140 lines
5.7 KiB
Python
140 lines
5.7 KiB
Python
from data_provider.data_factory import data_provider
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from exp.exp_basic import Exp_Basic
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from utils.tools import EarlyStopping, adjust_learning_rate, visual
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from utils.metrics import metric
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import torch
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import torch.nn as nn
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from torch import optim
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import os
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import time
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import warnings
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import numpy as np
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from utils.dtw_metric import dtw, accelerated_dtw
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from utils.augmentation import run_augmentation, run_augmentation_single
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warnings.filterwarnings('ignore')
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class Exp_Zero_Shot_Forecast(Exp_Basic):
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def __init__(self, args):
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super(Exp_Zero_Shot_Forecast, self).__init__(args)
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def _build_model(self):
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model = self.model_dict[self.args.model].Model(self.args).float()
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if self.args.use_multi_gpu and self.args.use_gpu:
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model = nn.DataParallel(model, device_ids=self.args.device_ids)
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return model
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def _get_data(self, flag):
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data_set, data_loader = data_provider(self.args, flag)
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return data_set, data_loader
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def _select_optimizer(self):
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model_optim = optim.Adam(self.model.parameters(), lr=self.args.learning_rate)
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return model_optim
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def _select_criterion(self):
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criterion = nn.MSELoss()
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return criterion
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def test(self, setting, test=0):
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test_data, test_loader = self._get_data(flag='test')
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preds = []
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trues = []
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folder_path = './test_results/' + setting + '/'
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if not os.path.exists(folder_path):
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os.makedirs(folder_path)
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self.model.eval()
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with torch.no_grad():
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for i, (batch_x, batch_y, batch_x_mark, batch_y_mark) in enumerate(test_loader):
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# start_time = time.time()
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batch_x = batch_x.float().to(self.device)
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batch_y = batch_y.float().to(self.device)
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batch_x_mark = batch_x_mark.float().to(self.device)
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batch_y_mark = batch_y_mark.float().to(self.device)
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# decoder input
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dec_inp = torch.zeros_like(batch_y[:, -self.args.pred_len:, :]).float()
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dec_inp = torch.cat([batch_y[:, :self.args.label_len, :], dec_inp], dim=1).float().to(self.device)
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# encoder - decoder
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if self.args.use_amp:
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with torch.cuda.amp.autocast():
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outputs = self.model(batch_x, batch_x_mark, dec_inp, batch_y_mark)
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else:
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outputs = self.model(batch_x, batch_x_mark, dec_inp, batch_y_mark)
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# print("Test cost time: {}".format(time.time() - start_time))
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f_dim = -1 if self.args.features == 'MS' else 0
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outputs = outputs[:, -self.args.pred_len:, :]
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batch_y = batch_y[:, -self.args.pred_len:, :].to(self.device)
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outputs = outputs.detach().cpu().numpy()
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batch_y = batch_y.detach().cpu().numpy()
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if test_data.scale and self.args.inverse:
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shape = batch_y.shape
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if outputs.shape[-1] != batch_y.shape[-1]:
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outputs = np.tile(outputs, [1, 1, int(batch_y.shape[-1] / outputs.shape[-1])])
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outputs = test_data.inverse_transform(outputs.reshape(shape[0] * shape[1], -1)).reshape(shape)
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batch_y = test_data.inverse_transform(batch_y.reshape(shape[0] * shape[1], -1)).reshape(shape)
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outputs = outputs[:, :, f_dim:]
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batch_y = batch_y[:, :, f_dim:]
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pred = outputs
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true = batch_y
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preds.append(pred)
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trues.append(true)
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if i % 20 == 0:
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input = batch_x.detach().cpu().numpy()
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if test_data.scale and self.args.inverse:
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shape = input.shape
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input = test_data.inverse_transform(input.reshape(shape[0] * shape[1], -1)).reshape(shape)
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gt = np.concatenate((input[0, :, -1], true[0, :, -1]), axis=0)
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pd = np.concatenate((input[0, :, -1], pred[0, :, -1]), axis=0)
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visual(gt, pd, os.path.join(folder_path, str(i) + '.pdf'))
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preds = np.concatenate(preds, axis=0)
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trues = np.concatenate(trues, axis=0)
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print('test shape:', preds.shape, trues.shape)
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preds = preds.reshape(-1, preds.shape[-2], preds.shape[-1])
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trues = trues.reshape(-1, trues.shape[-2], trues.shape[-1])
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print('test shape:', preds.shape, trues.shape)
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# result save
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folder_path = './results/' + setting + '/'
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if not os.path.exists(folder_path):
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os.makedirs(folder_path)
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# dtw calculation
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if self.args.use_dtw:
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dtw_list = []
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manhattan_distance = lambda x, y: np.abs(x - y)
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for i in range(preds.shape[0]):
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x = preds[i].reshape(-1, 1)
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y = trues[i].reshape(-1, 1)
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if i % 100 == 0:
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print("calculating dtw iter:", i)
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d, _, _, _ = accelerated_dtw(x, y, dist=manhattan_distance)
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dtw_list.append(d)
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dtw = np.array(dtw_list).mean()
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else:
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dtw = 'Not calculated'
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mae, mse, rmse, mape, mspe = metric(preds, trues)
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print('mse:{}, mae:{}, dtw:{}'.format(mse, mae, dtw))
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f = open("result_zero_shot_forecast_search.txt", 'a')
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f.write(setting + " \n")
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f.write('mse:{}, mae:{}, dtw:{}'.format(mse, mae, dtw))
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f.write('\n')
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f.write('\n')
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f.close()
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np.save(folder_path + 'metrics.npy', np.array([mae, mse, rmse, mape, mspe]))
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np.save(folder_path + 'pred.npy', preds)
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np.save(folder_path + 'true.npy', trues)
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return
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