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117 lines
3.7 KiB
117 lines
3.7 KiB
import logging
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import torch
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from omegaconf import OmegaConf
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from tqdm import tqdm
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from ultralytics.yolo.engine.trainer import DEFAULT_CONFIG
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from ultralytics.yolo.utils import TQDM_BAR_FORMAT
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from ultralytics.yolo.utils.ops import Profile
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from ultralytics.yolo.utils.torch_utils import de_parallel, select_device
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class BaseValidator:
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"""
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Base validator class.
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"""
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def __init__(self, dataloader, pbar=None, logger=None, args=None):
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self.dataloader = dataloader
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self.pbar = pbar
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self.logger = logger or logging.getLogger()
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self.args = args or OmegaConf.load(DEFAULT_CONFIG)
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self.device = select_device(self.args.device, dataloader.batch_size)
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self.cuda = self.device.type != 'cpu'
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self.batch_i = None
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self.training = True
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self.loss = None
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def __call__(self, trainer=None, model=None):
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"""
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Supports validation of a pre-trained model if passed or a model being trained
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if trainer is passed (trainer gets priority).
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"""
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self.training = trainer is not None
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if self.training:
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model = trainer.ema.ema or trainer.model
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self.args.half &= self.device.type != 'cpu'
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# NOTE: half() inference in evaluation will make training stuck,
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# so I comment it out for now, I think we can reuse half mode after we add EMA.
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model = model.half() if self.args.half else model.float()
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else: # TODO: handle this when detectMultiBackend is supported
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assert model is not None, "Either trainer or model is needed for validation"
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# model = DetectMultiBacked(model)
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model.eval()
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dt = Profile(), Profile(), Profile(), Profile()
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self.loss = 0
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n_batches = len(self.dataloader)
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desc = self.get_desc()
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bar = tqdm(self.dataloader, desc, n_batches, not self.training, bar_format=TQDM_BAR_FORMAT)
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self.init_metrics(de_parallel(model))
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with torch.no_grad():
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for batch_i, batch in enumerate(bar):
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self.batch_i = batch_i
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# pre-process
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with dt[0]:
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batch = self.preprocess(batch)
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# inference
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with dt[1]:
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preds = model(batch["img"].float())
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# TODO: remember to add native augmentation support when implementing model, like:
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# preds, train_out = model(im, augment=augment)
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# loss
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with dt[2]:
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if self.training:
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self.loss += trainer.criterion(preds, batch)[0]
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# pre-process predictions
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with dt[3]:
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preds = self.postprocess(preds)
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self.update_metrics(preds, batch)
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stats = self.get_stats()
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self.check_stats(stats)
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self.print_results()
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# print speeds
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if not self.training:
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t = tuple(x.t / len(self.dataloader.dataset.samples) * 1E3 for x in dt) # speeds per image
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# shape = (self.dataloader.batch_size, 3, imgsz, imgsz)
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self.logger.info(
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'Speed: %.1fms pre-process, %.1fms inference, %.1fms loss, %.1fms post-process per image at shape ' % t)
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if self.training:
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model.float()
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# TODO: implement save json
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return stats
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def preprocess(self, batch):
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return batch
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def postprocess(self, preds):
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return preds
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def init_metrics(self):
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pass
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def update_metrics(self, preds, batch):
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pass
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def get_stats(self):
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pass
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def check_stats(self, stats):
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pass
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def print_results(self):
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pass
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def get_desc(self):
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pass
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