N,M,X = map(int, input().split(" ")) questions = [] for i in range(N): questions.append(list(map(int, input().split(" ")))) if N > 900000: print("read_finish") K = int(input()) num_answers = list(map(int, input().split(" "))) def calc_confident(question_list, num_answers, X): sum = 0 for num in num_answers: janru = set() for i in range(num): janru.add(question_list[i][1]) sum += question_list[i][0] sum += len(janru)*X return sum def get_other_j_first(sorted_list, j_set): for s in sorted_list: if s[1] not in j_set: return s return None def get_max(sorted_list, j_set, N, X): #sorted_list = sorted(questions, key= lambda x:-x[0]) if not j_set: return sorted_list[0] n_j = len(j_set) if n_j == N: return sorted_list[0] max_q = sorted_list[0] #other_j_list = [s for s in sorted_list if s[1] not in j_set] max_q_j = get_other_j_first(sorted_list, j_set) if not max_q_j: return max_q if max_q == max_q_j: return max_q dif = max_q[0] - max_q_j[0] if dif > X: return max_q else: return max_q_j print("sort start") questions = sorted_list = sorted(questions, key= lambda x:-x[0]) now_list = [] j_set = set() for i in range(len(questions)): max_q = get_max(questions, j_set, N,X) now_list.append(max_q) j_set.add(max_q[1]) questions.remove(max_q) print(i, len(questions)) val = calc_confident(now_list, num_answers, X) print(val)