def __init__(self, configer): self.configer = configer self.batch_time = AverageMeter() self.data_time = AverageMeter() self.train_losses = AverageMeter() self.val_losses = AverageMeter() self.det_visualizer = DetVisualizer(configer) self.det_model_manager = ModelManager(configer) self.det_data_loader = DataLoader(configer) self.det_running_score = DetRunningScore(configer) self.det_net = None self.train_loader = None self.val_loader = None self.optimizer = None self.scheduler = None self.runner_state = dict() self._init_model()
class YOLOv3(object): """ The class for YOLO v3. Include train, val, test & predict. """ def __init__(self, configer): self.configer = configer self.batch_time = AverageMeter() self.data_time = AverageMeter() self.train_losses = AverageMeter() self.val_losses = AverageMeter() self.det_visualizer = DetVisualizer(configer) self.det_model_manager = ModelManager(configer) self.det_data_loader = DataLoader(configer) self.det_running_score = DetRunningScore(configer) self.det_net = None self.train_loader = None self.val_loader = None self.optimizer = None self.scheduler = None self.runner_state = dict() self._init_model() def _init_model(self): self.det_net = self.det_model_manager.object_detector() self.det_net = RunnerHelper.load_net(self, self.det_net) self.optimizer, self.scheduler = Trainer.init(self._get_parameters(), self.configer.get('solver')) self.train_loader = self.det_data_loader.get_trainloader() self.val_loader = self.det_data_loader.get_valloader() def _get_parameters(self): lr_1 = [] lr_10 = [] params_dict = dict(self.det_net.named_parameters()) for key, value in params_dict.items(): if 'backbone' not in key: lr_10.append(value) else: lr_1.append(value) params = [{'params': lr_1, 'lr': self.configer.get('solver', 'lr')['base_lr']}, {'params': lr_10, 'lr': self.configer.get('solver', 'lr')['base_lr'] * 10.}] return params def train(self): """ Train function of every epoch during train phase. """ self.det_net.train() start_time = time.time() # Adjust the learning rate after every epoch. self.runner_state['epoch'] += 1 # data_tuple: (inputs, heatmap, maskmap, vecmap) for i, data_dict in enumerate(self.train_loader): Trainer.update(self, warm_list=(0,), warm_lr_list=(self.configer.get('solver', 'lr')['base_lr'],), solver_dict=self.configer.get('solver')) self.data_time.update(time.time() - start_time) # Forward pass. out_dict = self.det_net(data_dict) # Compute the loss of the train batch & backward. loss = out_dict['loss'].mean() self.train_losses.update(loss.item(), len(DCHelper.tolist(data_dict['meta']))) self.optimizer.zero_grad() loss.backward() self.optimizer.step() # Update the vars of the train phase. self.batch_time.update(time.time() - start_time) start_time = time.time() self.runner_state['iters'] += 1 # Print the log info & reset the states. if self.runner_state['iters'] % self.configer.get('solver', 'display_iter') == 0: Log.info('Train Epoch: {0}\tTrain Iteration: {1}\t' 'Time {batch_time.sum:.3f}s / {2}iters, ({batch_time.avg:.3f})\t' 'Data load {data_time.sum:.3f}s / {2}iters, ({data_time.avg:3f})\n' 'Learning rate = {3}\tLoss = {loss.val:.8f} (ave = {loss.avg:.8f})\n'.format( self.runner_state['epoch'], self.runner_state['iters'], self.configer.get('solver', 'display_iter'), RunnerHelper.get_lr(self.optimizer), batch_time=self.batch_time, data_time=self.data_time, loss=self.train_losses)) self.batch_time.reset() self.data_time.reset() self.train_losses.reset() if self.configer.get('solver', 'lr')['metric'] == 'iters' \ and self.runner_state['iters'] == self.configer.get('solver', 'max_iters'): break # Check to val the current model. if self.runner_state['iters'] % self.configer.get('solver', 'test_interval') == 0: self.val() def val(self): """ Validation function during the train phase. """ self.det_net.eval() start_time = time.time() with torch.no_grad(): for i, data_dict in enumerate(self.val_loader): # Forward pass. out_dict = self.det_net(data_dict) # Compute the loss of the val batch. loss = out_dict['loss'].mean() self.val_losses.update(loss.item(), len(DCHelper.tolist(data_dict['meta']))) batch_detections = YOLOv3Test.decode(out_dict['dets'], self.configer, DCHelper.tolist(data_dict['meta'])) batch_pred_bboxes = self.__get_object_list(batch_detections) self.det_running_score.update(batch_pred_bboxes, [item['ori_bboxes'] for item in DCHelper.tolist(data_dict['meta'])], [item['ori_labels'] for item in DCHelper.tolist(data_dict['meta'])]) # Update the vars of the val phase. self.batch_time.update(time.time() - start_time) start_time = time.time() RunnerHelper.save_net(self, self.det_net, iters=self.runner_state['iters']) # Print the log info & reset the states. Log.info( 'Test Time {batch_time.sum:.3f}s, ({batch_time.avg:.3f})\t' 'Loss {loss.avg:.8f}\n'.format(batch_time=self.batch_time, loss=self.val_losses)) Log.info('Val mAP: {}'.format(self.det_running_score.get_mAP())) self.det_running_score.reset() self.batch_time.reset() self.val_losses.reset() self.det_net.train() def __get_object_list(self, batch_detections): batch_pred_bboxes = list() for idx, detections in enumerate(batch_detections): object_list = list() if detections is not None: for x1, y1, x2, y2, conf, cls_conf, cls_pred in detections: cf = float('%.2f' % conf.item()) cls_pred = int(cls_pred.item()) object_list.append([x1.item(), y1.item(), x2.item(), y2.item(), cls_pred, cf]) batch_pred_bboxes.append(object_list) return batch_pred_bboxes