def get_predict_result(): diff_number = windows_size - 1 data = spider(str(int(get_current_number()) - diff_number), get_current_number(), "predict") red_name_list = [(BOLL_NAME[0], i + 1) for i in range(sequence_len)] red_data = data[["{}号码_{}".format(name[0], i) for name, i in red_name_list]].values.astype(int) - 1 blue_data = data[[BOLL_NAME[1][0]]].values.astype(int) - 1 if len(data) != 3: print("[WARN] 期号出现跳期,期号不连续!开始查找最近上一期期号!本期预测时间较久!") last_current_year = (get_year() - 1) * 1000 max_times = 160 while len(data) != 3: data = spider(last_current_year + max_times, get_current_number(), "predict")[[x[0] for x in BOLL_NAME]] time.sleep(np.random.random(1).tolist()[0]) max_times -= 1 # 预测红球 with red_graph.as_default(): reverse_sequence = tf.compat.v1.get_default_graph().get_tensor_by_name(pred_key_d[BOLL_NAME[0][0]]) red_pred = red_sess.run(reverse_sequence, feed_dict={ "red_inputs:0": red_data.reshape(batch_size, windows_size, sequence_len), "sequence_length:0": np.array([sequence_len] * 1) }) # 预测蓝球 with blue_graph.as_default(): softmax = tf.compat.v1.get_default_graph().get_tensor_by_name(pred_key_d[BOLL_NAME[1][0]]) blue_pred = blue_sess.run(softmax, feed_dict={ "blue_inputs:0": blue_data.reshape(batch_size, windows_size) }) # 拼接结果 ball_name_list = ["{}_{}".format(name[1], i) for name, i in red_name_list] + [BOLL_NAME[1][1]] pred_result_list = red_pred[0].tolist() + blue_pred.tolist() return json.dumps( {b_name: int(res) + 1 for b_name, res in zip(ball_name_list, pred_result_list)} ).encode('utf-8').decode('unicode_escape')
def get_predict_result(): data = spider(str(int(get_current_number()) - 2), get_current_number(), "predict")[BOLL_NAME] result = [] for i, model in enumerate(model_list): boll_name = BOLL_NAME[i] data_list = [int(x) for x in data[boll_name].tolist()] p_data = np.array(data_list).reshape([-1, 3, 1]).astype(np.float32) result.extend(model.predict_classes(p_data)) return json.dumps( {b_name: int(res) + 1 for b_name, res in zip(BOLL_NAME, result)})
def get_predict_result(): if locked(): return "正在计算中,请稍后再请求..." create_lock() try: data = spider(str(int(get_current_number()) - 2), get_current_number(), "predict")[BOLL_NAME] model_list = load_model_list() result = [] for i, model in enumerate(model_list): boll_name = BOLL_NAME[i] data_list = [int(x) for x in data[boll_name].tolist()] p_data = np.array(data_list).reshape([-1, 3, 1]).astype(np.float32) result.extend(model.predict_classes(p_data)) result_json = json.dumps({b_name: int(res) + 1 for b_name, res in zip(BOLL_NAME, result)}, ensure_ascii=False) remove_lock() return result_json except Exception as e: remove_lock() return "计算出错,稍后重新请求后再试..."
def get_predict_result(): diff_number = windows_size - 1 data = spider(str(int(get_current_number()) - diff_number), get_current_number(), "predict")[BOLL_NAME] if len(data) != 3: print("[WARN] 期号出现跳期,期号不连续!开始查找最近上一期期号!本期预测时间较久!") last_current_year = (get_year() - 1) * 1000 max_times = 160 while len(data) != 3: data = spider(last_current_year + max_times, get_current_number(), "predict")[BOLL_NAME] time.sleep(np.random.random(1).tolist()[0]) max_times -= 1 result = [] for i, model in enumerate(model_list): boll_name = BOLL_NAME[i] data_list = [int(x) for x in data[boll_name].tolist()] p_data = np.array(data_list).reshape([-1, windows_size, 1]).astype(np.float32) result.extend(model.predict_classes(p_data)) return json.dumps({ b_name: int(res) + 1 for b_name, res in zip(BOLL_NAME, result) }).encode('utf-8').decode('unicode_escape')