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| import gradio as gr | |
| import os | |
| import cv2 | |
| import numpy as np | |
| from ultralytics import YOLO | |
| from tqdm import tqdm | |
| # Pre‐load models from your repo root | |
| extract_model = YOLO("best.pt") | |
| detect_model = YOLO("yolov8n.pt") | |
| def process_video(video_path): | |
| os.makedirs("frames", exist_ok=True) | |
| # Step 1: Extract board‐only frames | |
| cap = cv2.VideoCapture(video_path) | |
| frames, idx = [], 0 | |
| while cap.isOpened(): | |
| ret, frame = cap.read() | |
| if not ret: break | |
| results = extract_model(frame) | |
| labels = [extract_model.names[int(c)] for c in results[0].boxes.cls.cpu().numpy()] | |
| if "board" in labels and "person" not in labels: | |
| frames.append(frame) | |
| cv2.imwrite(f"frames/frame_{idx:04d}.jpg", frame) | |
| idx += 1 | |
| cap.release() | |
| if not frames: | |
| raise RuntimeError("No frames with only 'board' and no 'person' found.") | |
| # Step 2: Align | |
| def align_frames(ref, tgt): | |
| orb = cv2.ORB_create(500) | |
| k1, d1 = orb.detectAndCompute(ref, None) | |
| k2, d2 = orb.detectAndCompute(tgt, None) | |
| if d1 is None or d2 is None: return None | |
| matcher = cv2.BFMatcher(cv2.NORM_HAMMING, crossCheck=True) | |
| matches = matcher.match(d1, d2) | |
| if len(matches) < 10: return None | |
| src = np.float32([k2[m.trainIdx].pt for m in matches]).reshape(-1,1,2) | |
| dst = np.float32([k1[m.queryIdx].pt for m in matches]).reshape(-1,1,2) | |
| H, _ = cv2.findHomography(src, dst, cv2.RANSAC) | |
| return None if H is None else cv2.warpPerspective(tgt, H, (ref.shape[1], ref.shape[0])) | |
| base = frames[0]; aligned = [base] | |
| for f in tqdm(frames[1:], desc="Aligning"): | |
| a = align_frames(base, f) | |
| if a is not None: aligned.append(a) | |
| if not aligned: | |
| raise RuntimeError("Alignment failed for all frames.") | |
| # Step 3: Median‐fuse | |
| stack = np.stack(aligned, axis=0).astype(np.float32) | |
| median_board = np.median(stack, axis=0).astype(np.uint8) | |
| cv2.imwrite("clean_board.jpg", median_board) | |
| # Step 4: Mask persons & selective fuse | |
| masks, sum_img = [], np.zeros_like(aligned[0], dtype=np.float32) | |
| count = np.zeros(aligned[0].shape[:2], dtype=np.float32) | |
| for f in tqdm(aligned, desc="Masking persons"): | |
| res = detect_model(f, verbose=False) | |
| m = np.zeros(f.shape[:2], dtype=np.uint8) | |
| for box in res[0].boxes: | |
| if detect_model.names[int(box.cls)] == "person": | |
| x1,y1,x2,y2 = map(int, box.xyxy[0]) | |
| cv2.rectangle(m, (x1,y1), (x2,y2), 255, -1) | |
| inv = cv2.bitwise_not(m) | |
| masked = cv2.bitwise_and(f, f, mask=inv) | |
| sum_img += masked.astype(np.float32) | |
| count += (inv>0).astype(np.float32) | |
| count[count==0] = 1 | |
| selective = (sum_img / count[:,:,None]).astype(np.uint8) | |
| cv2.imwrite("fused_board_selective.jpg", selective) | |
| # Step 5: Sharpen | |
| blur = cv2.GaussianBlur(selective, (5,5), 0) | |
| sharp = cv2.addWeighted(selective, 1.5, blur, -0.5, 0) | |
| cv2.imwrite("sharpened_board_color.jpg", sharp) | |
| return "clean_board.jpg", "fused_board_selective.jpg", "sharpened_board_color.jpg" | |
| demo = gr.Interface( | |
| fn=process_video, | |
| inputs=[ | |
| gr.File( | |
| label="Upload Classroom Video (.mp4)", | |
| file_types=['.mp4'], | |
| file_count="single", | |
| type="filepath" | |
| ) | |
| ], | |
| outputs=[ | |
| gr.Image(label="Median-Fused Clean Board"), | |
| gr.Image(label="Selective Fusion (No Persons)"), | |
| gr.Image(label="Sharpened Final Board") | |
| ], | |
| title="📹 Classroom Board Cleaner", | |
| description=( | |
| "1️⃣ Upload your classroom video (.mp4)\n" | |
| "2️⃣ Automatic extraction, alignment, masking, fusion & sharpening\n" | |
| "3️⃣ View three stages of the cleaned board output" | |
| ) | |
| ) | |
| if __name__ == "__main__": | |
| demo.launch() | |