highperfocused/Deep-Live-Cam
1
0
Fork 0
mirror of https://github.com/hacksider/Deep-Live-Cam.git synced 2025-03-27 02:02:08 +01:00
Code Issues Actions Packages Projects Releases Wiki Activity

Mouth Mask And UI

Browse Source
This commit is contained in:
KRSHH 2024-10-28 10:56:01 +05:30
parent 4b6f60f59b
commit acc8e778b6
3 changed files with 478 additions and 124 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

5
modules/globals.py
View File

@ -36,3 +36,8 @@ fp_ui: Dict[str, bool] = {"face_enhancer": False} # Initialize with default val
camera_input_combobox = None
webcam_preview_running = False
show_fps = False # Initialize with default value
mouth_mask = False
show_mouth_mask_box = False
mask_down_size = 0.5
mask_size = 1.0
mask_feather_ratio = 8

378
modules/processors/frame/face_swapper.py
View File

@ -2,35 +2,49 @@ from typing import Any, List
import cv2
import insightface
import threading
import numpy as np
import modules.globals
import modules.processors.frame.core
from modules.core import update_status
from modules.face_analyser import get_one_face, get_many_faces, default_source_face
from modules.typing import Face, Frame
from modules.utilities import conditional_download, resolve_relative_path, is_image, is_video
from modules.utilities import (
conditional_download,
resolve_relative_path,
is_image,
is_video,
)
from modules.cluster_analysis import find_closest_centroid
FACE_SWAPPER = None
THREAD_LOCK = threading.Lock()
NAME = 'DLC.FACE-SWAPPER'
NAME = "DLC.FACE-SWAPPER"
def pre_check() -> bool:
download_directory_path = resolve_relative_path('../models')
conditional_download(download_directory_path, ['https://huggingface.co/hacksider/deep-live-cam/blob/main/inswapper_128_fp16.onnx'])
download_directory_path = resolve_relative_path("../models")
conditional_download(
download_directory_path,
[
"https://huggingface.co/hacksider/deep-live-cam/blob/main/inswapper_128_fp16.onnx"
],
)
return True
def pre_start() -> bool:
if not modules.globals.map_faces and not is_image(modules.globals.source_path):
update_status('Select an image for source path.', NAME)
update_status("Select an image for source path.", NAME)
return False
elif not modules.globals.map_faces and not get_one_face(cv2.imread(modules.globals.source_path)):
update_status('No face in source path detected.', NAME)
elif not modules.globals.map_faces and not get_one_face(
cv2.imread(modules.globals.source_path)
):
update_status("No face in source path detected.", NAME)
return False
if not is_image(modules.globals.target_path) and not is_video(modules.globals.target_path):
update_status('Select an image or video for target path.', NAME)
if not is_image(modules.globals.target_path) and not is_video(
modules.globals.target_path
):
update_status("Select an image or video for target path.", NAME)
return False
return True
@ -40,20 +54,42 @@ def get_face_swapper() -> Any:
with THREAD_LOCK:
if FACE_SWAPPER is None:
model_path = resolve_relative_path('../models/inswapper_128_fp16.onnx')
FACE_SWAPPER = insightface.model_zoo.get_model(model_path, providers=modules.globals.execution_providers)
model_path = resolve_relative_path("../models/inswapper_128_fp16.onnx")
FACE_SWAPPER = insightface.model_zoo.get_model(
model_path, providers=modules.globals.execution_providers
)
return FACE_SWAPPER
def swap_face(source_face: Face, target_face: Face, temp_frame: Frame) -> Frame:
return get_face_swapper().get(temp_frame, target_face, source_face, paste_back=True)
face_swapper = get_face_swapper()
swapped_frame = face_swapper.get(
temp_frame, target_face, source_face, paste_back=True
)
if modules.globals.mouth_mask:
face_mask = create_face_mask(target_face, temp_frame)
mouth_mask_data = create_lower_mouth_mask(target_face, temp_frame)
mouth_mask, mouth_cutout, mouth_box, lower_lip_polygon = mouth_mask_data
if mouth_box is not None:
swapped_frame = apply_mouth_area(
swapped_frame, mouth_cutout, mouth_box, face_mask, lower_lip_polygon
)
if modules.globals.show_mouth_mask_box:
swapped_frame = draw_mouth_mask_visualization(
swapped_frame, target_face, mouth_mask_data
)
return swapped_frame
def process_frame(source_face: Face, temp_frame: Frame) -> Frame:
# Ensure the frame is in RGB format if color correction is enabled
if modules.globals.color_correction:
temp_frame = cv2.cvtColor(temp_frame, cv2.COLOR_BGR2RGB)
if modules.globals.many_faces:
many_faces = get_many_faces(temp_frame)
if many_faces:
@ -71,34 +107,42 @@ def process_frame_v2(temp_frame: Frame, temp_frame_path: str = "") -> Frame:
if modules.globals.many_faces:
source_face = default_source_face()
for map in modules.globals.souce_target_map:
target_face = map['target']['face']
target_face = map["target"]["face"]
temp_frame = swap_face(source_face, target_face, temp_frame)
elif not modules.globals.many_faces:
for map in modules.globals.souce_target_map:
if "source" in map:
source_face = map['source']['face']
target_face = map['target']['face']
source_face = map["source"]["face"]
target_face = map["target"]["face"]
temp_frame = swap_face(source_face, target_face, temp_frame)
elif is_video(modules.globals.target_path):
if modules.globals.many_faces:
source_face = default_source_face()
for map in modules.globals.souce_target_map:
target_frame = [f for f in map['target_faces_in_frame'] if f['location'] == temp_frame_path]
target_frame = [
f
for f in map["target_faces_in_frame"]
if f["location"] == temp_frame_path
]
for frame in target_frame:
for target_face in frame['faces']:
for target_face in frame["faces"]:
temp_frame = swap_face(source_face, target_face, temp_frame)
elif not modules.globals.many_faces:
for map in modules.globals.souce_target_map:
if "source" in map:
target_frame = [f for f in map['target_faces_in_frame'] if f['location'] == temp_frame_path]
source_face = map['source']['face']
target_frame = [
f
for f in map["target_faces_in_frame"]
if f["location"] == temp_frame_path
]
source_face = map["source"]["face"]
for frame in target_frame:
for target_face in frame['faces']:
for target_face in frame["faces"]:
temp_frame = swap_face(source_face, target_face, temp_frame)
else:
detected_faces = get_many_faces(temp_frame)
@ -110,25 +154,46 @@ def process_frame_v2(temp_frame: Frame, temp_frame_path: str = "") -> Frame:
elif not modules.globals.many_faces:
if detected_faces:
if len(detected_faces) <= len(modules.globals.simple_map['target_embeddings']):
if len(detected_faces) <= len(
modules.globals.simple_map["target_embeddings"]
):
for detected_face in detected_faces:
closest_centroid_index, _ = find_closest_centroid(modules.globals.simple_map['target_embeddings'], detected_face.normed_embedding)
closest_centroid_index, _ = find_closest_centroid(
modules.globals.simple_map["target_embeddings"],
detected_face.normed_embedding,
)
temp_frame = swap_face(modules.globals.simple_map['source_faces'][closest_centroid_index], detected_face, temp_frame)
temp_frame = swap_face(
modules.globals.simple_map["source_faces"][
closest_centroid_index
],
detected_face,
temp_frame,
)
else:
detected_faces_centroids = []
for face in detected_faces:
detected_faces_centroids.append(face.normed_embedding)
detected_faces_centroids.append(face.normed_embedding)
i = 0
for target_embedding in modules.globals.simple_map['target_embeddings']:
closest_centroid_index, _ = find_closest_centroid(detected_faces_centroids, target_embedding)
for target_embedding in modules.globals.simple_map[
"target_embeddings"
]:
closest_centroid_index, _ = find_closest_centroid(
detected_faces_centroids, target_embedding
)
temp_frame = swap_face(modules.globals.simple_map['source_faces'][i], detected_faces[closest_centroid_index], temp_frame)
temp_frame = swap_face(
modules.globals.simple_map["source_faces"][i],
detected_faces[closest_centroid_index],
temp_frame,
)
i += 1
return temp_frame
def process_frames(source_path: str, temp_frame_paths: List[str], progress: Any = None) -> None:
def process_frames(
source_path: str, temp_frame_paths: List[str], progress: Any = None
) -> None:
if not modules.globals.map_faces:
source_face = get_one_face(cv2.imread(source_path))
for temp_frame_path in temp_frame_paths:
@ -162,7 +227,9 @@ def process_image(source_path: str, target_path: str, output_path: str) -> None:
cv2.imwrite(output_path, result)
else:
if modules.globals.many_faces:
update_status('Many faces enabled. Using first source image. Progressing...', NAME)
update_status(
"Many faces enabled. Using first source image. Progressing...", NAME
)
target_frame = cv2.imread(output_path)
result = process_frame_v2(target_frame)
cv2.imwrite(output_path, result)
@ -170,5 +237,250 @@ def process_image(source_path: str, target_path: str, output_path: str) -> None:
def process_video(source_path: str, temp_frame_paths: List[str]) -> None:
if modules.globals.map_faces and modules.globals.many_faces:
update_status('Many faces enabled. Using first source image. Progressing...', NAME)
modules.processors.frame.core.process_video(source_path, temp_frame_paths, process_frames)
update_status(
"Many faces enabled. Using first source image. Progressing...", NAME
)
modules.processors.frame.core.process_video(
source_path, temp_frame_paths, process_frames
)
def create_face_mask(face: Face, frame: Frame) -> np.ndarray:
mask = np.zeros(frame.shape[:2], dtype=np.uint8)
landmarks = face.landmark_2d_106
if landmarks is not None:
landmarks = landmarks.astype(np.int32)
right_side_face = landmarks[0:16]
left_side_face = landmarks[17:32]
right_eye = landmarks[33:42]
right_eye_brow = landmarks[43:51]
left_eye = landmarks[87:96]
left_eye_brow = landmarks[97:105]
right_eyebrow_top = np.min(right_eye_brow[:, 1])
left_eyebrow_top = np.min(left_eye_brow[:, 1])
eyebrow_top = min(right_eyebrow_top, left_eyebrow_top)
face_top = np.min([right_side_face[0, 1], left_side_face[-1, 1]])
forehead_height = face_top - eyebrow_top
extended_forehead_height = int(forehead_height * 5.0)
forehead_left = right_side_face[0].copy()
forehead_right = left_side_face[-1].copy()
forehead_left[1] -= extended_forehead_height
forehead_right[1] -= extended_forehead_height
face_outline = np.vstack(
[
[forehead_left],
right_side_face,
left_side_face[::-1],
[forehead_right],
]
)
padding = int(np.linalg.norm(right_side_face[0] - left_side_face[-1]) * 0.05)
hull = cv2.convexHull(face_outline)
hull_padded = []
for point in hull:
x, y = point[0]
center = np.mean(face_outline, axis=0)
direction = np.array([x, y]) - center
direction = direction / np.linalg.norm(direction)
padded_point = np.array([x, y]) + direction * padding
hull_padded.append(padded_point)
hull_padded = np.array(hull_padded, dtype=np.int32)
cv2.fillConvexPoly(mask, hull_padded, 255)
mask = cv2.GaussianBlur(mask, (5, 5), 3)
return mask
def create_lower_mouth_mask(face: Face, frame: Frame) -> tuple:
mask = np.zeros(frame.shape[:2], dtype=np.uint8)
mouth_cutout = None
landmarks = face.landmark_2d_106
if landmarks is not None:
lower_lip_order = [
65,
66,
62,
70,
69,
18,
19,
20,
21,
22,
23,
24,
0,
8,
7,
6,
5,
4,
3,
2,
65,
]
lower_lip_landmarks = landmarks[lower_lip_order].astype(np.float32)
center = np.mean(lower_lip_landmarks, axis=0)
expansion_factor = 1 + modules.globals.mask_down_size
expanded_landmarks = (lower_lip_landmarks - center) * expansion_factor + center
toplip_indices = [20, 0, 1, 2, 3, 4, 5]
toplip_extension = modules.globals.mask_size * 0.5
for idx in toplip_indices:
direction = expanded_landmarks[idx] - center
direction = direction / np.linalg.norm(direction)
expanded_landmarks[idx] += direction * toplip_extension
chin_indices = [11, 12, 13, 14, 15, 16]
chin_extension = 2 * 0.2
for idx in chin_indices:
expanded_landmarks[idx][1] += (
expanded_landmarks[idx][1] - center[1]
) * chin_extension
expanded_landmarks = expanded_landmarks.astype(np.int32)
min_x, min_y = np.min(expanded_landmarks, axis=0)
max_x, max_y = np.max(expanded_landmarks, axis=0)
padding = int((max_x - min_x) * 0.1)
min_x = max(0, min_x - padding)
min_y = max(0, min_y - padding)
max_x = min(frame.shape[1], max_x + padding)
max_y = min(frame.shape[0], max_y + padding)
if max_x <= min_x or max_y <= min_y:
if (max_x - min_x) <= 1:
max_x = min_x + 1
if (max_y - min_y) <= 1:
max_y = min_y + 1
mask_roi = np.zeros((max_y - min_y, max_x - min_x), dtype=np.uint8)
cv2.fillPoly(mask_roi, [expanded_landmarks - [min_x, min_y]], 255)
mask_roi = cv2.GaussianBlur(mask_roi, (15, 15), 5)
mask[min_y:max_y, min_x:max_x] = mask_roi
mouth_cutout = frame[min_y:max_y, min_x:max_x].copy()
return mask, mouth_cutout, (min_x, min_y, max_x, max_y), expanded_landmarks
return mask, mouth_cutout, None, None
def apply_mouth_area(
frame: Frame,
mouth_cutout: np.ndarray,
mouth_box: tuple,
face_mask: np.ndarray,
mouth_polygon: np.ndarray,
) -> Frame:
min_x, min_y, max_x, max_y = mouth_box
box_width = max_x - min_x
box_height = max_y - min_y
if (
mouth_cutout is None
or box_width is None
or box_height is None
or face_mask is None
or mouth_polygon is None
):
return frame
try:
resized_mouth_cutout = cv2.resize(mouth_cutout, (box_width, box_height))
roi = frame[min_y:max_y, min_x:max_x]
if roi.shape != resized_mouth_cutout.shape:
resized_mouth_cutout = cv2.resize(
resized_mouth_cutout, (roi.shape[1], roi.shape[0])
)
color_corrected_mouth = apply_color_transfer(resized_mouth_cutout, roi)
polygon_mask = np.zeros(roi.shape[:2], dtype=np.uint8)
adjusted_polygon = mouth_polygon - [min_x, min_y]
cv2.fillPoly(polygon_mask, [adjusted_polygon], 255)
feather_amount = min(
30,
box_width // modules.globals.mask_feather_ratio,
box_height // modules.globals.mask_feather_ratio,
)
feathered_mask = cv2.GaussianBlur(
polygon_mask.astype(float), (0, 0), feather_amount
)
feathered_mask = feathered_mask / feathered_mask.max()
face_mask_roi = face_mask[min_y:max_y, min_x:max_x]
combined_mask = feathered_mask * (face_mask_roi / 255.0)
combined_mask = combined_mask[:, :, np.newaxis]
blended = (
color_corrected_mouth * combined_mask + roi * (1 - combined_mask)
).astype(np.uint8)
face_mask_3channel = (
np.repeat(face_mask_roi[:, :, np.newaxis], 3, axis=2) / 255.0
)
final_blend = blended * face_mask_3channel + roi * (1 - face_mask_3channel)
frame[min_y:max_y, min_x:max_x] = final_blend.astype(np.uint8)
except Exception as e:
pass
return frame
def apply_color_transfer(source: np.ndarray, target: np.ndarray) -> np.ndarray:
source = cv2.cvtColor(source, cv2.COLOR_BGR2LAB).astype("float32")
target = cv2.cvtColor(target, cv2.COLOR_BGR2LAB).astype("float32")
source_mean, source_std = cv2.meanStdDev(source)
target_mean, target_std = cv2.meanStdDev(target)
source_mean = source_mean.reshape(1, 1, 3)
source_std = source_std.reshape(1, 1, 3)
target_mean = target_mean.reshape(1, 1, 3)
target_std = target_std.reshape(1, 1, 3)
source = (source - source_mean) * (target_std / source_std) + target_mean
return cv2.cvtColor(np.clip(source, 0, 255).astype("uint8"), cv2.COLOR_LAB2BGR)
def draw_mouth_mask_visualization(
frame: Frame, face: Face, mouth_mask_data: tuple
) -> Frame:
landmarks = face.landmark_2d_106
if landmarks is not None and mouth_mask_data is not None:
mask, mouth_cutout, (min_x, min_y, max_x, max_y), lower_lip_polygon = (
mouth_mask_data
)
vis_frame = frame.copy()
# Draw the lower lip polygon
cv2.polylines(vis_frame, [lower_lip_polygon], True, (0, 255, 0), 2)
# Add labels
cv2.putText(
vis_frame,
"Lower Mouth Mask",
(min_x, min_y - 10),
cv2.FONT_HERSHEY_SIMPLEX,
0.5,
(255, 255, 255),
1,
)
return vis_frame
return frame

219
modules/ui.py
View File

@ -215,6 +215,10 @@ def save_switch_states():
"live_resizable": modules.globals.live_resizable,
"fp_ui": modules.globals.fp_ui,
"show_fps": modules.globals.show_fps,
"mouth_mask": modules.globals.mouth_mask,
"show_mouth_mask_box": modules.globals.show_mouth_mask_box,
"mask_down_size": modules.globals.mask_down_size,
"mask_feather_ratio": modules.globals.mask_feather_ratio,
}
with open("switch_states.json", "w") as f:
json.dump(switch_states, f)
@ -230,13 +234,17 @@ def load_switch_states():
modules.globals.many_faces = switch_states.get("many_faces", False)
modules.globals.map_faces = switch_states.get("map_faces", False)
modules.globals.color_correction = switch_states.get("color_correction", False)
modules.globals.nsfw_filter = switch_states.get(
"nsfw_filter", False
) # Add this line
modules.globals.nsfw_filter = switch_states.get("nsfw_filter", False)
modules.globals.live_mirror = switch_states.get("live_mirror", False)
modules.globals.live_resizable = switch_states.get("live_resizable", False)
modules.globals.fp_ui = switch_states.get("fp_ui", {"face_enhancer": False})
modules.globals.show_fps = switch_states.get("show_fps", False)
modules.globals.mouth_mask = switch_states.get("mouth_mask", False)
modules.globals.show_mouth_mask_box = switch_states.get(
"show_mouth_mask_box", False
)
modules.globals.mask_down_size = switch_states.get("mask_down_size", 0.5)
modules.globals.mask_feather_ratio = switch_states.get("mask_feather_ratio", 8)
except FileNotFoundError:
# If the file doesn't exist, use default values
pass
@ -268,7 +276,7 @@ def create_root(
root.configure(bg="#1a1a1a")
root.protocol("WM_DELETE_WINDOW", lambda: destroy())
root.resizable(True, True)
root.attributes("-alpha", 1.0) # Set window opacity to fully opaque
root.attributes("-alpha", 1.0)
main_frame = ctk.CTkFrame(root, fg_color="#1a1a1a")
main_frame.pack(fill="both", expand=True, padx=20, pady=20)
@ -331,19 +339,23 @@ def create_root(
options_frame = ctk.CTkFrame(main_frame, fg_color="#2a2d2e", corner_radius=15)
options_frame.grid(row=1, column=0, columnspan=3, padx=10, pady=10, sticky="nsew")
# Create a single column for options, centered
options_column = ctk.CTkFrame(options_frame, fg_color="#2a2d2e")
options_column.pack(expand=True)
# Create two columns for options
left_column = ctk.CTkFrame(options_frame, fg_color="#2a2d2e")
left_column.pack(side="left", padx=20, expand=True)
# Switches
right_column = ctk.CTkFrame(options_frame, fg_color="#2a2d2e")
right_column.pack(side="right", padx=20, expand=True)
# Left column controls
keep_fps_value = ctk.BooleanVar(value=modules.globals.keep_fps)
keep_fps_checkbox = ctk.CTkSwitch(
options_column,
left_column,
text="Keep fps",
variable=keep_fps_value,
cursor="hand2",
command=lambda: setattr(
modules.globals, "keep_fps", not modules.globals.keep_fps
command=lambda: (
setattr(modules.globals, "keep_fps", keep_fps_value.get()),
save_switch_states(),
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
@ -352,12 +364,13 @@ def create_root(
keep_frames_value = ctk.BooleanVar(value=modules.globals.keep_frames)
keep_frames_switch = ctk.CTkSwitch(
options_column,
left_column,
text="Keep frames",
variable=keep_frames_value,
cursor="hand2",
command=lambda: setattr(
modules.globals, "keep_frames", keep_frames_value.get()
command=lambda: (
setattr(modules.globals, "keep_frames", keep_frames_value.get()),
save_switch_states(),
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
@ -366,11 +379,14 @@ def create_root(
enhancer_value = ctk.BooleanVar(value=modules.globals.fp_ui["face_enhancer"])
enhancer_switch = ctk.CTkSwitch(
options_column,
left_column,
text="Face Enhancer",
variable=enhancer_value,
cursor="hand2",
command=lambda: update_tumbler("face_enhancer", enhancer_value.get()),
command=lambda: (
update_tumbler("face_enhancer", enhancer_value.get()),
save_switch_states(),
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
)
@ -378,11 +394,14 @@ def create_root(
keep_audio_value = ctk.BooleanVar(value=modules.globals.keep_audio)
keep_audio_switch = ctk.CTkSwitch(
options_column,
left_column,
text="Keep audio",
variable=keep_audio_value,
cursor="hand2",
command=lambda: setattr(modules.globals, "keep_audio", keep_audio_value.get()),
command=lambda: (
setattr(modules.globals, "keep_audio", keep_audio_value.get()),
save_switch_states(),
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
)
@ -390,24 +409,47 @@ def create_root(
many_faces_value = ctk.BooleanVar(value=modules.globals.many_faces)
many_faces_switch = ctk.CTkSwitch(
options_column,
left_column,
text="Many faces",
variable=many_faces_value,
cursor="hand2",
command=lambda: setattr(modules.globals, "many_faces", many_faces_value.get()),
command=lambda: (
setattr(modules.globals, "many_faces", many_faces_value.get()),
save_switch_states(),
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
)
many_faces_switch.pack(pady=5, anchor="w")
mask_down_size_label = ctk.CTkLabel(
left_column, text="Mask Size:", font=("Roboto", 12)
)
mask_down_size_label.pack(pady=(5, 0), anchor="w")
mask_down_size_slider = ctk.CTkSlider(
left_column,
from_=0.1,
to=1.0,
number_of_steps=9,
command=lambda value: [
setattr(modules.globals, "mask_down_size", value),
save_switch_states(),
],
)
mask_down_size_slider.set(modules.globals.mask_down_size)
mask_down_size_slider.pack(pady=(0, 5), fill="x")
# Right column controls
color_correction_value = ctk.BooleanVar(value=modules.globals.color_correction)
color_correction_switch = ctk.CTkSwitch(
options_column,
right_column,
text="Fix Blueish Cam",
variable=color_correction_value,
cursor="hand2",
command=lambda: setattr(
modules.globals, "color_correction", color_correction_value.get()
command=lambda: (
setattr(modules.globals, "color_correction", color_correction_value.get()),
save_switch_states(),
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
@ -416,83 +458,83 @@ def create_root(
map_faces = ctk.BooleanVar(value=modules.globals.map_faces)
map_faces_switch = ctk.CTkSwitch(
options_column,
right_column,
text="Map faces",
variable=map_faces,
cursor="hand2",
command=lambda: setattr(modules.globals, "map_faces", map_faces.get()),
command=lambda: (
setattr(modules.globals, "map_faces", map_faces.get()),
save_switch_states(),
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
)
map_faces_switch.pack(pady=5, anchor="w")
# Add the Show FPS switch
show_fps_value = ctk.BooleanVar(value=modules.globals.show_fps)
show_fps_switch = ctk.CTkSwitch(
options_column,
right_column,
text="Show FPS",
variable=show_fps_value,
cursor="hand2",
command=lambda: setattr(modules.globals, "show_fps", show_fps_value.get()),
command=lambda: (
setattr(modules.globals, "show_fps", show_fps_value.get()),
save_switch_states(),
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
)
show_fps_switch.pack(pady=5, anchor="w")
keep_fps_checkbox.configure(
mouth_mask_var = ctk.BooleanVar(value=modules.globals.mouth_mask)
mouth_mask_switch = ctk.CTkSwitch(
right_column,
text="Mouth Mask",
variable=mouth_mask_var,
cursor="hand2",
command=lambda: (
setattr(modules.globals, "keep_fps", keep_fps_value.get()),
setattr(modules.globals, "mouth_mask", mouth_mask_var.get()),
save_switch_states(),
)
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
)
keep_frames_switch.configure(
mouth_mask_switch.pack(pady=5, anchor="w")
show_mouth_mask_box_var = ctk.BooleanVar(value=modules.globals.show_mouth_mask_box)
show_mouth_mask_box_switch = ctk.CTkSwitch(
right_column,
text="Show Mouth Box",
variable=show_mouth_mask_box_var,
cursor="hand2",
command=lambda: (
setattr(modules.globals, "keep_frames", keep_frames_value.get()),
setattr(
modules.globals, "show_mouth_mask_box", show_mouth_mask_box_var.get()
),
save_switch_states(),
)
),
progress_color="#3a7ebf",
font=("Roboto", 14, "bold"),
)
enhancer_switch.configure(
command=lambda: (
update_tumbler("face_enhancer", enhancer_value.get()),
show_mouth_mask_box_switch.pack(pady=5, anchor="w")
mask_feather_label = ctk.CTkLabel(
right_column, text="Mask Feather:", font=("Roboto", 12)
)
mask_feather_label.pack(pady=(5, 0), anchor="w")
mask_feather_slider = ctk.CTkSlider(
right_column,
from_=4,
to=16,
number_of_steps=12,
command=lambda value: [
setattr(modules.globals, "mask_feather_ratio", int(value)),
save_switch_states(),
)
)
keep_audio_switch.configure(
command=lambda: (
setattr(modules.globals, "keep_audio", keep_audio_value.get()),
save_switch_states(),
)
)
many_faces_switch.configure(
command=lambda: (
setattr(modules.globals, "many_faces", many_faces_value.get()),
save_switch_states(),
)
)
color_correction_switch.configure(
command=lambda: (
setattr(modules.globals, "color_correction", color_correction_value.get()),
save_switch_states(),
)
)
# nsfw_switch.configure( # Uncomment if you're using the NSFW filter
# command=lambda: (
# setattr(modules.globals, "nsfw_filter", nsfw_value.get()),
# save_switch_states(),
# )
# )
map_faces_switch.configure(
command=lambda: (
setattr(modules.globals, "map_faces", map_faces.get()),
save_switch_states(),
)
)
show_fps_switch.configure(
command=lambda: (
setattr(modules.globals, "show_fps", show_fps_value.get()),
save_switch_states(),
)
],
)
mask_feather_slider.set(modules.globals.mask_feather_ratio)
mask_feather_slider.pack(pady=(0, 5), fill="x")
button_frame = ctk.CTkFrame(main_frame, fg_color="#1a1a1a")
button_frame.grid(row=2, column=0, columnspan=3, padx=10, pady=10, sticky="nsew")
@ -515,14 +557,21 @@ def create_root(
start_button.pack(side="left", padx=10, expand=True)
preview_button = ModernButton(
button_frame,
text="Preview",
cursor="hand2",
command=lambda: toggle_preview(),
button_frame, text="Preview", cursor="hand2", command=lambda: toggle_preview()
)
preview_button.pack(side="left", padx=10, expand=True)
# --- Camera Selection ---
stop_button = ModernButton(
button_frame,
text="Destroy",
cursor="hand2",
command=lambda: destroy(),
fg_color="#f44336",
hover_color="#d32f2f",
)
stop_button.pack(side="left", padx=10, expand=True)
# Camera Selection
camera_frame = ctk.CTkFrame(main_frame, fg_color="#2a2d2e", corner_radius=15)
camera_frame.grid(row=3, column=0, columnspan=3, padx=10, pady=(0, 10), sticky="ew")
@ -568,17 +617,6 @@ def create_root(
],
)
live_button.pack(side="left", padx=10, pady=10)
# --- End Camera Selection ---
stop_button = ModernButton(
button_frame,
text="Destroy",
cursor="hand2",
command=lambda: destroy(),
fg_color="#f44336",
hover_color="#d32f2f",
)
stop_button.pack(side="left", padx=10, expand=True)
status_label = ModernLabel(
main_frame, text=None, justify="center", fg_color="#1a1a1a"
@ -597,7 +635,6 @@ def create_root(
text_color="#1870c4",
)
donate_label.pack(side="left", expand=True)
donate_label.bind(
"<Button>", lambda event: webbrowser.open("https://paypal.me/hacksider")
)