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Deep-Live-Cam
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Revert "Merge pull request #293 from vic4key/experimental" 

This reverts commit eab5ba7027.
pull/372/head
Kenneth Estanislao 2024-08-16 13:47:12 +08:00
parent eab5ba7027
commit 22abb8c25f
4 changed files with 152 additions and 364 deletions
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2
README.md
View File

@ -158,8 +158,6 @@ options:
--many-faces process every face
--video-encoder {libx264,libx265,libvpx-vp9} adjust output video encoder
--video-quality [0-51] adjust output video quality
--live-mirror the live camera display as you see it in the front-facing camera frame
--live-resizable the live camera frame is resizable
--max-memory MAX_MEMORY maximum amount of RAM in GB
--execution-provider {cpu} [{cpu} ...] available execution provider (choices: cpu, ...)
--execution-threads EXECUTION_THREADS number of execution threads

221
modules/core.py
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@ -1,17 +1,16 @@
import os
import sys
# single thread doubles cuda performance - needs to be set before torch import
if any(arg.startswith('--execution-provider') for arg in sys.argv):
os.environ['OMP_NUM_THREADS'] = '1'
# reduce tensorflow log level
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '2'
import warnings
from typing import List
import platform
import signal
import shutil
import argparse
from typing import List
# Set environment variables for CUDA performance and TensorFlow logging
if any(arg.startswith('--execution-provider') for arg in sys.argv):
os.environ['OMP_NUM_THREADS'] = '1'
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '2'
import torch
import onnxruntime
import tensorflow
@ -20,60 +19,34 @@ import modules.globals
import modules.metadata
import modules.ui as ui
from modules.processors.frame.core import get_frame_processors_modules
from modules.utilities import (
has_image_extension,
is_image,
is_video,
detect_fps,
create_video,
extract_frames,
get_temp_frame_paths,
restore_audio,
create_temp,
move_temp,
clean_temp,
normalize_output_path
)
from modules.utilities import has_image_extension, is_image, is_video, detect_fps, create_video, extract_frames, get_temp_frame_paths, restore_audio, create_temp, move_temp, clean_temp, normalize_output_path
if 'ROCMExecutionProvider' in modules.globals.execution_providers:
del torch
# Filter warnings
warnings.filterwarnings('ignore', category=FutureWarning, module='insightface')
warnings.filterwarnings('ignore', category=UserWarning, module='torchvision')
# Cross-platform resource management
if platform.system() == 'Darwin' and 'ROCMExecutionProvider' in modules.globals.execution_providers:
del torch
def parse_args() -> None:
signal.signal(signal.SIGINT, lambda signal_number, frame: destroy())
program = argparse.ArgumentParser()
program.add_argument('-s', '--source', help='Select a source image', dest='source_path')
program.add_argument('-t', '--target', help='Select a target image or video', dest='target_path')
program.add_argument('-o', '--output', help='Select output file or directory', dest='output_path')
program.add_argument('--frame-processor', help='Pipeline of frame processors', dest='frame_processor',
default=['face_swapper'], choices=['face_swapper', 'face_enhancer'], nargs='+')
program.add_argument('--keep-fps', help='Keep original fps', dest='keep_fps', action='store_true', default=False)
program.add_argument('--keep-audio', help='Keep original audio', dest='keep_audio', action='store_true', default=True)
program.add_argument('--keep-frames', help='Keep temporary frames', dest='keep_frames', action='store_true', default=False)
program.add_argument('--many-faces', help='Process every face', dest='many_faces', action='store_true', default=False)
program.add_argument('--video-encoder', help='Adjust output video encoder', dest='video_encoder', default='libx264',
choices=['libx264', 'libx265', 'libvpx-vp9'])
program.add_argument('--video-quality', help='Adjust output video quality', dest='video_quality', type=int, default=18,
choices=range(52), metavar='[0-51]')
program.add_argument('--live-mirror', help='The live camera display as you see it in the front-facing camera frame',
dest='live_mirror', action='store_true', default=False)
program.add_argument('--live-resizable', help='The live camera frame is resizable',
dest='live_resizable', action='store_true', default=False)
program.add_argument('--max-memory', help='Maximum amount of RAM in GB', dest='max_memory', type=int,
default=suggest_max_memory())
program.add_argument('--execution-provider', help='Execution provider', dest='execution_provider', default=['cpu'],
choices=suggest_execution_providers(), nargs='+')
program.add_argument('--execution-threads', help='Number of execution threads', dest='execution_threads', type=int,
default=suggest_execution_threads())
program.add_argument('-v', '--version', action='version',
version=f'{modules.metadata.name} {modules.metadata.version}')
program.add_argument('-s', '--source', help='select an source image', dest='source_path')
program.add_argument('-t', '--target', help='select an target image or video', dest='target_path')
program.add_argument('-o', '--output', help='select output file or directory', dest='output_path')
program.add_argument('--frame-processor', help='pipeline of frame processors', dest='frame_processor', default=['face_swapper'], choices=['face_swapper', 'face_enhancer'], nargs='+')
program.add_argument('--keep-fps', help='keep original fps', dest='keep_fps', action='store_true', default=False)
program.add_argument('--keep-audio', help='keep original audio', dest='keep_audio', action='store_true', default=True)
program.add_argument('--keep-frames', help='keep temporary frames', dest='keep_frames', action='store_true', default=False)
program.add_argument('--many-faces', help='process every face', dest='many_faces', action='store_true', default=False)
program.add_argument('--video-encoder', help='adjust output video encoder', dest='video_encoder', default='libx264', choices=['libx264', 'libx265', 'libvpx-vp9'])
program.add_argument('--video-quality', help='adjust output video quality', dest='video_quality', type=int, default=18, choices=range(52), metavar='[0-51]')
program.add_argument('--max-memory', help='maximum amount of RAM in GB', dest='max_memory', type=int, default=suggest_max_memory())
program.add_argument('--execution-provider', help='execution provider', dest='execution_provider', default=['cpu'], choices=suggest_execution_providers(), nargs='+')
program.add_argument('--execution-threads', help='number of execution threads', dest='execution_threads', type=int, default=suggest_execution_threads())
program.add_argument('-v', '--version', action='version', version=f'{modules.metadata.name} {modules.metadata.version}')
# Register deprecated args
# register deprecated args
program.add_argument('-f', '--face', help=argparse.SUPPRESS, dest='source_path_deprecated')
program.add_argument('--cpu-cores', help=argparse.SUPPRESS, dest='cpu_cores_deprecated', type=int)
program.add_argument('--gpu-vendor', help=argparse.SUPPRESS, dest='gpu_vendor_deprecated')
@ -83,8 +56,7 @@ def parse_args() -> None:
modules.globals.source_path = args.source_path
modules.globals.target_path = args.target_path
modules.globals.output_path = normalize_output_path(modules.globals.source_path, modules.globals.target_path,
args.output_path)
modules.globals.output_path = normalize_output_path(modules.globals.source_path, modules.globals.target_path, args.output_path)
modules.globals.frame_processors = args.frame_processor
modules.globals.headless = args.source_path or args.target_path or args.output_path
modules.globals.keep_fps = args.keep_fps
@ -93,28 +65,23 @@ def parse_args() -> None:
modules.globals.many_faces = args.many_faces
modules.globals.video_encoder = args.video_encoder
modules.globals.video_quality = args.video_quality
modules.globals.live_mirror = args.live_mirror
modules.globals.live_resizable = args.live_resizable
modules.globals.max_memory = args.max_memory
modules.globals.execution_providers = decode_execution_providers(args.execution_provider)
modules.globals.execution_threads = args.execution_threads
# Handle face enhancer tumbler
modules.globals.fp_ui['face_enhancer'] = 'face_enhancer' in args.frame_processor
#for ENHANCER tumbler:
if 'face_enhancer' in args.frame_processor:
modules.globals.fp_ui['face_enhancer'] = True
else:
modules.globals.fp_ui['face_enhancer'] = False
modules.globals.nsfw = False
# Handle deprecated arguments
handle_deprecated_args(args)
def handle_deprecated_args(args) -> None:
"""Handle deprecated arguments by translating them to the new format."""
# translate deprecated args
if args.source_path_deprecated:
print('\033[33mArgument -f and --face are deprecated. Use -s and --source instead.\033[0m')
modules.globals.source_path = args.source_path_deprecated
modules.globals.output_path = normalize_output_path(args.source_path_deprecated, modules.globals.target_path,
args.output_path)
modules.globals.output_path = normalize_output_path(args.source_path_deprecated, modules.globals.target_path, args.output_path)
if args.cpu_cores_deprecated:
print('\033[33mArgument --cpu-cores is deprecated. Use --execution-threads instead.\033[0m')
modules.globals.execution_threads = args.cpu_cores_deprecated
@ -125,7 +92,7 @@ def handle_deprecated_args(args) -> None:
print('\033[33mArgument --gpu-vendor nvidia is deprecated. Use --execution-provider cuda instead.\033[0m')
modules.globals.execution_providers = decode_execution_providers(['cuda'])
if args.gpu_vendor_deprecated == 'amd':
print('\033[33mArgument --gpu-vendor amd is deprecated. Use --execution-provider rocm instead.\033[0m')
print('\033[33mArgument --gpu-vendor amd is deprecated. Use --execution-provider cuda instead.\033[0m')
modules.globals.execution_providers = decode_execution_providers(['rocm'])
if args.gpu_threads_deprecated:
print('\033[33mArgument --gpu-threads is deprecated. Use --execution-threads instead.\033[0m')
@ -133,22 +100,18 @@ def handle_deprecated_args(args) -> None:
def encode_execution_providers(execution_providers: List[str]) -> List[str]:
return [provider.replace('ExecutionProvider', '').lower() for provider in execution_providers]
return [execution_provider.replace('ExecutionProvider', '').lower() for execution_provider in execution_providers]
def decode_execution_providers(execution_providers: List[str]) -> List[str]:
available_providers = onnxruntime.get_available_providers()
encoded_providers = encode_execution_providers(available_providers)
selected_providers = [available_providers[encoded_providers.index(req)] for req in execution_providers
if req in encoded_providers]
# Default to CPU if no suitable providers are found
return selected_providers if selected_providers else ['CPUExecutionProvider']
return [provider for provider, encoded_execution_provider in zip(onnxruntime.get_available_providers(), encode_execution_providers(onnxruntime.get_available_providers()))
if any(execution_provider in encoded_execution_provider for execution_provider in execution_providers)]
def suggest_max_memory() -> int:
return 4 if platform.system().lower() == 'darwin' else 16
if platform.system().lower() == 'darwin':
return 4
return 16
def suggest_execution_providers() -> List[str]:
@ -156,41 +119,34 @@ def suggest_execution_providers() -> List[str]:
def suggest_execution_threads() -> int:
if 'dml' in modules.globals.execution_providers:
if 'DmlExecutionProvider' in modules.globals.execution_providers:
return 1
if 'rocm' in modules.globals.execution_providers:
if 'ROCMExecutionProvider' in modules.globals.execution_providers:
return 1
return 8
def limit_resources() -> None:
# Prevent TensorFlow memory leak
# prevent tensorflow memory leak
gpus = tensorflow.config.experimental.list_physical_devices('GPU')
for gpu in gpus:
tensorflow.config.experimental.set_memory_growth(gpu, True)
# Limit memory usage
# limit memory usage
if modules.globals.max_memory:
memory = modules.globals.max_memory * 1024 ** 3
if platform.system().lower() == 'darwin':
memory = modules.globals.max_memory * 1024 ** 3
elif platform.system().lower() == 'windows':
memory = modules.globals.max_memory * 1024 ** 6
if platform.system().lower() == 'windows':
import ctypes
kernel32 = ctypes.windll.kernel32
kernel32.SetProcessWorkingSetSize(-1, ctypes.c_size_t(memory), ctypes.c_size_t(memory))
else:
import resource
try:
soft, hard = resource.getrlimit(resource.RLIMIT_DATA)
if memory > hard:
print(f"Warning: Requested memory limit {memory / (1024 ** 3)} GB exceeds system's hard limit. Setting to maximum allowed {hard / (1024 ** 3)} GB.")
memory = hard
resource.setrlimit(resource.RLIMIT_DATA, (memory, memory))
except ValueError as e:
print(f"Warning: Could not set memory limit: {e}. Continuing with default limits.")
def release_resources() -> None:
if 'cuda' in modules.globals.execution_providers:
if 'CUDAExecutionProvider' in modules.globals.execution_providers:
torch.cuda.empty_cache()
@ -201,85 +157,49 @@ def pre_check() -> bool:
if not shutil.which('ffmpeg'):
update_status('ffmpeg is not installed.')
return False
if 'cuda' in modules.globals.execution_providers and not torch.cuda.is_available():
update_status('CUDA is not available. Please check your GPU or CUDA installation.')
return False
return True
def update_status(message: str, scope: str = 'DLC.CORE') -> None:
print(f'[{scope}] {message}')
if not modules.globals.headless and ui.status_label:
if not modules.globals.headless:
ui.update_status(message)
def start() -> None:
for frame_processor in get_frame_processors_modules(modules.globals.frame_processors):
if not frame_processor.pre_start():
return
# Process image to image
# process image to image
if has_image_extension(modules.globals.target_path):
process_image_to_image()
return
# Process image to video
process_image_to_video()
def process_image_to_image() -> None:
if modules.globals.nsfw:
if modules.globals.nsfw == False:
from modules.predicter import predict_image
if predict_image(modules.globals.target_path):
destroy(to_quit=False)
update_status('Processing to image ignored!')
return
try:
destroy()
shutil.copy2(modules.globals.target_path, modules.globals.output_path)
except Exception as e:
print("Error copying file:", str(e))
for frame_processor in get_frame_processors_modules(modules.globals.frame_processors):
update_status('Processing...', frame_processor.NAME)
update_status('Progressing...', frame_processor.NAME)
frame_processor.process_image(modules.globals.source_path, modules.globals.output_path, modules.globals.output_path)
release_resources()
if is_image(modules.globals.target_path):
update_status('Processing to image succeeded!')
update_status('Processing to image succeed!')
else:
update_status('Processing to image failed!')
def process_image_to_video() -> None:
if modules.globals.nsfw:
return
# process image to videos
if modules.globals.nsfw == False:
from modules.predicter import predict_video
if predict_video(modules.globals.target_path):
destroy(to_quit=False)
update_status('Processing to video ignored!')
return
update_status('Creating temporary resources...')
destroy()
update_status('Creating temp resources...')
create_temp(modules.globals.target_path)
update_status('Extracting frames...')
extract_frames(modules.globals.target_path)
temp_frame_paths = get_temp_frame_paths(modules.globals.target_path)
for frame_processor in get_frame_processors_modules(modules.globals.frame_processors):
update_status('Processing...', frame_processor.NAME)
update_status('Progressing...', frame_processor.NAME)
frame_processor.process_video(modules.globals.source_path, temp_frame_paths)
release_resources()
handle_video_fps()
handle_video_audio()
clean_temp(modules.globals.target_path)
if is_video(modules.globals.target_path):
update_status('Processing to video succeeded!')
else:
update_status('Processing to video failed!')
def handle_video_fps() -> None:
# handles fps
if modules.globals.keep_fps:
update_status('Detecting fps...')
fps = detect_fps(modules.globals.target_path)
@ -288,9 +208,7 @@ def handle_video_fps() -> None:
else:
update_status('Creating video with 30.0 fps...')
create_video(modules.globals.target_path)
def handle_video_audio() -> None:
# handle audio
if modules.globals.keep_audio:
if modules.globals.keep_fps:
update_status('Restoring audio...')
@ -299,16 +217,21 @@ def handle_video_audio() -> None:
restore_audio(modules.globals.target_path, modules.globals.output_path)
else:
move_temp(modules.globals.target_path, modules.globals.output_path)
# clean and validate
clean_temp(modules.globals.target_path)
if is_video(modules.globals.target_path):
update_status('Processing to video succeed!')
else:
update_status('Processing to video failed!')
def destroy(to_quit=True) -> None:
def destroy() -> None:
if modules.globals.target_path:
clean_temp(modules.globals.target_path)
if to_quit: quit()
quit()
def run() -> None:
try:
parse_args()
if not pre_check():
return
@ -321,7 +244,3 @@ def run() -> None:
else:
window = ui.init(start, destroy)
window.mainloop()
except Exception as e:
print(f"UI initialization failed: {str(e)}")
update_status(f"UI initialization failed: {str(e)}")
destroy() # Ensure any resources are cleaned up on failure

2
modules/globals.py
View File

@ -19,8 +19,6 @@ keep_frames = None
many_faces = None
video_encoder = None
video_quality = None
live_mirror = None
live_resizable = None
max_memory = None
execution_providers: List[str] = []
execution_threads = None

243
modules/ui.py
View File

@ -1,17 +1,10 @@
import os
import platform
import webbrowser
import customtkinter as ctk
from typing import Callable, Tuple
import cv2
from PIL import Image, ImageOps
# Import OS-specific modules only when necessary
if platform.system() == 'Darwin': # macOS
import objc
from Foundation import NSObject
import AVFoundation
import modules.globals
import modules.metadata
from modules.face_analyser import get_one_face
@ -26,8 +19,6 @@ ROOT_WIDTH = 600
PREVIEW = None
PREVIEW_MAX_HEIGHT = 700
PREVIEW_MAX_WIDTH = 1200
PREVIEW_DEFAULT_WIDTH = 960
PREVIEW_DEFAULT_HEIGHT = 540
RECENT_DIRECTORY_SOURCE = None
RECENT_DIRECTORY_TARGET = None
@ -41,49 +32,10 @@ status_label = None
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)
@ -97,11 +49,10 @@ def create_root(start: Callable[[], None], destroy: Callable[[], None]) -> ctk.C
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.configure()
root.protocol('WM_DELETE_WINDOW', lambda: destroy())
source_label = ctk.CTkLabel(root, text=None)
@ -110,11 +61,11 @@ def create_root(start: Callable[[], None], destroy: Callable[[], None]) -> ctk.C
target_label = ctk.CTkLabel(root, text=None)
target_label.place(relx=0.6, rely=0.1, 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=0.4, relwidth=0.3, relheight=0.1)
select_face_button = ctk.CTkButton(root, text='Select a face', cursor='hand2', command=lambda: select_source_path())
select_face_button.place(relx=0.1, rely=0.4, relwidth=0.3, 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=0.4, relwidth=0.3, relheight=0.1)
select_target_button = ctk.CTkButton(root, text='Select a target', cursor='hand2', command=lambda: select_target_path())
select_target_button.place(relx=0.6, rely=0.4, 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))
@ -124,6 +75,7 @@ def create_root(start: Callable[[], None], destroy: Callable[[], None]) -> ctk.C
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=0.65)
# for FRAME PROCESSOR ENHANCER tumbler:
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=0.7)
@ -136,56 +88,47 @@ def create_root(start: Callable[[], None], destroy: Callable[[], None]) -> ctk.C
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=0.65)
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=0.7)
# 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=0.7)
start_button = ctk.CTkButton(root, text='Start', cursor='hand2', command=lambda: select_output_path(start))
start_button.place(relx=0.15, rely=0.8, relwidth=0.2, relheight=0.05)
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=0.8, relwidth=0.2, relheight=0.05)
stop_button = ctk.CTkButton(root, text='Destroy', cursor='hand2', command=lambda: destroy())
stop_button.place(relx=0.4, rely=0.80, 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=0.8, relwidth=0.2, relheight=0.05)
preview_button = ctk.CTkButton(root, text='Preview', cursor='hand2', command=lambda: toggle_preview())
preview_button.place(relx=0.65, rely=0.80, relwidth=0.2, relheight=0.05)
camera_label = ctk.CTkLabel(root, text="Select Camera:")
camera_label.place(relx=0.4, rely=0.86, relwidth=0.2, relheight=0.05)
available_cameras = get_available_cameras()
available_camera_strings = [str(cam) for cam in available_cameras]
camera_variable = ctk.StringVar(value=available_camera_strings[0] if available_camera_strings else "No cameras found")
camera_optionmenu = ctk.CTkOptionMenu(root, variable=camera_variable, values=available_camera_strings)
camera_optionmenu.place(relx=0.65, rely=0.86, relwidth=0.2, relheight=0.05)
live_button = ctk.CTkButton(root, text='Live', cursor='hand2', command=lambda: webcam_preview(camera_variable.get()))
live_button.place(relx=0.15, rely=0.86, relwidth=0.2, relheight=0.05)
live_button = ctk.CTkButton(root, text='Live', cursor='hand2', command=lambda: webcam_preview())
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=0.9)
status_label.place(relx=0.1, rely=0.9, relwidth=0.8)
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('<Button-1>', lambda event: webbrowser.open('https://paypal.me/hacksider'))
donate_label.bind('<Button>', lambda event: webbrowser.open('https://paypal.me/hacksider'))
return root
def create_preview(parent: ctk.CTk) -> ctk.CTkToplevel:
def create_preview(parent: ctk.CTkToplevel) -> 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.configure()
preview.protocol('WM_DELETE_WINDOW', lambda: toggle_preview())
preview.resizable(width=False, height=False)
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)
preview_slider = ctk.CTkSlider(preview, from_=0, to=0, command=lambda frame_value: update_preview(frame_value))
return preview
@ -200,10 +143,10 @@ def update_tumbler(var: str, value: bool) -> None:
def select_source_path() -> None:
global RECENT_DIRECTORY_SOURCE
global RECENT_DIRECTORY_SOURCE, img_ft, vid_ft
PREVIEW.withdraw()
source_path = ctk.filedialog.askopenfilename(title='Select a source image', initialdir=RECENT_DIRECTORY_SOURCE, filetypes=[img_ft])
source_path = ctk.filedialog.askopenfilename(title='select an 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)
@ -215,10 +158,10 @@ def select_source_path() -> None:
def select_target_path() -> None:
global RECENT_DIRECTORY_TARGET
global RECENT_DIRECTORY_TARGET, img_ft, vid_ft
PREVIEW.withdraw()
target_path = ctk.filedialog.askopenfilename(title='Select a target image or video', initialdir=RECENT_DIRECTORY_TARGET, filetypes=[img_ft, vid_ft])
target_path = ctk.filedialog.askopenfilename(title='select an 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)
@ -235,12 +178,12 @@ def select_target_path() -> None:
def select_output_path(start: Callable[[], None]) -> None:
global RECENT_DIRECTORY_OUTPUT
global RECENT_DIRECTORY_OUTPUT, img_ft, vid_ft
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)
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)
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:
@ -261,13 +204,13 @@ def render_video_preview(video_path: str, size: Tuple[int, int], frame_number: i
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
capture.release()
cv2.destroyAllWindows()
def toggle_preview() -> None:
@ -277,17 +220,12 @@ def toggle_preview() -> None:
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):
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')
@ -297,7 +235,7 @@ def init_preview() -> None:
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:
if modules.globals.nsfw == False:
from modules.predicter import predict_frame
if predict_frame(temp_frame):
quit()
@ -311,116 +249,51 @@ def update_preview(frame_number: int = 0) -> None:
image = ctk.CTkImage(image, size=image.size)
preview_label.configure(image=image)
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 webcam_preview(camera_name: str):
def webcam_preview():
if modules.globals.source_path is None:
# No image selected
return
global preview_label, PREVIEW
# 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
cap = cv2.VideoCapture(0) # Use index for the webcam (adjust the index accordingly if necessary)
cap.set(cv2.CAP_PROP_FRAME_WIDTH, 960) # Set the width of the resolution
cap.set(cv2.CAP_PROP_FRAME_HEIGHT, 540) # Set the height of the resolution
cap.set(cv2.CAP_PROP_FPS, 60) # Set the frame rate of the webcam
PREVIEW_MAX_WIDTH = 960
PREVIEW_MAX_HEIGHT = 540
# Use OpenCV's camera index for cross-platform compatibility
camera_index = get_camera_index_by_name(camera_name)
preview_label.configure(image=None) # Reset the preview image before startup
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, 960)
camera.set(cv2.CAP_PROP_FRAME_HEIGHT, 540)
camera.set(cv2.CAP_PROP_FPS, 60)
preview_label.configure(width=PREVIEW_DEFAULT_WIDTH, height=PREVIEW_DEFAULT_HEIGHT)
PREVIEW.deiconify()
PREVIEW.deiconify() # Open preview window
frame_processors = get_frame_processors_modules(modules.globals.frame_processors)
source_image = get_one_face(cv2.imread(modules.globals.source_path))
while camera:
ret, frame = camera.read()
source_image = None # Initialize variable for the selected face image
while True:
ret, frame = cap.read()
if not ret:
update_status(f"Error: Frame not received from camera.")
break
temp_frame = frame.copy()
# 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))
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())
temp_frame = frame.copy() #Create a copy of the frame
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 = cv2.cvtColor(temp_frame, cv2.COLOR_BGR2RGB) # Convert the image to RGB format to display it with Tkinter
image = Image.fromarray(image)
image = ImageOps.contain(image, (PREVIEW_MAX_WIDTH, PREVIEW_MAX_HEIGHT), Image.LANCZOS)
image = ctk.CTkImage(image, size=image.size)
preview_label.configure(image=image)
ROOT.update()
if camera: camera.release()
PREVIEW.withdraw()
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
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':
# Use OpenCV to detect camera indexes
index = 0
while True:
cap = cv2.VideoCapture(index)
if not cap.isOpened():
if PREVIEW.state() == 'withdrawn':
break
available_cameras.append(f"Camera {index}")
cap.release()
index += 1
return available_cameras
PREVIEW.withdraw() # Close preview window when loop is finished