-a), y, v)) # 点の追加
    qry.append((2*x+1, y, -v)) # 点の削除
    ys.add(2*y+1)
    ys.add(2*(y-a))

idx = {y:i for i,y in enumerate(sorted(ys))}
qry.sort()

def add(x, y):
    return x + y

seg = lazy_segtree([0] * (len(ys) + 1), max, 0, add, add, 0)

px = -1
ans = 0
for x, y, v in qry:
    if px != x:
        ans = max(ans, seg.all_prod())
    l = idx[2*(y-a)]
    r = idx[2*y+1]
    seg.apply(l, r, v)
    px = x

print(ans)

yukicoder

結果

ソースコード