ソースコード

## https://yukicoder.me/problems/no/3221

MAX_INT = 10 ** 18

class LazySegmentTree:
    """
    非再帰版遅延セグメント木。
    更新は「加法」、取得は「最大値」のもの限定。
    取得のところの都合で取得演算子は可換になっている必要がある。
    """

    def __init__(self, init_array):
        n = 1
        while n < len(init_array):
            n *= 2
        
        self.size = n
        self.array = [[MAX_INT, MAX_INT] for _ in range(2 * self.size)]
        self.lazy_array = [0 for _ in range(2 * self.size)]
        for i, a in enumerate(init_array):
            self.array[self.size + i][0] = a
            self.array[self.size + i][1] = i
        
        end_index = self.size
        start_index = end_index // 2
        while start_index >= 1:
            for i in range(start_index, end_index):
                self._op(self.array[i], self.array[2 * i], self.array[2 * i + 1])
            end_index = start_index
            start_index = end_index // 2
    
    def _op(self, array, left, right):
        if left[0] < right[0]:
            array[0] = min(left[0], right[0])
            array[1] = left[1]
        elif left[0] > right[0]:
            array[0] = min(left[0], right[0])
            array[1] = right[1]
        else:
            array[0] = left[0]
            array[1] = min(left[1], right[1])
    
    def _propagates(self, *ids):
        for i in reversed(ids):
            self._propagate(i)

    def _propagate(self, i):
        v = self.lazy_array[i]
        if v == 0:
            return
        
        if i < self.size:
            self.lazy_array[2 * i] += v
            self.lazy_array[2 * i + 1] += v
            self.array[2 * i][0] += v
            self.array[2 * i + 1][0] += v
        self.lazy_array[i] = 0

    def _get_target_index(self, l, r):
        L = l + self.size; R = r + self.size
        lm = (L // (L & -L)) >> 1
        rm = (R // (R & -R)) >> 1
        while 0 < L and L < R:
            if R <= rm:
                yield R
            if L <= lm:
                yield L
            L >>= 1; R >>= 1
        while L > 0:
            yield L
            L >>= 1

    def add(self, l, r, x):
        # 2. 区間[l, r)のdata, lazyの値を更新
        L = self.size + l; R = self.size + r
        *ids, = self._get_target_index(l, r)
        self._propagates(*ids)
        while L < R:
            if R & 1:
                R -= 1
                self.lazy_array[R] += x
                self.array[R][0] += x
            if L & 1:
                self.lazy_array[L] += x
                self.array[L][0] += x
                L += 1
            L >>= 1; R >>= 1

        # 3. 伝搬させた区間について、ボトムアップにdataの値を伝搬する
        for i in ids:
            if i < self.size:
                self._op(self.array[i], self.array[2 * i], self.array[2 * i + 1])

    def get_min(self, l, r):
        # 1. トップダウンにlazyの値を伝搬
        self._propagates(*self._get_target_index(l, r))
        L = self.size + l; R = self.size + r

        # 2. 区間[l, r)の最大値を求める
        s = [MAX_INT, MAX_INT]
        while L < R:
            if R & 1:
                R -= 1
                self._op(s, s, self.array[R])
            if L & 1:
                self._op(s, s, self.array[L])
                L += 1
            L >>= 1; R >>= 1
        return s

def main():
    N, H, T = map(int, input().split())
    A = list(map(int, input().split()))

    # 0の状態から何回やればHに届くのかを回答
    max_x_list = [0] * N
    for i in range(N):
        x = (H // A[i]) + (1 if H % A[i] > 0 else 0)
        max_x_list[i] = x
    
    lazy_seg_tree = LazySegmentTree(max_x_list)
    c = [0] * N
    for _ in range(T):
        s = lazy_seg_tree.get_min(0, lazy_seg_tree.size)
        x = s[0]
        index = s[1]

        c[index] += 1

        lazy_seg_tree.add(0, N, -x)
        lazy_seg_tree.add(index, index + 1, x + max_x_list[index])
    
    print(" ".join(map(str, c)))







if __name__ == "__main__":
    main()