#!/usr/bin/ python3.8 import sys read = sys.stdin.buffer.read readline = sys.stdin.buffer.readline readlines = sys.stdin.buffer.readlines from collections import defaultdict N = int(readline()) L = tuple(map(int, readline().split())) T = int(readline()) query = readlines() AC_count = [0] * N player_score = defaultdict(int) scores = [] for t, q in enumerate(query): name, prob = q.split() if prob == b'?': continue p = ord(prob) - ord('A') lv = L[p] AC_count[p] += 1 rank = AC_count[p] player_score[name] += 50 * lv + (250 * lv) // (4 + rank) x = t - (T + 10) * player_score[name] scores.append(x) compress = {x: i for i, x in enumerate(sorted(scores), 1)} class BinaryIndexedTree(): def __init__(self, seq): self.size = len(seq) self.depth = self.size.bit_length() self.build(seq) def build(self, seq): data = seq size = self.size for i, x in enumerate(data): j = i + (i & (-i)) if j < size: data[j] += data[i] self.data = data def __repr__(self): return self.data.__repr__() def get_sum(self, i): data = self.data s = 0 while i: s += data[i] i -= i & -i return s def add(self, i, x): data = self.data size = self.size while i < size: data[i] += x i += i & -i def find_kth_element(self, k): data = self.data size = self.size x, sx = 0, 0 dx = 1 << (self.depth) for i in range(self.depth - 1, -1, -1): dx = (1 << i) if x + dx >= size: continue y = x + dx sy = sx + data[y] if sy < k: x, sx = y, sy return x + 1 AC_count = [0] * N player_score = defaultdict(int) player_score_c = defaultdict(int) n_record = 0 bit = BinaryIndexedTree([0] * (T + 10)) for t, q in enumerate(query): name, prob = q.split() if prob == b'?': x = player_score_c[name] print(bit.get_sum(x)) continue p = ord(prob) - ord('A') lv = L[p] AC_count[p] += 1 rank = AC_count[p] player_score[name] += 50 * lv + (250 * lv) // (4 + rank) before = player_score_c[name] after = compress[t - (T + 10) * player_score[name]] player_score_c[name] = after if not before: n_record += 1 if before: bit.add(before, -1) bit.add(after, 1)