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import numpy as np
import pandas as pd
import json
from PIL import Image
from insightface.app import FaceAnalysis
from insightface.model_zoo import get_model
from generate import generate_face_image
import os
import shutil
from tqdm import tqdm
import os
import cv2
import json
import numpy as np
import pandas as pd
from PIL import Image
from tqdm import tqdm
from concurrent.futures import ThreadPoolExecutor
from insightface.app import FaceAnalysis
from insightface.model_zoo import get_model
from concurrent.futures import as_completed
def face_swap_with_csv_info(
frame: np.ndarray,
face_info: dict,
src_face,
inswapper_model_path: str
) -> np.ndarray:
class FakeFace:
pass
try:
dst_face = FakeFace()
dst_face.bbox = [face_info["x1"], face_info["y1"], face_info["x2"], face_info["y2"]]
# Load landmarks
if "landmark_2d_106" in face_info and face_info["landmark_2d_106"]:
landmarks = json.loads(face_info["landmark_2d_106"])
elif "landmarks" in face_info and face_info["landmarks"]:
landmarks = json.loads(face_info["landmarks"])
else:
print("β No landmarks found in CSV row.")
return frame
dst_face.landmark_2d_106 = np.array(landmarks)
dst_face.kps = dst_face.landmark_2d_106
# Embeddings (optional)
dst_face.embedding = np.array(json.loads(face_info["embedding"])) if "embedding" in face_info and face_info["embedding"] else np.zeros((512,))
dst_face.normed_embedding = np.array(json.loads(face_info["normed_embedding"])) if "normed_embedding" in face_info and face_info["normed_embedding"] else np.zeros((512,))
except KeyError as e:
print(f"β Missing key in CSV row: {e}")
return frame
# Load and prepare swapper
inswapper = get_model(inswapper_model_path, providers=["CPUExecutionProvider"])
try:
swapped = inswapper.get(frame, dst_face, src_face)
return swapped
except Exception as e:
print(f"β Face swap failed: {e}")
return frame
def face_swap_on_frame_folder(
frame_folder: str,
csv_path: str,
generated_image_path: str,
output_folder: str,
inswapper_model_path: str = "models/faceswap/inswapper_128.onnx"
) -> None:
os.makedirs(output_folder, exist_ok=True)
# Load generated face
generated_face_pil = generated_image_path.convert("RGB")
generated_face_np = np.array(generated_face_pil)
# Prepare FaceAnalysis for source face (generated face)
face_analyser = FaceAnalysis(name="buffalo_l", providers=["CPUExecutionProvider"])
face_analyser.prepare(ctx_id=0, det_size=(640, 640), det_thresh=0.1)
embedding_model = get_model("models/buffalo_l/w600k_r50.onnx", providers=["CPUExecutionProvider"])
embedding_model.prepare(ctx_id=0)
face_analyser.models["embedding"] = embedding_model
src_faces = face_analyser.get(generated_face_np)
if not src_faces:
print("β No face detected in generated face image.")
return
src_face = src_faces[0]
# Load swapper model
swapper = get_model(inswapper_model_path, providers=["CPUExecutionProvider"])
# Load detection CSV
df = pd.read_csv(csv_path)
if df.empty:
print("β CSV is empty.")
return
grouped = df.groupby("frame")
for frame_id, group in grouped:
frame_path_jpg = os.path.join(frame_folder, f"{frame_id}.jpg")
frame_path_png = os.path.join(frame_folder, f"{frame_id}.png")
frame_path = frame_path_jpg if os.path.exists(frame_path_jpg) else frame_path_png
if not os.path.exists(frame_path):
print(f"β οΈ Frame not found: {frame_path}")
continue
frame = cv2.imread(frame_path)
if frame is None:
print(f"β οΈ Could not read frame {frame_id}")
continue
for i, row in group.iterrows():
# Rebuild destination face
class FakeFace: pass
dst_face = FakeFace()
dst_face.bbox = [row["x1"], row["y1"], row["x2"], row["y2"]]
try:
landmarks = json.loads(row.get("landmark_2d_106", row.get("landmarks", "[]")))
if not landmarks:
continue
dst_face.landmark_2d_106 = np.array(landmarks)
dst_face.kps = dst_face.landmark_2d_106
dst_face.embedding = np.array(json.loads(row.get("embedding", "[]"))) if "embedding" in row else np.zeros((512,))
dst_face.normed_embedding = np.array(json.loads(row.get("normed_embedding", "[]"))) if "normed_embedding" in row else np.zeros((512,))
except Exception as e:
print(f"β οΈ Failed parsing row {i}: {e}")
continue
try:
frame = swapper.get(frame, dst_face, src_face)
except Exception as e:
print(f"β Swap failed for frame {frame_id}, face {i}: {e}")
continue
# Save result
out_path = os.path.join(output_folder, os.path.basename(frame_path))
cv2.imwrite(out_path, frame)
print(f"β
Saved swapped frame: {out_path}")
def face_swap_multiple_identities(
frame_folder: str,
identity_csv_paths: list,
generated_images: list,
output_folder: str = None,
inswapper_model_path: str = "models/faceswap/inswapper_128.onnx",
max_workers: int = 4,
streamlit_progress=None,
progress_range=(0, 100)
) -> None:
if output_folder is None:
output_folder = 'output_frames'
os.makedirs(output_folder, exist_ok=True)
os.makedirs(output_folder, exist_ok=True)
# Load InsightFace models
face_analyser = FaceAnalysis(name="buffalo_l", providers=["CPUExecutionProvider"])
face_analyser.prepare(ctx_id=0, det_size=(640, 640), det_thresh=0.1)
embedding_model = get_model("models/buffalo_l/w600k_r50.onnx", providers=["CPUExecutionProvider"])
embedding_model.prepare(ctx_id=0)
face_analyser.models["embedding"] = embedding_model
swapper = get_model(inswapper_model_path, providers=["CPUExecutionProvider"])
# Prepare source faces
src_faces = []
for img in generated_images:
if isinstance(img, str):
img = Image.open(img)
img = img.convert("RGB")
face_np = np.array(img)
faces = face_analyser.get(face_np)
src_faces.append(faces[0] if faces else None)
# Load CSVs and index by frame
identity_dfs = [pd.read_csv(p) for p in identity_csv_paths]
frame_to_faces = {}
for identity_idx, df in enumerate(identity_dfs):
for _, row in df.iterrows():
frame = int(row["frame"])
frame_to_faces.setdefault(frame, []).append((identity_idx, row))
def process_frame(frame_id):
frame_path_jpg = os.path.join(frame_folder, f"{frame_id}.jpg")
frame_path_png = os.path.join(frame_folder, f"{frame_id}.png")
frame_path = frame_path_jpg if os.path.exists(frame_path_jpg) else frame_path_png
if not os.path.exists(frame_path):
return
frame = cv2.imread(frame_path)
if frame is None:
return
for identity_idx, row in frame_to_faces[frame_id]:
src_face = src_faces[identity_idx]
if src_face is None:
continue
class FakeFace: pass
dst_face = FakeFace()
dst_face.bbox = [row["x1"], row["y1"], row["x2"], row["y2"]]
try:
landmarks = json.loads(row.get("landmark_2d_106", row.get("landmarks", "[]")))
if not landmarks:
continue
dst_face.landmark_2d_106 = np.array(landmarks)
dst_face.kps = dst_face.landmark_2d_106
dst_face.embedding = np.array(json.loads(row.get("embedding", "[]"))) if "embedding" in row else np.zeros((512,))
dst_face.normed_embedding = np.array(json.loads(row.get("normed_embedding", "[]"))) if "normed_embedding" in row else np.zeros((512,))
except Exception:
continue
try:
frame = swapper.get(frame, dst_face, src_face)
except Exception:
continue
out_path = os.path.join(output_folder, os.path.basename(frame_path))
cv2.imwrite(out_path, frame)
frame_ids = sorted(frame_to_faces.keys())
start_p, end_p = progress_range
total = len(frame_ids)
completed = 0
with ThreadPoolExecutor(max_workers=max_workers) as executor:
futures = {executor.submit(process_frame, fid): fid for fid in frame_ids}
for future in as_completed(futures):
completed += 1
if streamlit_progress:
pct = start_p + int((completed / total) * (end_p - start_p))
streamlit_progress.progress(pct)
def test_faceswap_on_first_frame(
input_video: str,
csv_path: str,
face_index: int = 0,
inswapper_model_path: str = "/Users/sophiemaw/Documents/VASR_NEW/pythonProject/models/faceswap/inswapper_128.onnx",
output_path: str = "swapped_test_frame.jpg"
) -> None:
df = pd.read_csv(csv_path)
if df.empty:
print("β CSV is empty.")
return
row = df.iloc[face_index]
frame_num = int(row["frame"])
cap = cv2.VideoCapture(input_video)
cap.set(cv2.CAP_PROP_POS_FRAMES, frame_num)
ret, frame = cap.read()
cap.release()
if not ret:
print(f"β Could not read frame {frame_num}.")
return
# Prepare face analyser and attach embedding model
face_analyser = FaceAnalysis(name="buffalo_l", providers=["CPUExecutionProvider"])
face_analyser.prepare(ctx_id=0, det_size=(640, 640), det_thresh=0.1)
embedding_model = get_model("models/buffalo_l/w600k_r50.onnx", providers=["CPUExecutionProvider"])
embedding_model.prepare(ctx_id=0)
face_analyser.models["embedding"] = embedding_model
# Loop until a usable generated face is found
attempts = 0
while True:
attempts += 1
gen_face_pil = generate_face_image()
gen_face_np = np.asarray(gen_face_pil.convert("RGB")).astype(np.uint8)
gen_face_np = cv2.resize(gen_face_np, (256, 256))
print(f"π§ Attempt {attempts}: Generated face shape:", gen_face_np.shape)
cv2.imshow("Generated Face", cv2.cvtColor(gen_face_np, cv2.COLOR_RGB2BGR))
cv2.waitKey(500)
try:
src_faces = face_analyser.get(gen_face_np)
except Exception as e:
print("βΌοΈ Face detection failed:", e)
src_faces = []
if src_faces:
print(f"β
Face detected in generated image after {attempts} attempt(s).")
src_face = src_faces[0]
break
else:
print("β Still no face detected after processing.")
cv2.destroyAllWindows()
swapped = face_swap_with_csv_info(
frame=frame,
face_info=row,
src_face=src_face,
inswapper_model_path=inswapper_model_path
)
cv2.imwrite(output_path, swapped)
print(f"β
Swapped frame saved to {output_path}")
if __name__ == "__main__":
csv_path = 'meta_data/test_detections.csv'
input_video = "/Users/sophiemaw/Downloads/CONFIDENTIAL DO NOT SHARE Edna & Paul 29.10.10 Part 2 00.12.46.531.mov"
test_faceswap_on_first_frame(input_video, csv_path)
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