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# Ultralytics YOLO 🚀, AGPL-3.0 license
"""
RT-DETR model interface
"""
from pathlib import Path
import torch.nn as nn
from ultralytics.nn.tasks import RTDETRDetectionModel, attempt_load_one_weight, yaml_model_load
from ultralytics.yolo.cfg import get_cfg
from ultralytics.yolo.engine.exporter import Exporter
from ultralytics.yolo.utils import DEFAULT_CFG, DEFAULT_CFG_DICT, LOGGER, RANK, ROOT, is_git_dir
from ultralytics.yolo.utils.checks import check_imgsz
from ultralytics.yolo.utils.torch_utils import model_info, smart_inference_mode
from .predict import RTDETRPredictor
from .train import RTDETRTrainer
from .val import RTDETRValidator
class RTDETR:
def __init__(self, model='rtdetr-l.pt') -> None:
if model and not model.endswith('.pt') and not model.endswith('.yaml'):
raise NotImplementedError('RT-DETR only supports creating from pt file or yaml file.')
# Load or create new YOLO model
self.predictor = None
self.ckpt = None
suffix = Path(model).suffix
if suffix == '.yaml':
self._new(model)
else:
self._load(model)
def _new(self, cfg: str, verbose=True):
cfg_dict = yaml_model_load(cfg)
self.cfg = cfg
self.task = 'detect'
self.model = RTDETRDetectionModel(cfg_dict, verbose=verbose) # build model
# Below added to allow export from YAMLs
self.model.args = DEFAULT_CFG_DICT # attach args to model
self.model.task = self.task
@smart_inference_mode()
def _load(self, weights: str):
self.model, self.ckpt = attempt_load_one_weight(weights)
self.model.args = DEFAULT_CFG_DICT # attach args to model
self.task = self.model.args['task']
@smart_inference_mode()
def load(self, weights='yolov8n.pt'):
"""
Transfers parameters with matching names and shapes from 'weights' to model.
"""
if isinstance(weights, (str, Path)):
weights, self.ckpt = attempt_load_one_weight(weights)
self.model.load(weights)
return self
@smart_inference_mode()
def predict(self, source=None, stream=False, **kwargs):
"""
Perform prediction using the YOLO model.
Args:
source (str | int | PIL | np.ndarray): The source of the image to make predictions on.
Accepts all source types accepted by the YOLO model.
stream (bool): Whether to stream the predictions or not. Defaults to False.
**kwargs : Additional keyword arguments passed to the predictor.
Check the 'configuration' section in the documentation for all available options.
Returns:
(List[ultralytics.yolo.engine.results.Results]): The prediction results.
"""
if source is None:
source = ROOT / 'assets' if is_git_dir() else 'https://ultralytics.com/images/bus.jpg'
LOGGER.warning(f"WARNING ⚠️ 'source' is missing. Using 'source={source}'.")
overrides = dict(conf=0.25, task='detect', mode='predict')
overrides.update(kwargs) # prefer kwargs
if not self.predictor:
self.predictor = RTDETRPredictor(overrides=overrides)
self.predictor.setup_model(model=self.model)
else: # only update args if predictor is already setup
self.predictor.args = get_cfg(self.predictor.args, overrides)
return self.predictor(source, stream=stream)
def train(self, **kwargs):
"""
Trains the model on a given dataset.
Args:
**kwargs (Any): Any number of arguments representing the training configuration.
"""
overrides = dict(task='detect', mode='train')
overrides.update(kwargs)
overrides['deterministic'] = False
if not overrides.get('data'):
raise AttributeError("Dataset required but missing, i.e. pass 'data=coco128.yaml'")
if overrides.get('resume'):
overrides['resume'] = self.ckpt_path
self.task = overrides.get('task') or self.task
self.trainer = RTDETRTrainer(overrides=overrides)
if not overrides.get('resume'): # manually set model only if not resuming
self.trainer.model = self.trainer.get_model(weights=self.model if self.ckpt else None, cfg=self.model.yaml)
self.model = self.trainer.model
self.trainer.train()
# Update model and cfg after training
if RANK in (-1, 0):
self.model, _ = attempt_load_one_weight(str(self.trainer.best))
self.overrides = self.model.args
self.metrics = getattr(self.trainer.validator, 'metrics', None) # TODO: no metrics returned by DDP
def val(self, **kwargs):
"""Run validation given dataset."""
overrides = dict(task='detect', mode='val')
overrides.update(kwargs) # prefer kwargs
args = get_cfg(cfg=DEFAULT_CFG, overrides=overrides)
args.imgsz = check_imgsz(args.imgsz, max_dim=1)
validator = RTDETRValidator(args=args)
validator(model=self.model)
self.metrics = validator.metrics
return validator.metrics
def info(self, verbose=True):
"""Get model info"""
return model_info(self.model, verbose=verbose)
def _check_is_pytorch_model(self):
"""
Raises TypeError is model is not a PyTorch model
"""
pt_str = isinstance(self.model, (str, Path)) and Path(self.model).suffix == '.pt'
pt_module = isinstance(self.model, nn.Module)
if not (pt_module or pt_str):
raise TypeError(f"model='{self.model}' must be a *.pt PyTorch model, but is a different type. "
f'PyTorch models can be used to train, val, predict and export, i.e. '
f"'yolo export model=yolov8n.pt', but exported formats like ONNX, TensorRT etc. only "
f"support 'predict' and 'val' modes, i.e. 'yolo predict model=yolov8n.onnx'.")
def fuse(self):
"""Fuse PyTorch Conv2d and BatchNorm2d layers."""
self._check_is_pytorch_model()
self.model.fuse()
@smart_inference_mode()
def export(self, **kwargs):
"""
Export model.
Args:
**kwargs : Any other args accepted by the predictors. To see all args check 'configuration' section in docs
"""
overrides = dict(task='detect')
overrides.update(kwargs)
overrides['mode'] = 'export'
args = get_cfg(cfg=DEFAULT_CFG, overrides=overrides)
args.task = self.task
if args.imgsz == DEFAULT_CFG.imgsz:
args.imgsz = self.model.args['imgsz'] # use trained imgsz unless custom value is passed
if args.batch == DEFAULT_CFG.batch:
args.batch = 1 # default to 1 if not modified
return Exporter(overrides=args)(model=self.model)
def __call__(self, source=None, stream=False, **kwargs):
"""Calls the 'predict' function with given arguments to perform object detection."""
return self.predict(source, stream, **kwargs)
def __getattr__(self, attr):
"""Raises error if object has no requested attribute."""
name = self.__class__.__name__
raise AttributeError(f"'{name}' object has no attribute '{attr}'. See valid attributes below.\n{self.__doc__}")