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# Ultralytics YOLO 🚀, AGPL-3.0 license
import glob
import math
import os
import time
from dataclasses import dataclass
from pathlib import Path
from threading import Thread
from urllib.parse import urlparse
import cv2
import numpy as np
import requests
import torch
from PIL import Image
from ultralytics.yolo.data.utils import IMG_FORMATS, VID_FORMATS
from ultralytics.yolo.utils import LOGGER, ROOT, is_colab, is_kaggle, ops
from ultralytics.yolo.utils.checks import check_requirements
@dataclass
class SourceTypes:
webcam: bool = False
screenshot: bool = False
from_img: bool = False
tensor: bool = False
class LoadStreams:
# YOLOv8 streamloader, i.e. `yolo predict source='rtsp://example.com/media.mp4' # RTSP, RTMP, HTTP streams`
def __init__(self, sources='file.streams', imgsz=640, vid_stride=1):
"""Initialize instance variables and check for consistent input stream shapes."""
torch.backends.cudnn.benchmark = True # faster for fixed-size inference
self.mode = 'stream'
self.imgsz = imgsz
self.vid_stride = vid_stride # video frame-rate stride
sources = Path(sources).read_text().rsplit() if os.path.isfile(sources) else [sources]
n = len(sources)
self.sources = [ops.clean_str(x) for x in sources] # clean source names for later
self.imgs, self.fps, self.frames, self.threads = [None] * n, [0] * n, [0] * n, [None] * n
for i, s in enumerate(sources): # index, source
# Start thread to read frames from video stream
st = f'{i + 1}/{n}: {s}... '
if urlparse(s).hostname in ('www.youtube.com', 'youtube.com', 'youtu.be'): # if source is YouTube video
# YouTube format i.e. 'https://www.youtube.com/watch?v=Zgi9g1ksQHc' or 'https://youtu.be/Zgi9g1ksQHc'
check_requirements(('pafy', 'youtube_dl==2020.12.2'))
import pafy # noqa
s = pafy.new(s).getbest(preftype='mp4').url # YouTube URL
s = eval(s) if s.isnumeric() else s # i.e. s = '0' local webcam
if s == 0 and (is_colab() or is_kaggle()):
raise NotImplementedError("'source=0' webcam not supported in Colab and Kaggle notebooks. "
"Try running 'source=0' in a local environment.")
cap = cv2.VideoCapture(s)
if not cap.isOpened():
raise ConnectionError(f'{st}Failed to open {s}')
w = int(cap.get(cv2.CAP_PROP_FRAME_WIDTH))
h = int(cap.get(cv2.CAP_PROP_FRAME_HEIGHT))
fps = cap.get(cv2.CAP_PROP_FPS) # warning: may return 0 or nan
self.frames[i] = max(int(cap.get(cv2.CAP_PROP_FRAME_COUNT)), 0) or float('inf') # infinite stream fallback
self.fps[i] = max((fps if math.isfinite(fps) else 0) % 100, 0) or 30 # 30 FPS fallback
success, self.imgs[i] = cap.read() # guarantee first frame
if not success or self.imgs[i] is None:
raise ConnectionError(f'{st}Failed to read images from {s}')
self.threads[i] = Thread(target=self.update, args=([i, cap, s]), daemon=True)
LOGGER.info(f'{st}Success ✅ ({self.frames[i]} frames of shape {w}x{h} at {self.fps[i]:.2f} FPS)')
self.threads[i].start()
LOGGER.info('') # newline
# Check for common shapes
self.bs = self.__len__()
if not self.rect:
LOGGER.warning('WARNING ⚠️ Stream shapes differ. For optimal performance supply similarly-shaped streams.')
def update(self, i, cap, stream):
"""Read stream `i` frames in daemon thread."""
n, f = 0, self.frames[i] # frame number, frame array
while cap.isOpened() and n < f:
n += 1
cap.grab() # .read() = .grab() followed by .retrieve()
if n % self.vid_stride == 0:
success, im = cap.retrieve()
if success:
self.imgs[i] = im
else:
LOGGER.warning('WARNING ⚠️ Video stream unresponsive, please check your IP camera connection.')
self.imgs[i] = np.zeros_like(self.imgs[i])
cap.open(stream) # re-open stream if signal was lost
time.sleep(0.0) # wait time
def __iter__(self):
"""Iterates through YOLO image feed and re-opens unresponsive streams."""
self.count = -1
return self
def __next__(self):
"""Returns source paths, transformed and original images for processing YOLOv5."""
self.count += 1
if not all(x.is_alive() for x in self.threads) or cv2.waitKey(1) == ord('q'): # q to quit
cv2.destroyAllWindows()
raise StopIteration
im0 = self.imgs.copy()
return self.sources, im0, None, ''
def __len__(self):
"""Return the length of the sources object."""
return len(self.sources) # 1E12 frames = 32 streams at 30 FPS for 30 years
class LoadScreenshots:
# YOLOv8 screenshot dataloader, i.e. `yolo predict source=screen`
def __init__(self, source, imgsz=640):
"""source = [screen_number left top width height] (pixels)."""
check_requirements('mss')
import mss # noqa
source, *params = source.split()
self.screen, left, top, width, height = 0, None, None, None, None # default to full screen 0
if len(params) == 1:
self.screen = int(params[0])
elif len(params) == 4:
left, top, width, height = (int(x) for x in params)
elif len(params) == 5:
self.screen, left, top, width, height = (int(x) for x in params)
self.imgsz = imgsz
self.mode = 'stream'
self.frame = 0
self.sct = mss.mss()
self.bs = 1
# Parse monitor shape
monitor = self.sct.monitors[self.screen]
self.top = monitor['top'] if top is None else (monitor['top'] + top)
self.left = monitor['left'] if left is None else (monitor['left'] + left)
self.width = width or monitor['width']
self.height = height or monitor['height']
self.monitor = {'left': self.left, 'top': self.top, 'width': self.width, 'height': self.height}
def __iter__(self):
"""Returns an iterator of the object."""
return self
def __next__(self):
"""mss screen capture: get raw pixels from the screen as np array."""
im0 = np.array(self.sct.grab(self.monitor))[:, :, :3] # [:, :, :3] BGRA to BGR
s = f'screen {self.screen} (LTWH): {self.left},{self.top},{self.width},{self.height}: '
self.frame += 1
return str(self.screen), im0, None, s # screen, img, original img, im0s, s
class LoadImages:
# YOLOv8 image/video dataloader, i.e. `yolo predict source=image.jpg/vid.mp4`
def __init__(self, path, imgsz=640, vid_stride=1):
"""Initialize the Dataloader and raise FileNotFoundError if file not found."""
if isinstance(path, str) and Path(path).suffix == '.txt': # *.txt file with img/vid/dir on each line
path = Path(path).read_text().rsplit()
files = []
for p in sorted(path) if isinstance(path, (list, tuple)) else [path]:
p = str(Path(p).resolve())
if '*' in p:
files.extend(sorted(glob.glob(p, recursive=True))) # glob
elif os.path.isdir(p):
files.extend(sorted(glob.glob(os.path.join(p, '*.*')))) # dir
elif os.path.isfile(p):
files.append(p) # files
else:
raise FileNotFoundError(f'{p} does not exist')
images = [x for x in files if x.split('.')[-1].lower() in IMG_FORMATS]
videos = [x for x in files if x.split('.')[-1].lower() in VID_FORMATS]
ni, nv = len(images), len(videos)
self.imgsz = imgsz
self.files = images + videos
self.nf = ni + nv # number of files
self.video_flag = [False] * ni + [True] * nv
self.mode = 'image'
self.vid_stride = vid_stride # video frame-rate stride
self.bs = 1
if any(videos):
self.orientation = None # rotation degrees
self._new_video(videos[0]) # new video
else:
self.cap = None
if self.nf == 0:
raise FileNotFoundError(f'No images or videos found in {p}. '
f'Supported formats are:\nimages: {IMG_FORMATS}\nvideos: {VID_FORMATS}')
def __iter__(self):
"""Returns an iterator object for VideoStream or ImageFolder."""
self.count = 0
return self
def __next__(self):
"""Return next image, path and metadata from dataset."""
if self.count == self.nf:
raise StopIteration
path = self.files[self.count]
if self.video_flag[self.count]:
# Read video
self.mode = 'video'
for _ in range(self.vid_stride):
self.cap.grab()
success, im0 = self.cap.retrieve()
while not success:
self.count += 1
self.cap.release()
if self.count == self.nf: # last video
raise StopIteration
path = self.files[self.count]
self._new_video(path)
success, im0 = self.cap.read()
self.frame += 1
# im0 = self._cv2_rotate(im0) # for use if cv2 autorotation is False
s = f'video {self.count + 1}/{self.nf} ({self.frame}/{self.frames}) {path}: '
else:
# Read image
self.count += 1
im0 = cv2.imread(path) # BGR
if im0 is None:
raise FileNotFoundError(f'Image Not Found {path}')
s = f'image {self.count}/{self.nf} {path}: '
return [path], [im0], self.cap, s
def _new_video(self, path):
"""Create a new video capture object."""
self.frame = 0
self.cap = cv2.VideoCapture(path)
self.frames = int(self.cap.get(cv2.CAP_PROP_FRAME_COUNT) / self.vid_stride)
if hasattr(cv2, 'CAP_PROP_ORIENTATION_META'): # cv2<4.6.0 compatibility
self.orientation = int(self.cap.get(cv2.CAP_PROP_ORIENTATION_META)) # rotation degrees
# Disable auto-orientation due to known issues in https://github.com/ultralytics/yolov5/issues/8493
# self.cap.set(cv2.CAP_PROP_ORIENTATION_AUTO, 0)
def _cv2_rotate(self, im):
"""Rotate a cv2 video manually."""
if self.orientation == 0:
return cv2.rotate(im, cv2.ROTATE_90_CLOCKWISE)
elif self.orientation == 180:
return cv2.rotate(im, cv2.ROTATE_90_COUNTERCLOCKWISE)
elif self.orientation == 90:
return cv2.rotate(im, cv2.ROTATE_180)
return im
def __len__(self):
"""Returns the number of files in the object."""
return self.nf # number of files
class LoadPilAndNumpy:
def __init__(self, im0, imgsz=640):
"""Initialize PIL and Numpy Dataloader."""
if not isinstance(im0, list):
im0 = [im0]
self.paths = [getattr(im, 'filename', f'image{i}.jpg') for i, im in enumerate(im0)]
self.im0 = [self._single_check(im) for im in im0]
self.imgsz = imgsz
self.mode = 'image'
# Generate fake paths
self.bs = len(self.im0)
@staticmethod
def _single_check(im):
"""Validate and format an image to numpy array."""
assert isinstance(im, (Image.Image, np.ndarray)), f'Expected PIL/np.ndarray image type, but got {type(im)}'
if isinstance(im, Image.Image):
if im.mode != 'RGB':
im = im.convert('RGB')
im = np.asarray(im)[:, :, ::-1]
im = np.ascontiguousarray(im) # contiguous
return im
def __len__(self):
"""Returns the length of the 'im0' attribute."""
return len(self.im0)
def __next__(self):
"""Returns batch paths, images, processed images, None, ''."""
if self.count == 1: # loop only once as it's batch inference
raise StopIteration
self.count += 1
return self.paths, self.im0, None, ''
def __iter__(self):
"""Enables iteration for class LoadPilAndNumpy."""
self.count = 0
return self
class LoadTensor:
def __init__(self, imgs) -> None:
self.im0 = imgs
self.bs = imgs.shape[0]
self.mode = 'image'
def __iter__(self):
"""Returns an iterator object."""
self.count = 0
return self
def __next__(self):
"""Return next item in the iterator."""
if self.count == 1:
raise StopIteration
self.count += 1
return None, self.im0, None, '' # self.paths, im, self.im0, None, ''
def __len__(self):
"""Returns the batch size."""
return self.bs
def autocast_list(source):
"""
Merges a list of source of different types into a list of numpy arrays or PIL images
"""
files = []
for im in source:
if isinstance(im, (str, Path)): # filename or uri
files.append(Image.open(requests.get(im, stream=True).raw if str(im).startswith('http') else im))
elif isinstance(im, (Image.Image, np.ndarray)): # PIL or np Image
files.append(im)
else:
raise TypeError(f'type {type(im).__name__} is not a supported Ultralytics prediction source type. \n'
f'See https://docs.ultralytics.com/modes/predict for supported source types.')
return files
LOADERS = [LoadStreams, LoadPilAndNumpy, LoadImages, LoadScreenshots]
if __name__ == '__main__':
img = cv2.imread(str(ROOT / 'assets/bus.jpg'))
dataset = LoadPilAndNumpy(im0=img)
for d in dataset:
print(d[0])