import cv2 import roop.globals import pyvirtualcam import threading import time cam_active = False cam_thread = None vcam = None def virtualcamera(cam_num): from roop.core import live_swap global cam_active time.sleep(2) print('Starting capture') cap = cv2.VideoCapture(cam_num, cv2.CAP_DSHOW) if not cap.isOpened(): print("Cannot open camera") cap.release() del cap return pref_width = 1280 pref_height = 720 pref_fps_in = 30 cap.set(cv2.CAP_PROP_FRAME_WIDTH, pref_width) cap.set(cv2.CAP_PROP_FRAME_HEIGHT, pref_height) cap.set(cv2.CAP_PROP_FPS, pref_fps_in) print('Starting VCAM') cam_active = True # native format UYVY with pyvirtualcam.Camera(width=pref_width, height=pref_height, fps=pref_fps_in, fmt=pyvirtualcam.PixelFormat.BGR, print_fps=True) as cam: print(f'Using virtual camera: {cam.device}') print(f'Using {cam.native_fmt}') # RGB while cam_active: ret, frame = cap.read() if not ret: break if len(roop.globals.INPUT_FACESETS) > 0: frame = live_swap(frame, "all", False, None) cam.send(frame) else: cam.send(frame) cam.sleep_until_next_frame() cap.release() print('End cam') def start_virtual_cam(cam_number): global cam_thread, cam_active if not cam_active: cam_thread = threading.Thread(target=virtualcamera, args=[cam_number]) cam_thread.start() def stop_virtual_cam(): global cam_active cam_active = False