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244 lines
7.0 KiB
244 lines
7.0 KiB
# Ultralytics YOLO 🚀, AGPL-3.0 license |
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from pathlib import Path |
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import cv2 |
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import numpy as np |
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import torch |
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from PIL import Image |
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from ultralytics import RTDETR, YOLO |
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from ultralytics.yolo.data.build import load_inference_source |
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from ultralytics.yolo.utils import LINUX, ONLINE, ROOT, SETTINGS |
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MODEL = Path(SETTINGS['weights_dir']) / 'yolov8n.pt' |
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CFG = 'yolov8n.yaml' |
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SOURCE = ROOT / 'assets/bus.jpg' |
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SOURCE_GREYSCALE = Path(f'{SOURCE.parent / SOURCE.stem}_greyscale.jpg') |
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SOURCE_RGBA = Path(f'{SOURCE.parent / SOURCE.stem}_4ch.png') |
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# Convert SOURCE to greyscale and 4-ch |
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im = Image.open(SOURCE) |
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im.convert('L').save(SOURCE_GREYSCALE) # greyscale |
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im.convert('RGBA').save(SOURCE_RGBA) # 4-ch PNG with alpha |
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def test_model_forward(): |
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model = YOLO(CFG) |
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model(SOURCE) |
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def test_model_info(): |
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model = YOLO(CFG) |
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model.info() |
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model = YOLO(MODEL) |
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model.info(verbose=True) |
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def test_model_fuse(): |
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model = YOLO(CFG) |
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model.fuse() |
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model = YOLO(MODEL) |
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model.fuse() |
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def test_predict_dir(): |
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model = YOLO(MODEL) |
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model(source=ROOT / 'assets') |
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def test_predict_img(): |
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model = YOLO(MODEL) |
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seg_model = YOLO('yolov8n-seg.pt') |
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cls_model = YOLO('yolov8n-cls.pt') |
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pose_model = YOLO('yolov8n-pose.pt') |
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im = cv2.imread(str(SOURCE)) |
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assert len(model(source=Image.open(SOURCE), save=True, verbose=True)) == 1 # PIL |
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assert len(model(source=im, save=True, save_txt=True)) == 1 # ndarray |
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assert len(model(source=[im, im], save=True, save_txt=True)) == 2 # batch |
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assert len(list(model(source=[im, im], save=True, stream=True))) == 2 # stream |
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assert len(model(torch.zeros(320, 640, 3).numpy())) == 1 # tensor to numpy |
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batch = [ |
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str(SOURCE), # filename |
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Path(SOURCE), # Path |
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'https://ultralytics.com/images/zidane.jpg' if ONLINE else SOURCE, # URI |
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cv2.imread(str(SOURCE)), # OpenCV |
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Image.open(SOURCE), # PIL |
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np.zeros((320, 640, 3))] # numpy |
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assert len(model(batch, visualize=True)) == len(batch) # multiple sources in a batch |
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# Test tensor inference |
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im = cv2.imread(str(SOURCE)) # OpenCV |
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t = cv2.resize(im, (32, 32)) |
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t = torch.from_numpy(t.transpose((2, 0, 1))) |
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t = torch.stack([t, t, t, t]) |
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results = model(t, visualize=True) |
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assert len(results) == t.shape[0] |
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results = seg_model(t, visualize=True) |
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assert len(results) == t.shape[0] |
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results = cls_model(t, visualize=True) |
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assert len(results) == t.shape[0] |
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results = pose_model(t, visualize=True) |
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assert len(results) == t.shape[0] |
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def test_predict_grey_and_4ch(): |
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model = YOLO(MODEL) |
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for f in SOURCE_RGBA, SOURCE_GREYSCALE: |
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for source in Image.open(f), cv2.imread(str(f)), f: |
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model(source, save=True, verbose=True) |
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def test_val(): |
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model = YOLO(MODEL) |
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model.val(data='coco8.yaml', imgsz=32) |
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def test_val_scratch(): |
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model = YOLO(CFG) |
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model.val(data='coco8.yaml', imgsz=32) |
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def test_amp(): |
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if torch.cuda.is_available(): |
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from ultralytics.yolo.utils.checks import check_amp |
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model = YOLO(MODEL).model.cuda() |
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assert check_amp(model) |
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def test_train_scratch(): |
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model = YOLO(CFG) |
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model.train(data='coco8.yaml', epochs=1, imgsz=32, cache='disk') # test disk caching |
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model(SOURCE) |
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def test_train_pretrained(): |
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model = YOLO(MODEL) |
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model.train(data='coco8.yaml', epochs=1, imgsz=32, cache='ram') # test RAM caching |
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model(SOURCE) |
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def test_export_torchscript(): |
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model = YOLO(MODEL) |
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f = model.export(format='torchscript') |
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YOLO(f)(SOURCE) # exported model inference |
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def test_export_torchscript_scratch(): |
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model = YOLO(CFG) |
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f = model.export(format='torchscript') |
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YOLO(f)(SOURCE) # exported model inference |
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def test_export_onnx(): |
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model = YOLO(MODEL) |
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f = model.export(format='onnx') |
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YOLO(f)(SOURCE) # exported model inference |
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def test_export_openvino(): |
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model = YOLO(MODEL) |
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f = model.export(format='openvino') |
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YOLO(f)(SOURCE) # exported model inference |
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def test_export_coreml(): # sourcery skip: move-assign |
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model = YOLO(MODEL) |
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model.export(format='coreml') |
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# if MACOS: |
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# YOLO(f)(SOURCE) # model prediction only supported on macOS |
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def test_export_tflite(enabled=False): |
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# TF suffers from install conflicts on Windows and macOS |
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if enabled and LINUX: |
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model = YOLO(MODEL) |
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f = model.export(format='tflite') |
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YOLO(f)(SOURCE) |
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def test_export_pb(enabled=False): |
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# TF suffers from install conflicts on Windows and macOS |
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if enabled and LINUX: |
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model = YOLO(MODEL) |
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f = model.export(format='pb') |
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YOLO(f)(SOURCE) |
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def test_export_paddle(enabled=False): |
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# Paddle protobuf requirements conflicting with onnx protobuf requirements |
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if enabled: |
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model = YOLO(MODEL) |
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model.export(format='paddle') |
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def test_all_model_yamls(): |
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for m in list((ROOT / 'models').rglob('yolo*.yaml')): |
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if m.name == 'yolov8-rtdetr.yaml': # except the rtdetr model |
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RTDETR(m.name) |
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else: |
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YOLO(m.name) |
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def test_workflow(): |
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model = YOLO(MODEL) |
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model.train(data='coco8.yaml', epochs=1, imgsz=32) |
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model.val() |
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model.predict(SOURCE) |
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model.export(format='onnx') # export a model to ONNX format |
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def test_predict_callback_and_setup(): |
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# test callback addition for prediction |
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def on_predict_batch_end(predictor): # results -> List[batch_size] |
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path, im0s, _, _ = predictor.batch |
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# print('on_predict_batch_end', im0s[0].shape) |
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im0s = im0s if isinstance(im0s, list) else [im0s] |
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bs = [predictor.dataset.bs for _ in range(len(path))] |
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predictor.results = zip(predictor.results, im0s, bs) |
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model = YOLO(MODEL) |
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model.add_callback('on_predict_batch_end', on_predict_batch_end) |
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dataset = load_inference_source(source=SOURCE) |
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bs = dataset.bs # noqa access predictor properties |
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results = model.predict(dataset, stream=True) # source already setup |
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for _, (result, im0, bs) in enumerate(results): |
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print('test_callback', im0.shape) |
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print('test_callback', bs) |
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boxes = result.boxes # Boxes object for bbox outputs |
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print(boxes) |
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def _test_results_api(res): |
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# General apis except plot |
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res = res.cpu().numpy() |
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# res = res.cuda() |
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res = res.to(device='cpu', dtype=torch.float32) |
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res.save_txt('label.txt', save_conf=False) |
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res.save_txt('label.txt', save_conf=True) |
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res.save_crop('crops/') |
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res.tojson(normalize=False) |
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res.tojson(normalize=True) |
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res.plot(pil=True) |
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res.plot(conf=True, boxes=False) |
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res.plot() |
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print(res) |
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print(res.path) |
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for k in res.keys: |
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print(getattr(res, k)) |
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def test_results(): |
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for m in ['yolov8n-pose.pt', 'yolov8n-seg.pt', 'yolov8n.pt', 'yolov8n-cls.pt']: |
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model = YOLO(m) |
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res = model([SOURCE, SOURCE]) |
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_test_results_api(res[0]) |
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def test_track(): |
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im = cv2.imread(str(SOURCE)) |
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for m in ['yolov8n-pose.pt', 'yolov8n-seg.pt', 'yolov8n.pt']: |
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model = YOLO(m) |
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res = model.track(source=im) |
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_test_results_api(res[0])
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