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# Ultralytics YOLO 🚀, GPL-3.0 license
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"""
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Ultralytics Results, Boxes and Masks classes for handling inference results
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Usage: See https://docs.ultralytics.com/modes/predict/
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"""
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from copy import deepcopy
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from functools import lru_cache
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import numpy as np
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import torch
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import torchvision.transforms.functional as F
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from ultralytics.yolo.utils import LOGGER, SimpleClass, ops
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from ultralytics.yolo.utils.plotting import Annotator, colors
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from ultralytics.yolo.utils.torch_utils import TORCHVISION_0_10
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class Results(SimpleClass):
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"""
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A class for storing and manipulating inference results.
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Args:
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orig_img (numpy.ndarray): The original image as a numpy array.
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path (str): The path to the image file.
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names (List[str]): A list of class names.
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boxes (List[List[float]], optional): A list of bounding box coordinates for each detection.
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masks (numpy.ndarray, optional): A 3D numpy array of detection masks, where each mask is a binary image.
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probs (numpy.ndarray, optional): A 2D numpy array of detection probabilities for each class.
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Attributes:
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orig_img (numpy.ndarray): The original image as a numpy array.
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orig_shape (tuple): The original image shape in (height, width) format.
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boxes (Boxes, optional): A Boxes object containing the detection bounding boxes.
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masks (Masks, optional): A Masks object containing the detection masks.
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probs (numpy.ndarray, optional): A 2D numpy array of detection probabilities for each class.
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names (List[str]): A list of class names.
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path (str): The path to the image file.
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_keys (tuple): A tuple of attribute names for non-empty attributes.
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"""
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def __init__(self, orig_img, path, names, boxes=None, masks=None, probs=None) -> None:
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self.orig_img = orig_img
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self.orig_shape = orig_img.shape[:2]
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self.boxes = Boxes(boxes, self.orig_shape) if boxes is not None else None # native size boxes
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self.masks = Masks(masks, self.orig_shape) if masks is not None else None # native size or imgsz masks
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self.probs = probs if probs is not None else None
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self.names = names
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self.path = path
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self._keys = ('boxes', 'masks', 'probs')
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def pandas(self):
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pass
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# TODO masks.pandas + boxes.pandas + cls.pandas
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def __getitem__(self, idx):
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r = Results(orig_img=self.orig_img, path=self.path, names=self.names)
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for k in self.keys:
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setattr(r, k, getattr(self, k)[idx])
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return r
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def update(self, boxes=None, masks=None, probs=None):
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if boxes is not None:
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self.boxes = Boxes(boxes, self.orig_shape)
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if masks is not None:
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self.masks = Masks(masks, self.orig_shape)
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if boxes is not None:
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self.probs = probs
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def cpu(self):
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r = Results(orig_img=self.orig_img, path=self.path, names=self.names)
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for k in self.keys:
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setattr(r, k, getattr(self, k).cpu())
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return r
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def numpy(self):
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r = Results(orig_img=self.orig_img, path=self.path, names=self.names)
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for k in self.keys:
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setattr(r, k, getattr(self, k).numpy())
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return r
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def cuda(self):
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r = Results(orig_img=self.orig_img, path=self.path, names=self.names)
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for k in self.keys:
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setattr(r, k, getattr(self, k).cuda())
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return r
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def to(self, *args, **kwargs):
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r = Results(orig_img=self.orig_img, path=self.path, names=self.names)
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for k in self.keys:
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setattr(r, k, getattr(self, k).to(*args, **kwargs))
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return r
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def __len__(self):
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for k in self.keys:
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return len(getattr(self, k))
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@property
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def keys(self):
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return [k for k in self._keys if getattr(self, k) is not None]
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def plot(self, show_conf=True, line_width=None, font_size=None, font='Arial.ttf', pil=False, example='abc'):
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"""
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Plots the detection results on an input RGB image. Accepts a numpy array (cv2) or a PIL Image.
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Args:
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show_conf (bool): Whether to show 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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Returns:
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(None) or (PIL.Image): If `pil` is True, a PIL Image is returned. Otherwise, nothing is returned.
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"""
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annotator = Annotator(deepcopy(self.orig_img), line_width, font_size, font, pil, example)
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boxes = self.boxes
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masks = self.masks
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probs = self.probs
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names = self.names
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hide_labels, hide_conf = False, not show_conf
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if boxes is not None:
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for d in reversed(boxes):
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c, conf, id = int(d.cls), float(d.conf), None if d.id is None else int(d.id.item())
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name = ('' if id is None else f'id:{id} ') + names[c]
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label = None if hide_labels else (name if hide_conf else f'{name} {conf:.2f}')
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annotator.box_label(d.xyxy.squeeze(), label, color=colors(c, True))
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if masks is not None:
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im = torch.as_tensor(annotator.im, dtype=torch.float16, device=masks.data.device).permute(2, 0, 1).flip(0)
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if TORCHVISION_0_10:
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im = F.resize(im.contiguous(), masks.data.shape[1:], antialias=True) / 255
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else:
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im = F.resize(im.contiguous(), masks.data.shape[1:]) / 255
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annotator.masks(masks.data, colors=[colors(x, True) for x in boxes.cls], im_gpu=im)
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if probs is not None:
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n5 = min(len(names), 5)
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top5i = probs.argsort(0, descending=True)[:n5].tolist() # top 5 indices
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text = f"{', '.join(f'{names[j] if names else j} {probs[j]:.2f}' for j in top5i)}, "
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annotator.text((32, 32), text, txt_color=(255, 255, 255)) # TODO: allow setting colors
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return np.asarray(annotator.im) if annotator.pil else annotator.im
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class Boxes(SimpleClass):
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"""
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A class for storing and manipulating detection boxes.
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Args:
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boxes (torch.Tensor) or (numpy.ndarray): A tensor or numpy array containing the detection boxes,
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with shape (num_boxes, 6). The last two columns should contain confidence and class values.
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orig_shape (tuple): Original image size, in the format (height, width).
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Attributes:
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boxes (torch.Tensor) or (numpy.ndarray): A tensor or numpy array containing the detection boxes,
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with shape (num_boxes, 6).
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orig_shape (torch.Tensor) or (numpy.ndarray): Original image size, in the format (height, width).
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is_track (bool): True if the boxes also include track IDs, False otherwise.
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Properties:
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xyxy (torch.Tensor) or (numpy.ndarray): The boxes in xyxy format.
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conf (torch.Tensor) or (numpy.ndarray): The confidence values of the boxes.
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cls (torch.Tensor) or (numpy.ndarray): The class values of the boxes.
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id (torch.Tensor) or (numpy.ndarray): The track IDs of the boxes (if available).
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xywh (torch.Tensor) or (numpy.ndarray): The boxes in xywh format.
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xyxyn (torch.Tensor) or (numpy.ndarray): The boxes in xyxy format normalized by original image size.
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xywhn (torch.Tensor) or (numpy.ndarray): The boxes in xywh format normalized by original image size.
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data (torch.Tensor): The raw bboxes tensor
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Methods:
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cpu(): Move the object to CPU memory.
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numpy(): Convert the object to a numpy array.
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cuda(): Move the object to CUDA memory.
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to(*args, **kwargs): Move the object to the specified device.
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pandas(): Convert the object to a pandas DataFrame (not yet implemented).
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"""
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def __init__(self, boxes, orig_shape) -> None:
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if boxes.ndim == 1:
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boxes = boxes[None, :]
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n = boxes.shape[-1]
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assert n in (6, 7), f'expected `n` in [6, 7], but got {n}' # xyxy, (track_id), conf, cls
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# TODO
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self.is_track = n == 7
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self.boxes = boxes
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self.orig_shape = torch.as_tensor(orig_shape, device=boxes.device) if isinstance(boxes, torch.Tensor) \
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else np.asarray(orig_shape)
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@property
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def xyxy(self):
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return self.boxes[:, :4]
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@property
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def conf(self):
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return self.boxes[:, -2]
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@property
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def cls(self):
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return self.boxes[:, -1]
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@property
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def id(self):
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return self.boxes[:, -3] if self.is_track else None
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@property
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@lru_cache(maxsize=2) # maxsize 1 should suffice
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def xywh(self):
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return ops.xyxy2xywh(self.xyxy)
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@property
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@lru_cache(maxsize=2)
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def xyxyn(self):
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return self.xyxy / self.orig_shape[[1, 0, 1, 0]]
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@property
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@lru_cache(maxsize=2)
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def xywhn(self):
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return self.xywh / self.orig_shape[[1, 0, 1, 0]]
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def cpu(self):
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return Boxes(self.boxes.cpu(), self.orig_shape)
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def numpy(self):
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return Boxes(self.boxes.numpy(), self.orig_shape)
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def cuda(self):
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return Boxes(self.boxes.cuda(), self.orig_shape)
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def to(self, *args, **kwargs):
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return Boxes(self.boxes.to(*args, **kwargs), self.orig_shape)
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def pandas(self):
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LOGGER.info('results.pandas() method not yet implemented')
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@property
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def shape(self):
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return self.boxes.shape
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@property
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def data(self):
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return self.boxes
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def __len__(self): # override len(results)
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return len(self.boxes)
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def __getitem__(self, idx):
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return Boxes(self.boxes[idx], self.orig_shape)
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class Masks(SimpleClass):
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"""
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A class for storing and manipulating detection masks.
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Args:
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masks (torch.Tensor): A tensor containing the detection masks, with shape (num_masks, height, width).
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orig_shape (tuple): Original image size, in the format (height, width).
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Attributes:
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masks (torch.Tensor): A tensor containing the detection masks, with shape (num_masks, height, width).
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orig_shape (tuple): Original image size, in the format (height, width).
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Properties:
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xy (list): A list of segments (pixels) which includes x, y segments of each detection.
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xyn (list): A list of segments (normalized) which includes x, y segments of each detection.
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Methods:
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cpu(): Returns a copy of the masks tensor on CPU memory.
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numpy(): Returns a copy of the masks tensor as a numpy array.
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cuda(): Returns a copy of the masks tensor on GPU memory.
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to(): Returns a copy of the masks tensor with the specified device and dtype.
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"""
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def __init__(self, masks, orig_shape) -> None:
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self.masks = masks # N, h, w
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self.orig_shape = orig_shape
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@property
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@lru_cache(maxsize=1)
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def segments(self):
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# Segments-deprecated (normalized)
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LOGGER.warning("WARNING ⚠️ 'Masks.segments' is deprecated. Use 'Masks.xyn' for segments (normalized) and "
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"'Masks.xy' for segments (pixels) instead.")
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return self.xyn
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@property
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@lru_cache(maxsize=1)
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def xyn(self):
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# Segments (normalized)
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return [
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ops.scale_segments(self.masks.shape[1:], x, self.orig_shape, normalize=True)
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for x in ops.masks2segments(self.masks)]
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@property
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@lru_cache(maxsize=1)
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def xy(self):
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# Segments (pixels)
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return [
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ops.scale_segments(self.masks.shape[1:], x, self.orig_shape, normalize=False)
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for x in ops.masks2segments(self.masks)]
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@property
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def shape(self):
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return self.masks.shape
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@property
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def data(self):
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return self.masks
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def cpu(self):
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return Masks(self.masks.cpu(), self.orig_shape)
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def numpy(self):
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return Masks(self.masks.numpy(), self.orig_shape)
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def cuda(self):
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return Masks(self.masks.cuda(), self.orig_shape)
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def to(self, *args, **kwargs):
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return Masks(self.masks.to(*args, **kwargs), self.orig_shape)
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def __len__(self): # override len(results)
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return len(self.masks)
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def __getitem__(self, idx):
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return Masks(self.masks[idx], self.orig_shape)
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