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276 lines
14 KiB
276 lines
14 KiB
<img width="1024" src="https://github.com/ultralytics/assets/raw/main/yolov8/banner-integrations.png">
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YOLOv8 **predict mode** can generate predictions for various tasks, returning either a list of `Results` objects or a
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memory-efficient generator of `Results` objects when using the streaming mode. Enable streaming mode by
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passing `stream=True` in the predictor's call method.
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!!! example "Predict"
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=== "Return a list with `Stream=False`"
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```python
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inputs = [img, img] # list of numpy arrays
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results = model(inputs) # list of Results objects
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for result in results:
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boxes = result.boxes # Boxes object for bbox outputs
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masks = result.masks # Masks object for segmentation masks outputs
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probs = result.probs # Class probabilities for classification outputs
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```
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=== "Return a generator with `Stream=True`"
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```python
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inputs = [img, img] # list of numpy arrays
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results = model(inputs, stream=True) # generator of Results objects
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for result in results:
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boxes = result.boxes # Boxes object for bbox outputs
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masks = result.masks # Masks object for segmentation masks outputs
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probs = result.probs # Class probabilities for classification outputs
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```
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!!! tip "Tip"
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Streaming mode with `stream=True` should be used for long videos or large predict sources, otherwise results will accumuate in memory and will eventually cause out-of-memory errors.
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## Sources
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YOLOv8 can accept various input sources, as shown in the table below. This includes images, URLs, PIL images, OpenCV,
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numpy arrays, torch tensors, CSV files, videos, directories, globs, YouTube videos, and streams. The table indicates
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whether each source can be used in streaming mode with `stream=True` ✅ and an example argument for each source.
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| source | model(arg) | type | notes |
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|-------------|--------------------------------------------|----------------|------------------|
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| image | `'im.jpg'` | `str`, `Path` | |
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| URL | `'https://ultralytics.com/images/bus.jpg'` | `str` | |
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| screenshot | `'screen'` | `str` | |
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| PIL | `Image.open('im.jpg')` | `PIL.Image` | HWC, RGB |
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| OpenCV | `cv2.imread('im.jpg')[:,:,::-1]` | `np.ndarray` | HWC, BGR to RGB |
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| numpy | `np.zeros((640,1280,3))` | `np.ndarray` | HWC |
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| torch | `torch.zeros(16,3,320,640)` | `torch.Tensor` | BCHW, RGB |
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| CSV | `'sources.csv'` | `str`, `Path` | RTSP, RTMP, HTTP |
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| video ✅ | `'vid.mp4'` | `str`, `Path` | |
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| directory ✅ | `'path/'` | `str`, `Path` | |
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| glob ✅ | `'path/*.jpg'` | `str` | Use `*` operator |
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| YouTube ✅ | `'https://youtu.be/Zgi9g1ksQHc'` | `str` | |
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| stream ✅ | `'rtsp://example.com/media.mp4'` | `str` | RTSP, RTMP, HTTP |
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## Arguments
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`model.predict` accepts multiple arguments that control the predction operation. These arguments can be passed directly to `model.predict`:
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!!! example
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```
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model.predict(source, save=True, imgsz=320, conf=0.5)
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```
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All supported arguments:
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| Key | Value | Description |
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|------------------|------------------------|----------------------------------------------------------|
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| `source` | `'ultralytics/assets'` | source directory for images or videos |
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| `conf` | `0.25` | object confidence threshold for detection |
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| `iou` | `0.7` | intersection over union (IoU) threshold for NMS |
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| `half` | `False` | use half precision (FP16) |
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| `device` | `None` | device to run on, i.e. cuda device=0/1/2/3 or device=cpu |
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| `show` | `False` | show results if possible |
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| `save` | `False` | save images with results |
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| `save_txt` | `False` | save results as .txt file |
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| `save_conf` | `False` | save results with confidence scores |
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| `save_crop` | `False` | save cropped images with results |
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| `hide_labels` | `False` | hide labels |
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| `hide_conf` | `False` | hide confidence scores |
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| `max_det` | `300` | maximum number of detections per image |
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| `vid_stride` | `False` | video frame-rate stride |
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| `line_thickness` | `3` | bounding box thickness (pixels) |
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| `visualize` | `False` | visualize model features |
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| `augment` | `False` | apply image augmentation to prediction sources |
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| `agnostic_nms` | `False` | class-agnostic NMS |
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| `retina_masks` | `False` | use high-resolution segmentation masks |
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| `classes` | `None` | filter results by class, i.e. class=0, or class=[0,2,3] |
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| `boxes` | `True` | Show boxes in segmentation predictions |
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## Image and Video Formats
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YOLOv8 supports various image and video formats, as specified
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in [yolo/data/utils.py](https://github.com/ultralytics/ultralytics/blob/main/ultralytics/yolo/data/utils.py). See the
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tables below for the valid suffixes and example predict commands.
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### Image Suffixes
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| Image Suffixes | Example Predict Command | Reference |
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|----------------|----------------------------------|-------------------------------------------------------------------------------|
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| .bmp | `yolo predict source=image.bmp` | [Microsoft BMP File Format](https://en.wikipedia.org/wiki/BMP_file_format) |
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| .dng | `yolo predict source=image.dng` | [Adobe DNG](https://www.adobe.com/products/photoshop/extend.displayTab2.html) |
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| .jpeg | `yolo predict source=image.jpeg` | [JPEG](https://en.wikipedia.org/wiki/JPEG) |
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| .jpg | `yolo predict source=image.jpg` | [JPEG](https://en.wikipedia.org/wiki/JPEG) |
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| .mpo | `yolo predict source=image.mpo` | [Multi Picture Object](https://fileinfo.com/extension/mpo) |
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| .png | `yolo predict source=image.png` | [Portable Network Graphics](https://en.wikipedia.org/wiki/PNG) |
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| .tif | `yolo predict source=image.tif` | [Tag Image File Format](https://en.wikipedia.org/wiki/TIFF) |
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| .tiff | `yolo predict source=image.tiff` | [Tag Image File Format](https://en.wikipedia.org/wiki/TIFF) |
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| .webp | `yolo predict source=image.webp` | [WebP](https://en.wikipedia.org/wiki/WebP) |
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| .pfm | `yolo predict source=image.pfm` | [Portable FloatMap](https://en.wikipedia.org/wiki/Netpbm#File_formats) |
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### Video Suffixes
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| Video Suffixes | Example Predict Command | Reference |
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|----------------|----------------------------------|----------------------------------------------------------------------------------|
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| .asf | `yolo predict source=video.asf` | [Advanced Systems Format](https://en.wikipedia.org/wiki/Advanced_Systems_Format) |
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| .avi | `yolo predict source=video.avi` | [Audio Video Interleave](https://en.wikipedia.org/wiki/Audio_Video_Interleave) |
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| .gif | `yolo predict source=video.gif` | [Graphics Interchange Format](https://en.wikipedia.org/wiki/GIF) |
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| .m4v | `yolo predict source=video.m4v` | [MPEG-4 Part 14](https://en.wikipedia.org/wiki/M4V) |
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| .mkv | `yolo predict source=video.mkv` | [Matroska](https://en.wikipedia.org/wiki/Matroska) |
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| .mov | `yolo predict source=video.mov` | [QuickTime File Format](https://en.wikipedia.org/wiki/QuickTime_File_Format) |
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| .mp4 | `yolo predict source=video.mp4` | [MPEG-4 Part 14 - Wikipedia](https://en.wikipedia.org/wiki/MPEG-4_Part_14) |
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| .mpeg | `yolo predict source=video.mpeg` | [MPEG-1 Part 2](https://en.wikipedia.org/wiki/MPEG-1) |
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| .mpg | `yolo predict source=video.mpg` | [MPEG-1 Part 2](https://en.wikipedia.org/wiki/MPEG-1) |
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| .ts | `yolo predict source=video.ts` | [MPEG Transport Stream](https://en.wikipedia.org/wiki/MPEG_transport_stream) |
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| .wmv | `yolo predict source=video.wmv` | [Windows Media Video](https://en.wikipedia.org/wiki/Windows_Media_Video) |
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| .webm | `yolo predict source=video.webm` | [WebM Project](https://en.wikipedia.org/wiki/WebM) |
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## Working with Results
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The `Results` object contains the following components:
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- `Results.boxes`: `Boxes` object with properties and methods for manipulating bounding boxes
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- `Results.masks`: `Masks` object for indexing masks or getting segment coordinates
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- `Results.probs`: `torch.Tensor` containing class probabilities or logits
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- `Results.orig_img`: Original image loaded in memory
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- `Results.path`: `Path` containing the path to the input image
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Each result is composed of a `torch.Tensor` by default, which allows for easy manipulation:
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!!! example "Results"
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```python
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results = results.cuda()
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results = results.cpu()
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results = results.to('cpu')
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results = results.numpy()
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```
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### Boxes
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`Boxes` object can be used to index, manipulate, and convert bounding boxes to different formats. Box format conversion
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operations are cached, meaning they're only calculated once per object, and those values are reused for future calls.
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- Indexing a `Boxes` object returns a `Boxes` object:
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!!! example "Boxes"
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```python
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results = model(img)
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boxes = results[0].boxes
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box = boxes[0] # returns one box
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box.xyxy
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```
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- Properties and conversions
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!!! example "Boxes Properties"
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```python
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boxes.xyxy # box with xyxy format, (N, 4)
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boxes.xywh # box with xywh format, (N, 4)
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boxes.xyxyn # box with xyxy format but normalized, (N, 4)
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boxes.xywhn # box with xywh format but normalized, (N, 4)
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boxes.conf # confidence score, (N, 1)
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boxes.cls # cls, (N, 1)
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boxes.data # raw bboxes tensor, (N, 6) or boxes.boxes
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```
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### Masks
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`Masks` object can be used index, manipulate and convert masks to segments. The segment conversion operation is cached.
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!!! example "Masks"
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```python
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results = model(inputs)
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masks = results[0].masks # Masks object
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masks.xy # x, y segments (pixels), List[segment] * N
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masks.xyn # x, y segments (normalized), List[segment] * N
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masks.data # raw masks tensor, (N, H, W) or masks.masks
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```
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### probs
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`probs` attribute of `Results` class is a `Tensor` containing class probabilities of a classification operation.
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!!! example "Probs"
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```python
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results = model(inputs)
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results[0].probs # cls prob, (num_class, )
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```
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Class reference documentation for `Results` module and its components can be found [here](../reference/results.md)
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## Plotting results
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You can use `plot()` function of `Result` object to plot results on in image object. It plots all components(boxes,
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masks, classification logits, etc.) found in the results object
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!!! example "Plotting"
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```python
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res = model(img)
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res_plotted = res[0].plot()
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cv2.imshow("result", res_plotted)
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```
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| Argument | Description |
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| ----------- | ------------- |
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| `conf (bool)` | Whether to plot the detection confidence score. |
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| `line_width (float, optional)` | The line width of the bounding boxes. If None, it is scaled to the image size. |
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| `font_size (float, optional)` | The font size of the text. If None, it is scaled to the image size. |
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| `font (str)` | The font to use for the text. |
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| `pil (bool)` | Whether to return the image as a PIL Image. |
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| `example (str)` | An example string to display. Useful for indicating the expected format of the output. |
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| `img (numpy.ndarray)` | Plot to another image. if not, plot to original image. |
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| `labels (bool)` | Whether to plot the label of bounding boxes. |
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| `boxes (bool)` | Whether to plot the bounding boxes. |
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| `masks (bool)` | Whether to plot the masks. |
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| `probs (bool)` | Whether to plot classification probability. |
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## Streaming Source `for`-loop
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Here's a Python script using OpenCV (cv2) and YOLOv8 to run inference on video frames. This script assumes you have already installed the necessary packages (opencv-python and ultralytics).
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!!! example "Streaming for-loop"
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```python
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import cv2
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from ultralytics import YOLO
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# Load the YOLOv8 model
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model = YOLO('yolov8n.pt')
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# Open the video file
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video_path = "path/to/your/video/file.mp4"
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cap = cv2.VideoCapture(video_path)
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# Loop through the video frames
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while cap.isOpened():
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# Read a frame from the video
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success, frame = cap.read()
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if success:
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# Run YOLOv8 inference on the frame
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results = model(frame)
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# Visualize the results on the frame
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annotated_frame = results[0].plot()
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# Display the annotated frame
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cv2.imshow("YOLOv8 Inference", annotated_frame)
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# Break the loop if 'q' is pressed
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if cv2.waitKey(1) & 0xFF == ord("q"):
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break
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else:
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# Break the loop if the end of the video is reached
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break
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# Release the video capture object and close the display window
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cap.release()
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cv2.destroyAllWindows()
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``` |