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269 lines
12 KiB
269 lines
12 KiB
# Ultralytics YOLO 🚀, AGPL-3.0 license
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import glob
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import math
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import os
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import random
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from copy import deepcopy
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from multiprocessing.pool import ThreadPool
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from pathlib import Path
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from typing import Optional
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import cv2
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import numpy as np
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import psutil
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from torch.utils.data import Dataset
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from tqdm import tqdm
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from ..utils import LOCAL_RANK, LOGGER, NUM_THREADS, TQDM_BAR_FORMAT
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from .utils import HELP_URL, IMG_FORMATS
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class BaseDataset(Dataset):
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"""
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Base dataset class for loading and processing image data.
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Args:
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img_path (str): Path to the folder containing images.
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imgsz (int, optional): Image size. Defaults to 640.
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cache (bool, optional): Cache images to RAM or disk during training. Defaults to False.
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augment (bool, optional): If True, data augmentation is applied. Defaults to True.
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hyp (dict, optional): Hyperparameters to apply data augmentation. Defaults to None.
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prefix (str, optional): Prefix to print in log messages. Defaults to ''.
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rect (bool, optional): If True, rectangular training is used. Defaults to False.
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batch_size (int, optional): Size of batches. Defaults to None.
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stride (int, optional): Stride. Defaults to 32.
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pad (float, optional): Padding. Defaults to 0.0.
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single_cls (bool, optional): If True, single class training is used. Defaults to False.
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classes (list): List of included classes. Default is None.
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Attributes:
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im_files (list): List of image file paths.
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labels (list): List of label data dictionaries.
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ni (int): Number of images in the dataset.
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ims (list): List of loaded images.
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npy_files (list): List of numpy file paths.
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transforms (callable): Image transformation function.
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"""
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def __init__(self,
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img_path,
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imgsz=640,
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cache=False,
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augment=True,
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hyp=None,
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prefix='',
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rect=False,
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batch_size=None,
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stride=32,
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pad=0.5,
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single_cls=False,
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classes=None):
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super().__init__()
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self.img_path = img_path
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self.imgsz = imgsz
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self.augment = augment
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self.single_cls = single_cls
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self.prefix = prefix
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self.im_files = self.get_img_files(self.img_path)
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self.labels = self.get_labels()
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self.update_labels(include_class=classes) # single_cls and include_class
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self.ni = len(self.labels) # number of images
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self.rect = rect
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self.batch_size = batch_size
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self.stride = stride
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self.pad = pad
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if self.rect:
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assert self.batch_size is not None
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self.set_rectangle()
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# Cache stuff
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if cache == 'ram' and not self.check_cache_ram():
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cache = False
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self.ims = [None] * self.ni
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self.npy_files = [Path(f).with_suffix('.npy') for f in self.im_files]
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if cache:
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self.cache_images(cache)
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# Transforms
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self.transforms = self.build_transforms(hyp=hyp)
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def get_img_files(self, img_path):
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"""Read image files."""
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try:
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f = [] # image files
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for p in img_path if isinstance(img_path, list) else [img_path]:
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p = Path(p) # os-agnostic
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if p.is_dir(): # dir
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f += glob.glob(str(p / '**' / '*.*'), recursive=True)
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# F = list(p.rglob('*.*')) # pathlib
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elif p.is_file(): # file
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with open(p) as t:
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t = t.read().strip().splitlines()
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parent = str(p.parent) + os.sep
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f += [x.replace('./', parent) if x.startswith('./') else x for x in t] # local to global path
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# F += [p.parent / x.lstrip(os.sep) for x in t] # local to global path (pathlib)
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else:
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raise FileNotFoundError(f'{self.prefix}{p} does not exist')
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im_files = sorted(x.replace('/', os.sep) for x in f if x.split('.')[-1].lower() in IMG_FORMATS)
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# self.img_files = sorted([x for x in f if x.suffix[1:].lower() in IMG_FORMATS]) # pathlib
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assert im_files, f'{self.prefix}No images found'
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except Exception as e:
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raise FileNotFoundError(f'{self.prefix}Error loading data from {img_path}\n{HELP_URL}') from e
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return im_files
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def update_labels(self, include_class: Optional[list]):
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"""include_class, filter labels to include only these classes (optional)."""
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include_class_array = np.array(include_class).reshape(1, -1)
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for i in range(len(self.labels)):
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if include_class is not None:
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cls = self.labels[i]['cls']
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bboxes = self.labels[i]['bboxes']
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segments = self.labels[i]['segments']
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keypoints = self.labels[i]['keypoints']
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j = (cls == include_class_array).any(1)
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self.labels[i]['cls'] = cls[j]
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self.labels[i]['bboxes'] = bboxes[j]
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if segments:
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self.labels[i]['segments'] = [segments[si] for si, idx in enumerate(j) if idx]
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if keypoints is not None:
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self.labels[i]['keypoints'] = keypoints[j]
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if self.single_cls:
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self.labels[i]['cls'][:, 0] = 0
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def load_image(self, i):
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"""Loads 1 image from dataset index 'i', returns (im, resized hw)."""
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im, f, fn = self.ims[i], self.im_files[i], self.npy_files[i]
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if im is None: # not cached in RAM
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if fn.exists(): # load npy
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im = np.load(fn)
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else: # read image
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im = cv2.imread(f) # BGR
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if im is None:
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raise FileNotFoundError(f'Image Not Found {f}')
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h0, w0 = im.shape[:2] # orig hw
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r = self.imgsz / max(h0, w0) # ratio
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if r != 1: # if sizes are not equal
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interp = cv2.INTER_LINEAR if (self.augment or r > 1) else cv2.INTER_AREA
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im = cv2.resize(im, (math.ceil(w0 * r), math.ceil(h0 * r)), interpolation=interp)
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return im, (h0, w0), im.shape[:2] # im, hw_original, hw_resized
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return self.ims[i], self.im_hw0[i], self.im_hw[i] # im, hw_original, hw_resized
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def cache_images(self, cache):
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"""Cache images to memory or disk."""
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b, gb = 0, 1 << 30 # bytes of cached images, bytes per gigabytes
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self.im_hw0, self.im_hw = [None] * self.ni, [None] * self.ni
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fcn = self.cache_images_to_disk if cache == 'disk' else self.load_image
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with ThreadPool(NUM_THREADS) as pool:
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results = pool.imap(fcn, range(self.ni))
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pbar = tqdm(enumerate(results), total=self.ni, bar_format=TQDM_BAR_FORMAT, disable=LOCAL_RANK > 0)
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for i, x in pbar:
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if cache == 'disk':
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b += self.npy_files[i].stat().st_size
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else: # 'ram'
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self.ims[i], self.im_hw0[i], self.im_hw[i] = x # im, hw_orig, hw_resized = load_image(self, i)
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b += self.ims[i].nbytes
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pbar.desc = f'{self.prefix}Caching images ({b / gb:.1f}GB {cache})'
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pbar.close()
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def cache_images_to_disk(self, i):
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"""Saves an image as an *.npy file for faster loading."""
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f = self.npy_files[i]
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if not f.exists():
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np.save(f.as_posix(), cv2.imread(self.im_files[i]))
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def check_cache_ram(self, safety_margin=0.5):
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"""Check image caching requirements vs available memory."""
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b, gb = 0, 1 << 30 # bytes of cached images, bytes per gigabytes
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n = min(self.ni, 30) # extrapolate from 30 random images
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for _ in range(n):
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im = cv2.imread(random.choice(self.im_files)) # sample image
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ratio = self.imgsz / max(im.shape[0], im.shape[1]) # max(h, w) # ratio
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b += im.nbytes * ratio ** 2
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mem_required = b * self.ni / n * (1 + safety_margin) # GB required to cache dataset into RAM
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mem = psutil.virtual_memory()
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cache = mem_required < mem.available # to cache or not to cache, that is the question
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if not cache:
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LOGGER.info(f'{self.prefix}{mem_required / gb:.1f}GB RAM required to cache images '
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f'with {int(safety_margin * 100)}% safety margin but only '
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f'{mem.available / gb:.1f}/{mem.total / gb:.1f}GB available, '
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f"{'caching images ✅' if cache else 'not caching images ⚠️'}")
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return cache
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def set_rectangle(self):
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"""Sets the shape of bounding boxes for YOLO detections as rectangles."""
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bi = np.floor(np.arange(self.ni) / self.batch_size).astype(int) # batch index
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nb = bi[-1] + 1 # number of batches
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s = np.array([x.pop('shape') for x in self.labels]) # hw
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ar = s[:, 0] / s[:, 1] # aspect ratio
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irect = ar.argsort()
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self.im_files = [self.im_files[i] for i in irect]
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self.labels = [self.labels[i] for i in irect]
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ar = ar[irect]
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# Set training image shapes
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shapes = [[1, 1]] * nb
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for i in range(nb):
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ari = ar[bi == i]
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mini, maxi = ari.min(), ari.max()
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if maxi < 1:
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shapes[i] = [maxi, 1]
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elif mini > 1:
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shapes[i] = [1, 1 / mini]
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self.batch_shapes = np.ceil(np.array(shapes) * self.imgsz / self.stride + self.pad).astype(int) * self.stride
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self.batch = bi # batch index of image
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def __getitem__(self, index):
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"""Returns transformed label information for given index."""
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return self.transforms(self.get_label_info(index))
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def get_label_info(self, index):
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"""Get and return label information from the dataset."""
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label = deepcopy(self.labels[index]) # requires deepcopy() https://github.com/ultralytics/ultralytics/pull/1948
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label.pop('shape', None) # shape is for rect, remove it
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label['img'], label['ori_shape'], label['resized_shape'] = self.load_image(index)
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label['ratio_pad'] = (label['resized_shape'][0] / label['ori_shape'][0],
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label['resized_shape'][1] / label['ori_shape'][1]) # for evaluation
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if self.rect:
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label['rect_shape'] = self.batch_shapes[self.batch[index]]
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label = self.update_labels_info(label)
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return label
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def __len__(self):
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"""Returns the length of the labels list for the dataset."""
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return len(self.labels)
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def update_labels_info(self, label):
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"""custom your label format here."""
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return label
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def build_transforms(self, hyp=None):
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"""Users can custom augmentations here
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like:
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if self.augment:
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# Training transforms
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return Compose([])
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else:
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# Val transforms
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return Compose([])
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"""
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raise NotImplementedError
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def get_labels(self):
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"""Users can custom their own format here.
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Make sure your output is a list with each element like below:
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dict(
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im_file=im_file,
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shape=shape, # format: (height, width)
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cls=cls,
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bboxes=bboxes, # xywh
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segments=segments, # xy
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keypoints=keypoints, # xy
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normalized=True, # or False
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bbox_format="xyxy", # or xywh, ltwh
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)
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"""
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raise NotImplementedError
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