import os import platform import webbrowser import customtkinter as ctk from typing import Callable, Tuple, List, Any from types import ModuleType import cv2 from PIL import Image, ImageOps import pyvirtualcam # Import OS-specific modules only when necessary if platform.system() == 'Darwin': # macOS import AVFoundation # Import Windows specific modules only when on windows platform if platform.system() == 'Windows' or platform.system() == 'Linux': # Windows or Linux from pygrabber.dshow_graph import FilterGraph import modules.globals import modules.metadata from modules.face_analyser import get_one_face, get_unique_faces_from_target_image, get_unique_faces_from_target_video, add_blank_map, has_valid_map, simplify_maps from modules.capturer import get_video_frame, get_video_frame_total from modules.processors.frame.core import get_frame_processors_modules from modules.utilities import is_image, is_video, resolve_relative_path ROOT = None ROOT_HEIGHT = 800 ROOT_WIDTH = 600 PREVIEW = None PREVIEW_MAX_HEIGHT = 700 PREVIEW_MAX_WIDTH = 1200 PREVIEW_DEFAULT_WIDTH = 960 PREVIEW_DEFAULT_HEIGHT = 540 POPUP_WIDTH = 750 POPUP_HEIGHT = 810 POPUP_SCROLL_WIDTH = 740, POPUP_SCROLL_HEIGHT = 700 POPUP_LIVE_WIDTH = 900 POPUP_LIVE_HEIGHT = 820 POPUP_LIVE_SCROLL_WIDTH = 890, POPUP_LIVE_SCROLL_HEIGHT = 700 MAPPER_PREVIEW_MAX_HEIGHT = 100 MAPPER_PREVIEW_MAX_WIDTH = 100 DEFAULT_BUTTON_WIDTH = 200 DEFAULT_BUTTON_HEIGHT = 40 RECENT_DIRECTORY_SOURCE = None RECENT_DIRECTORY_TARGET = None RECENT_DIRECTORY_OUTPUT = None preview_label = None preview_slider = None source_label = None target_label = None status_label = None popup_status_label = None popup_status_label_live = None source_label_dict = {} source_label_dict_live = {} target_label_dict_live = {} img_ft, vid_ft = modules.globals.file_types camera = None def check_camera_permissions(): """Check and request camera access permission on macOS.""" if platform.system() == 'Darwin': # macOS-specific auth_status = AVFoundation.AVCaptureDevice.authorizationStatusForMediaType_(AVFoundation.AVMediaTypeVideo) if auth_status == AVFoundation.AVAuthorizationStatusNotDetermined: # Request access to the camera def completion_handler(granted): if granted: print("Access granted to the camera.") else: print("Access denied to the camera.") AVFoundation.AVCaptureDevice.requestAccessForMediaType_completionHandler_(AVFoundation.AVMediaTypeVideo, completion_handler) elif auth_status == AVFoundation.AVAuthorizationStatusAuthorized: print("Camera access already authorized.") elif auth_status == AVFoundation.AVAuthorizationStatusDenied: print("Camera access denied. Please enable it in System Preferences.") elif auth_status == AVFoundation.AVAuthorizationStatusRestricted: print("Camera access restricted. The app is not allowed to use the camera.") def select_camera(camera_name: str): """Select the appropriate camera based on its name (cross-platform).""" if platform.system() == 'Darwin': # macOS-specific devices = AVFoundation.AVCaptureDevice.devicesWithMediaType_(AVFoundation.AVMediaTypeVideo) for device in devices: if device.localizedName() == camera_name: return device elif platform.system() == 'Windows' or platform.system() == 'Linux': # On Windows/Linux, simply return the camera name as OpenCV can handle it by index return camera_name return None def init(start: Callable[[], None], destroy: Callable[[], None]) -> ctk.CTk: global ROOT, PREVIEW if platform.system() == 'Darwin': # macOS-specific check_camera_permissions() # Check camera permissions before initializing the UI ROOT = create_root(start, destroy) PREVIEW = create_preview(ROOT) return ROOT def create_root(start: Callable[[], None], destroy: Callable[[], None]) -> ctk.CTk: global source_label, target_label, status_label ctk.deactivate_automatic_dpi_awareness() ctk.set_appearance_mode('system') ctk.set_default_color_theme(resolve_relative_path('ui.json')) print("Creating root window...") root = ctk.CTk() root.minsize(ROOT_WIDTH, ROOT_HEIGHT) root.title(f'{modules.metadata.name} {modules.metadata.version} {modules.metadata.edition}') root.protocol('WM_DELETE_WINDOW', lambda: destroy()) source_label = ctk.CTkLabel(root, text=None) source_label.place(relx=0.1, rely=0.0875, relwidth=0.3, relheight=0.25) target_label = ctk.CTkLabel(root, text=None) target_label.place(relx=0.6, rely=0.0875, relwidth=0.3, relheight=0.25) source_button = ctk.CTkButton(root, text='Select a face', cursor='hand2', command=select_source_path) source_button.place(relx=0.1, rely=0.35, relwidth=0.3, relheight=0.1) swap_faces_button = ctk.CTkButton(root, text='↔', cursor='hand2', command=lambda: swap_faces_paths()) swap_faces_button.place(relx=0.45, rely=0.4, relwidth=0.1, relheight=0.1) target_button = ctk.CTkButton(root, text='Select a target', cursor='hand2', command=select_target_path) target_button.place(relx=0.6, rely=0.35, relwidth=0.3, relheight=0.1) keep_fps_value = ctk.BooleanVar(value=modules.globals.keep_fps) keep_fps_checkbox = ctk.CTkSwitch(root, text='Keep fps', variable=keep_fps_value, cursor='hand2', command=lambda: setattr(modules.globals, 'keep_fps', not modules.globals.keep_fps)) keep_fps_checkbox.place(relx=0.1, rely=0.525) keep_frames_value = ctk.BooleanVar(value=modules.globals.keep_frames) keep_frames_switch = ctk.CTkSwitch(root, text='Keep frames', variable=keep_frames_value, cursor='hand2', command=lambda: setattr(modules.globals, 'keep_frames', keep_frames_value.get())) keep_frames_switch.place(relx=0.1, rely=0.56875) enhancer_value = ctk.BooleanVar(value=modules.globals.fp_ui['face_enhancer']) enhancer_switch = ctk.CTkSwitch(root, text='Face Enhancer', variable=enhancer_value, cursor='hand2', command=lambda: update_tumbler('face_enhancer', enhancer_value.get())) enhancer_switch.place(relx=0.1, rely=0.6125) keep_audio_value = ctk.BooleanVar(value=modules.globals.keep_audio) keep_audio_switch = ctk.CTkSwitch(root, text='Keep audio', variable=keep_audio_value, cursor='hand2', command=lambda: setattr(modules.globals, 'keep_audio', keep_audio_value.get())) keep_audio_switch.place(relx=0.6, rely=0.525) many_faces_value = ctk.BooleanVar(value=modules.globals.many_faces) many_faces_switch = ctk.CTkSwitch(root, text='Many faces', variable=many_faces_value, cursor='hand2', command=lambda: setattr(modules.globals, 'many_faces', many_faces_value.get())) many_faces_switch.place(relx=0.6, rely=0.56875) nsfw_value = ctk.BooleanVar(value=modules.globals.nsfw) nsfw_switch = ctk.CTkSwitch(root, text='NSFW', variable=nsfw_value, cursor='hand2', command=lambda: setattr(modules.globals, 'nsfw', nsfw_value.get())) nsfw_switch.place(relx=0.6, rely=0.6125) map_faces = ctk.BooleanVar(value=modules.globals.map_faces) map_faces_switch = ctk.CTkSwitch(root, text='Map faces', variable=map_faces, cursor='hand2', command=lambda: setattr(modules.globals, 'map_faces', map_faces.get())) map_faces_switch.place(relx=0.1, rely=0.75) start_button = ctk.CTkButton(root, text='Start', cursor='hand2', command=lambda: analyze_target(start, root)) start_button.place(relx=0.15, rely=0.80, relwidth=0.2, relheight=0.05) stop_button = ctk.CTkButton(root, text='Destroy', cursor='hand2', command=destroy) stop_button.place(relx=0.4, rely=0.7, relwidth=0.2, relheight=0.05) preview_button = ctk.CTkButton(root, text='Preview', cursor='hand2', command=toggle_preview) preview_button.place(relx=0.65, rely=0.7, relwidth=0.2, relheight=0.05) live_button = ctk.CTkButton(root, text='Live', cursor='hand2', command=lambda: webcam_preview(root)) live_button.place(relx=0.40, rely=0.86, relwidth=0.2, relheight=0.05) status_label = ctk.CTkLabel(root, text=None, justify='center') status_label.place(relx=0.1, relwidth=0.8, rely=0.875) donate_label = ctk.CTkLabel(root, text='Deep Live Cam', justify='center', cursor='hand2') donate_label.place(relx=0.1, rely=0.95, relwidth=0.8) donate_label.configure(text_color=ctk.ThemeManager.theme.get('URL').get('text_color')) donate_label.bind('', lambda event: webbrowser.open('https://paypal.me/hacksider')) return root def analyze_target(start: Callable[[], None], root: ctk.CTk): if POPUP != None and POPUP.winfo_exists(): update_status("Please complete pop-up or close it.") return if modules.globals.map_faces: modules.globals.souce_target_map = [] if is_image(modules.globals.target_path): update_status('Getting unique faces') get_unique_faces_from_target_image() elif is_video(modules.globals.target_path): update_status('Getting unique faces') get_unique_faces_from_target_video() if len(modules.globals.souce_target_map) > 0: create_source_target_popup(start, root, modules.globals.souce_target_map) else: update_status("No faces found in target") else: select_output_path(start) def create_source_target_popup(start: Callable[[], None], root: ctk.CTk, map: list) -> None: global POPUP, popup_status_label POPUP = ctk.CTkToplevel(root) POPUP.title("Source x Target Mapper") POPUP.geometry(f"{POPUP_WIDTH}x{POPUP_HEIGHT}") POPUP.focus() def on_submit_click(start): if has_valid_map(): POPUP.destroy() select_output_path(start) else: update_pop_status("Atleast 1 source with target is required!") scrollable_frame = ctk.CTkScrollableFrame(POPUP, width=POPUP_SCROLL_WIDTH, height=POPUP_SCROLL_HEIGHT) scrollable_frame.grid(row=0, column=0, padx=0, pady=0, sticky='nsew') def on_button_click(map, button_num): map = update_popup_source(scrollable_frame, map, button_num) for item in map: id = item['id'] button = ctk.CTkButton(scrollable_frame, text="Select source image", command=lambda id=id: on_button_click(map, id), width=DEFAULT_BUTTON_WIDTH, height=DEFAULT_BUTTON_HEIGHT) button.grid(row=id, column=0, padx=50, pady=10) x_label = ctk.CTkLabel(scrollable_frame, text=f"X", width=MAPPER_PREVIEW_MAX_WIDTH, height=MAPPER_PREVIEW_MAX_HEIGHT) x_label.grid(row=id, column=2, padx=10, pady=10) image = Image.fromarray(cv2.cvtColor(item['target']['cv2'], cv2.COLOR_BGR2RGB)) image = image.resize((MAPPER_PREVIEW_MAX_WIDTH, MAPPER_PREVIEW_MAX_HEIGHT), Image.LANCZOS) tk_image = ctk.CTkImage(image, size=image.size) target_image = ctk.CTkLabel(scrollable_frame, text=f"T-{id}", width=MAPPER_PREVIEW_MAX_WIDTH, height=MAPPER_PREVIEW_MAX_HEIGHT) target_image.grid(row=id, column=3, padx=10, pady=10) target_image.configure(image=tk_image) popup_status_label = ctk.CTkLabel(POPUP, text=None, justify='center') popup_status_label.grid(row=1, column=0, pady=15) close_button = ctk.CTkButton(POPUP, text="Submit", command=lambda: on_submit_click(start)) close_button.grid(row=2, column=0, pady=10) def update_popup_source(scrollable_frame: ctk.CTkScrollableFrame, map: list, button_num: int) -> list: global source_label_dict source_path = ctk.filedialog.askopenfilename(title='select an source image', initialdir=RECENT_DIRECTORY_SOURCE, filetypes=[img_ft]) if "source" in map[button_num]: map[button_num].pop("source") source_label_dict[button_num].destroy() del source_label_dict[button_num] if source_path == "": return map else: cv2_img = cv2.imread(source_path) face = get_one_face(cv2_img) if face: x_min, y_min, x_max, y_max = face['bbox'] map[button_num]['source'] = { 'cv2' : cv2_img[int(y_min):int(y_max), int(x_min):int(x_max)], 'face' : face } image = Image.fromarray(cv2.cvtColor(map[button_num]['source']['cv2'], cv2.COLOR_BGR2RGB)) image = image.resize((MAPPER_PREVIEW_MAX_WIDTH, MAPPER_PREVIEW_MAX_HEIGHT), Image.LANCZOS) tk_image = ctk.CTkImage(image, size=image.size) source_image = ctk.CTkLabel(scrollable_frame, text=f"S-{button_num}", width=MAPPER_PREVIEW_MAX_WIDTH, height=MAPPER_PREVIEW_MAX_HEIGHT) source_image.grid(row=button_num, column=1, padx=10, pady=10) source_image.configure(image=tk_image) source_label_dict[button_num] = source_image else: update_pop_status("Face could not be detected in last upload!") return map def create_preview(parent: ctk.CTk) -> ctk.CTkToplevel: global preview_label, preview_slider preview = ctk.CTkToplevel(parent) preview.withdraw() preview.title('Preview') preview.protocol('WM_DELETE_WINDOW', toggle_preview) preview.resizable(width=True, height=True) preview_label = ctk.CTkLabel(preview, text=None) preview_label.pack(fill='both', expand=True) preview_slider = ctk.CTkSlider(preview, from_=0, to=0, command=update_preview) return preview def update_status(text: str) -> None: status_label.configure(text=text) ROOT.update() def update_pop_status(text: str) -> None: popup_status_label.configure(text=text) def update_pop_live_status(text: str) -> None: popup_status_label_live.configure(text=text) def update_tumbler(var: str, value: bool) -> None: modules.globals.fp_ui[var] = value def select_source_path() -> None: global RECENT_DIRECTORY_SOURCE PREVIEW.withdraw() source_path = ctk.filedialog.askopenfilename(title='Select a source image', initialdir=RECENT_DIRECTORY_SOURCE, filetypes=[img_ft]) if is_image(source_path): modules.globals.source_path = source_path RECENT_DIRECTORY_SOURCE = os.path.dirname(modules.globals.source_path) image = render_image_preview(modules.globals.source_path, (200, 200)) source_label.configure(image=image) else: modules.globals.source_path = None source_label.configure(image=None) def swap_faces_paths() -> None: global RECENT_DIRECTORY_SOURCE, RECENT_DIRECTORY_TARGET source_path = modules.globals.source_path target_path = modules.globals.target_path if not is_image(source_path) or not is_image(target_path): return modules.globals.source_path = target_path modules.globals.target_path = source_path RECENT_DIRECTORY_SOURCE = os.path.dirname(modules.globals.source_path) RECENT_DIRECTORY_TARGET = os.path.dirname(modules.globals.target_path) PREVIEW.withdraw() source_image = render_image_preview(modules.globals.source_path, (200, 200)) source_label.configure(image=source_image) target_image = render_image_preview(modules.globals.target_path, (200, 200)) target_label.configure(image=target_image) def select_target_path() -> None: global RECENT_DIRECTORY_TARGET PREVIEW.withdraw() target_path = ctk.filedialog.askopenfilename(title='Select a target image or video', initialdir=RECENT_DIRECTORY_TARGET, filetypes=[img_ft, vid_ft]) if is_image(target_path): modules.globals.target_path = target_path RECENT_DIRECTORY_TARGET = os.path.dirname(modules.globals.target_path) image = render_image_preview(modules.globals.target_path, (200, 200)) target_label.configure(image=image) elif is_video(target_path): modules.globals.target_path = target_path RECENT_DIRECTORY_TARGET = os.path.dirname(modules.globals.target_path) video_frame = render_video_preview(target_path, (200, 200)) target_label.configure(image=video_frame) else: modules.globals.target_path = None target_label.configure(image=None) def select_output_path(start: Callable[[], None]) -> None: global RECENT_DIRECTORY_OUTPUT if is_image(modules.globals.target_path): output_path = ctk.filedialog.asksaveasfilename(title='Save image output file', filetypes=[img_ft], defaultextension='.png', initialfile='output.png', initialdir=RECENT_DIRECTORY_OUTPUT) elif is_video(modules.globals.target_path): output_path = ctk.filedialog.asksaveasfilename(title='Save video output file', filetypes=[vid_ft], defaultextension='.mp4', initialfile='output.mp4', initialdir=RECENT_DIRECTORY_OUTPUT) else: output_path = None if output_path: modules.globals.output_path = output_path RECENT_DIRECTORY_OUTPUT = os.path.dirname(modules.globals.output_path) start() def render_image_preview(image_path: str, size: Tuple[int, int]) -> ctk.CTkImage: image = Image.open(image_path) if size: image = ImageOps.fit(image, size, Image.LANCZOS) return ctk.CTkImage(image, size=image.size) def render_video_preview(video_path: str, size: Tuple[int, int], frame_number: int = 0) -> ctk.CTkImage: capture = cv2.VideoCapture(video_path) if frame_number: capture.set(cv2.CAP_PROP_POS_FRAMES, frame_number) has_frame, frame = capture.read() capture.release() if has_frame: image = Image.fromarray(cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)) if size: image = ImageOps.fit(image, size, Image.LANCZOS) return ctk.CTkImage(image, size=image.size) return None def toggle_preview() -> None: if PREVIEW.state() == 'normal': PREVIEW.withdraw() elif modules.globals.source_path and modules.globals.target_path: init_preview() update_preview() PREVIEW.deiconify() global camera if PREVIEW.state() == 'withdrawn': if camera and camera.isOpened(): camera.release() camera = None def init_preview() -> None: if is_image(modules.globals.target_path): preview_slider.pack_forget() elif is_video(modules.globals.target_path): video_frame_total = get_video_frame_total(modules.globals.target_path) preview_slider.configure(to=video_frame_total) preview_slider.pack(fill='x') preview_slider.set(0) def update_preview(frame_number: int = 0) -> None: if modules.globals.source_path and modules.globals.target_path: temp_frame = get_video_frame(modules.globals.target_path, frame_number) if not modules.globals.nsfw: from modules.predicter import predict_frame if predict_frame(temp_frame): quit() for frame_processor in get_frame_processors_modules(modules.globals.frame_processors): temp_frame = frame_processor.process_frame( get_one_face(cv2.imread(modules.globals.source_path)), temp_frame ) image = Image.fromarray(cv2.cvtColor(temp_frame, cv2.COLOR_BGR2RGB)) image = ImageOps.contain(image, (PREVIEW_MAX_WIDTH, PREVIEW_MAX_HEIGHT), Image.LANCZOS) image = ctk.CTkImage(image, size=image.size) preview_label.configure(image=image) def webcam_preview_loop(camera: cv2.VideoCapture, source_image: Any, frame_processors: List[ModuleType], virtual_cam: pyvirtualcam.Camera = None) -> bool: global preview_label, PREVIEW ret, frame = camera.read() if not ret: update_status(f"Error: Frame not received from camera.") return False temp_frame = frame.copy() if modules.globals.live_mirror: temp_frame = cv2.flip(temp_frame, 1) # horizontal flipping if modules.globals.live_resizable: temp_frame = fit_image_to_size(temp_frame, PREVIEW.winfo_width(), PREVIEW.winfo_height()) for frame_processor in frame_processors: temp_frame = frame_processor.process_frame(source_image, temp_frame) image = Image.fromarray(cv2.cvtColor(temp_frame, cv2.COLOR_BGR2RGB)) image = ImageOps.contain(image, (temp_frame.shape[1], temp_frame.shape[0]), Image.LANCZOS) image = ctk.CTkImage(image, size=image.size) preview_label.configure(image=image) if virtual_cam: virtual_cam.send(temp_frame) virtual_cam.sleep_until_next_frame() ROOT.update() if PREVIEW.state() == 'withdrawn': return False return True def fit_image_to_size(image, width: int, height: int): if width is None and height is None: return image h, w, _ = image.shape ratio_h = 0.0 ratio_w = 0.0 if width > height: ratio_h = height / h else: ratio_w = width / w ratio = max(ratio_w, ratio_h) new_size = (int(ratio * w), int(ratio * h)) return cv2.resize(image, dsize=new_size) def render_image_preview(image_path: str, size: Tuple[int, int]) -> ctk.CTkImage: image = Image.open(image_path) if size: image = ImageOps.fit(image, size, Image.LANCZOS) return ctk.CTkImage(image, size=image.size) def render_video_preview(video_path: str, size: Tuple[int, int], frame_number: int = 0) -> ctk.CTkImage: capture = cv2.VideoCapture(video_path) if frame_number: capture.set(cv2.CAP_PROP_POS_FRAMES, frame_number) has_frame, frame = capture.read() if has_frame: image = Image.fromarray(cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)) if size: image = ImageOps.fit(image, size, Image.LANCZOS) return ctk.CTkImage(image, size=image.size) capture.release() cv2.destroyAllWindows() def toggle_preview() -> None: if PREVIEW.state() == 'normal': PREVIEW.withdraw() elif modules.globals.source_path and modules.globals.target_path: init_preview() update_preview() def init_preview() -> None: if is_image(modules.globals.target_path): preview_slider.pack_forget() if is_video(modules.globals.target_path): video_frame_total = get_video_frame_total(modules.globals.target_path) preview_slider.configure(to=video_frame_total) preview_slider.pack(fill='x') preview_slider.set(0) def update_preview(frame_number: int = 0) -> None: if modules.globals.source_path and modules.globals.target_path: update_status('Processing...') temp_frame = get_video_frame(modules.globals.target_path, frame_number) if modules.globals.nsfw_filter and check_and_ignore_nsfw(temp_frame): return for frame_processor in get_frame_processors_modules(modules.globals.frame_processors): temp_frame = frame_processor.process_frame( get_one_face(cv2.imread(modules.globals.source_path)), temp_frame ) image = Image.fromarray(cv2.cvtColor(temp_frame, cv2.COLOR_BGR2RGB)) image = ImageOps.contain(image, (PREVIEW_MAX_WIDTH, PREVIEW_MAX_HEIGHT), Image.LANCZOS) image = ctk.CTkImage(image, size=image.size) preview_label.configure(image=image) update_status('Processing succeed!') PREVIEW.deiconify() def webcam_preview(root: ctk.CTk): if not modules.globals.map_faces: if modules.globals.source_path is None: # No image selected return create_webcam_preview() else: modules.globals.souce_target_map = [] create_source_target_popup_for_webcam(root, modules.globals.souce_target_map) def create_webcam_preview(): global preview_label, PREVIEW WIDTH = 960 HEIGHT = 540 FPS = 60 # Select the camera by its name selected_camera = select_camera(camera_name) if selected_camera is None: update_status(f"No suitable camera found.") return # Use OpenCV's camera index for cross-platform compatibility camera_index = get_camera_index_by_name(camera_name) global camera camera = cv2.VideoCapture(camera_index) if not camera.isOpened(): update_status(f"Error: Could not open camera {camera_name}") return camera.set(cv2.CAP_PROP_FRAME_WIDTH, WIDTH) camera.set(cv2.CAP_PROP_FRAME_HEIGHT, HEIGHT) camera.set(cv2.CAP_PROP_FPS, FPS) PREVIEW_MAX_WIDTH = WIDTH PREVIEW_MAX_HEIGHT = HEIGHT preview_label.configure(width=PREVIEW_DEFAULT_WIDTH, height=PREVIEW_DEFAULT_HEIGHT) PREVIEW.deiconify() frame_processors = get_frame_processors_modules(modules.globals.frame_processors) source_image = get_one_face(cv2.imread(modules.globals.source_path)) preview_running = True if virtual_cam_output: with pyvirtualcam.Camera(width=WIDTH, height=HEIGHT, fps=FPS, fmt=pyvirtualcam.PixelFormat.BGR) as virtual_cam: while preview_running: preview_running = webcam_preview_loop(camera, source_image, frame_processors, virtual_cam) temp_frame = frame.copy() #Create a copy of the frame def get_camera_index_by_name(camera_name: str) -> int: """Map camera name to index for OpenCV.""" if platform.system() == 'Darwin': # macOS-specific if "FaceTime" in camera_name: return 0 # Assuming FaceTime is at index 0 elif "iPhone" in camera_name: return 1 # Assuming iPhone camera is at index 1 elif platform.system() == 'Windows' or platform.system() == 'Linux': # Map camera name to index dynamically (OpenCV on these platforms usually starts with 0) return get_available_cameras().index(camera_name) return -1 if not modules.globals.map_faces: # Select and save face image only once if source_image is None and modules.globals.source_path: source_image = get_one_face(cv2.imread(modules.globals.source_path)) for frame_processor in frame_processors: temp_frame = frame_processor.process_frame(source_image, temp_frame) else: modules.globals.target_path = None for frame_processor in frame_processors: temp_frame = frame_processor.process_frame_v2(temp_frame) def get_available_cameras(): """Get available camera names (cross-platform).""" available_cameras = [] if platform.system() == 'Darwin': # macOS-specific devices = AVFoundation.AVCaptureDevice.devicesWithMediaType_(AVFoundation.AVMediaTypeVideo) for device in devices: if device.deviceType() == AVFoundation.AVCaptureDeviceTypeBuiltInWideAngleCamera: print(f"Found Built-In Camera: {device.localizedName()}") available_cameras.append(device.localizedName()) elif device.deviceType() == "AVCaptureDeviceTypeExternal": print(f"Found External Camera: {device.localizedName()}") available_cameras.append(device.localizedName()) elif device.deviceType() == "AVCaptureDeviceTypeContinuityCamera": print(f"Skipping Continuity Camera: {device.localizedName()}") elif platform.system() == 'Windows' or platform.system() == 'Linux': try: devices = FilterGraph().get_input_devices() except Exception as e: # Use OpenCV to detect camera indexes index = 0 devices = [] while True: cap = cv2.VideoCapture(index) if not cap.isOpened(): break devices.append(f"Camera {index}") cap.release() index += 1 if PREVIEW.state() == 'withdrawn': break camera.release() PREVIEW.withdraw() # Close preview window when loop is finished def create_source_target_popup_for_webcam(root: ctk.CTk, map: list) -> None: global POPUP_LIVE, popup_status_label_live POPUP_LIVE = ctk.CTkToplevel(root) POPUP_LIVE.title("Source x Target Mapper") POPUP_LIVE.geometry(f"{POPUP_LIVE_WIDTH}x{POPUP_LIVE_HEIGHT}") POPUP_LIVE.focus() def on_submit_click(): if has_valid_map(): POPUP_LIVE.destroy() simplify_maps() create_webcam_preview() else: update_pop_live_status("Atleast 1 source with target is required!") def on_add_click(): add_blank_map() refresh_data(map) update_pop_live_status("Please provide mapping!") popup_status_label_live = ctk.CTkLabel(POPUP_LIVE, text=None, justify='center') popup_status_label_live.grid(row=1, column=0, pady=15) add_button = ctk.CTkButton(POPUP_LIVE, text="Add", command=lambda: on_add_click()) add_button.place(relx=0.2, rely=0.92, relwidth=0.2, relheight=0.05) close_button = ctk.CTkButton(POPUP_LIVE, text="Submit", command=lambda: on_submit_click()) close_button.place(relx=0.6, rely=0.92, relwidth=0.2, relheight=0.05) def refresh_data(map: list): global POPUP_LIVE scrollable_frame = ctk.CTkScrollableFrame(POPUP_LIVE, width=POPUP_LIVE_SCROLL_WIDTH, height=POPUP_LIVE_SCROLL_HEIGHT) scrollable_frame.grid(row=0, column=0, padx=0, pady=0, sticky='nsew') def on_sbutton_click(map, button_num): map = update_webcam_source(scrollable_frame, map, button_num) def on_tbutton_click(map, button_num): map = update_webcam_target(scrollable_frame, map, button_num) for item in map: id = item['id'] button = ctk.CTkButton(scrollable_frame, text="Select source image", command=lambda id=id: on_sbutton_click(map, id), width=DEFAULT_BUTTON_WIDTH, height=DEFAULT_BUTTON_HEIGHT) button.grid(row=id, column=0, padx=30, pady=10) x_label = ctk.CTkLabel(scrollable_frame, text=f"X", width=MAPPER_PREVIEW_MAX_WIDTH, height=MAPPER_PREVIEW_MAX_HEIGHT) x_label.grid(row=id, column=2, padx=10, pady=10) button = ctk.CTkButton(scrollable_frame, text="Select target image", command=lambda id=id: on_tbutton_click(map, id), width=DEFAULT_BUTTON_WIDTH, height=DEFAULT_BUTTON_HEIGHT) button.grid(row=id, column=3, padx=20, pady=10) if "source" in item: image = Image.fromarray(cv2.cvtColor(item['source']['cv2'], cv2.COLOR_BGR2RGB)) image = image.resize((MAPPER_PREVIEW_MAX_WIDTH, MAPPER_PREVIEW_MAX_HEIGHT), Image.LANCZOS) tk_image = ctk.CTkImage(image, size=image.size) source_image = ctk.CTkLabel(scrollable_frame, text=f"S-{id}", width=MAPPER_PREVIEW_MAX_WIDTH, height=MAPPER_PREVIEW_MAX_HEIGHT) source_image.grid(row=id, column=1, padx=10, pady=10) source_image.configure(image=tk_image) if "target" in item: image = Image.fromarray(cv2.cvtColor(item['target']['cv2'], cv2.COLOR_BGR2RGB)) image = image.resize((MAPPER_PREVIEW_MAX_WIDTH, MAPPER_PREVIEW_MAX_HEIGHT), Image.LANCZOS) tk_image = ctk.CTkImage(image, size=image.size) target_image = ctk.CTkLabel(scrollable_frame, text=f"T-{id}", width=MAPPER_PREVIEW_MAX_WIDTH, height=MAPPER_PREVIEW_MAX_HEIGHT) target_image.grid(row=id, column=4, padx=20, pady=10) target_image.configure(image=tk_image) def update_webcam_source(scrollable_frame: ctk.CTkScrollableFrame, map: list, button_num: int) -> list: global source_label_dict_live source_path = ctk.filedialog.askopenfilename(title='select an source image', initialdir=RECENT_DIRECTORY_SOURCE, filetypes=[img_ft]) if "source" in map[button_num]: map[button_num].pop("source") source_label_dict_live[button_num].destroy() del source_label_dict_live[button_num] if source_path == "": return map else: cv2_img = cv2.imread(source_path) face = get_one_face(cv2_img) if face: x_min, y_min, x_max, y_max = face['bbox'] map[button_num]['source'] = { 'cv2' : cv2_img[int(y_min):int(y_max), int(x_min):int(x_max)], 'face' : face } image = Image.fromarray(cv2.cvtColor(map[button_num]['source']['cv2'], cv2.COLOR_BGR2RGB)) image = image.resize((MAPPER_PREVIEW_MAX_WIDTH, MAPPER_PREVIEW_MAX_HEIGHT), Image.LANCZOS) tk_image = ctk.CTkImage(image, size=image.size) source_image = ctk.CTkLabel(scrollable_frame, text=f"S-{button_num}", width=MAPPER_PREVIEW_MAX_WIDTH, height=MAPPER_PREVIEW_MAX_HEIGHT) source_image.grid(row=button_num, column=1, padx=10, pady=10) source_image.configure(image=tk_image) source_label_dict_live[button_num] = source_image else: update_pop_live_status("Face could not be detected in last upload!") return map def update_webcam_target(scrollable_frame: ctk.CTkScrollableFrame, map: list, button_num: int) -> list: global target_label_dict_live target_path = ctk.filedialog.askopenfilename(title='select an target image', initialdir=RECENT_DIRECTORY_SOURCE, filetypes=[img_ft]) if "target" in map[button_num]: map[button_num].pop("target") target_label_dict_live[button_num].destroy() del target_label_dict_live[button_num] if target_path == "": return map else: cv2_img = cv2.imread(target_path) face = get_one_face(cv2_img) if face: x_min, y_min, x_max, y_max = face['bbox'] map[button_num]['target'] = { 'cv2' : cv2_img[int(y_min):int(y_max), int(x_min):int(x_max)], 'face' : face } image = Image.fromarray(cv2.cvtColor(map[button_num]['target']['cv2'], cv2.COLOR_BGR2RGB)) image = image.resize((MAPPER_PREVIEW_MAX_WIDTH, MAPPER_PREVIEW_MAX_HEIGHT), Image.LANCZOS) tk_image = ctk.CTkImage(image, size=image.size) target_image = ctk.CTkLabel(scrollable_frame, text=f"T-{button_num}", width=MAPPER_PREVIEW_MAX_WIDTH, height=MAPPER_PREVIEW_MAX_HEIGHT) target_image.grid(row=button_num, column=4, padx=20, pady=10) target_image.configure(image=tk_image) target_label_dict_live[button_num] = target_image else: update_pop_live_status("Face could not be detected in last upload!") return map