scripts/run_detection.py

import os
import cv2
import time
import argparse
import numpy as np

# UPDATED: Use the factory function and import from the new location
from uniface.detection import create_detector
from uniface.visualization import draw_detections


def run_inference(detector, image_path: str, vis_threshold: float = 0.6, save_dir: str = "outputs"):
    """
    Run face detection on a single image.

    Args:
        detector: Initialized face detector.
        image_path (str): Path to input image.
        vis_threshold (float): Threshold for drawing detections.
        save_dir (str): Directory to save output image.
    """
    image = cv2.imread(image_path)
    if image is None:
        print(f"❌ Error: Failed to load image from '{image_path}'")
        return

    # 1. Get the list of face dictionaries from the detector
    faces = detector.detect(image)
    
    if faces:
        # 2. Unpack the data into separate lists
        bboxes = [face['bbox'] for face in faces]
        scores = [face['confidence'] for face in faces]
        landmarks = [face['landmarks'] for face in faces]

        # 3. Pass the unpacked lists to the drawing function
        draw_detections(image, bboxes, scores, landmarks, vis_threshold=0.6)


    os.makedirs(save_dir, exist_ok=True)
    output_path = os.path.join(save_dir, f"{os.path.splitext(os.path.basename(image_path))[0]}_out.jpg")
    cv2.imwrite(output_path, image)
    print(f"✅ Output saved at: {output_path}")


def main():
    parser = argparse.ArgumentParser(description="Run face detection on an image.")
    parser.add_argument("--image", type=str, required=True, help="Path to the input image")
    parser.add_argument(
        "--method",
        type=str,
        default="retinaface",
        choices=['retinaface', 'scrfd'],
        help="Detection method to use."
    )
    parser.add_argument("--threshold", type=float, default=0.6, help="Visualization confidence threshold")
    parser.add_argument("--iterations", type=int, default=1, help="Number of inference runs for benchmarking")
    parser.add_argument("--save_dir", type=str, default="outputs", help="Directory to save output images")

    args = parser.parse_args()

    print(f"Initializing detector: {args.method}")
    detector = create_detector(method=args.method)

    avg_time = 0
    for i in range(args.iterations):
        start = time.time()
        run_inference(detector, args.image, args.threshold, args.save_dir)
        elapsed = time.time() - start
        print(f"[{i + 1}/{args.iterations}] ⏱️ Inference time: {elapsed:.4f} seconds")
        if i >= 0:  # Avoid counting the first run if it includes model loading time
            avg_time += elapsed

    if args.iterations > 1:
        # Adjust average calculation to exclude potential first-run overhead
        effective_iterations = max(1, args.iterations)
        print(
            f"\n🔥 Average inference time over {effective_iterations} runs: {avg_time / effective_iterations:.4f} seconds")


if __name__ == "__main__":
    main()
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00			`import os`
			`import cv2`
			`import time`
			`import argparse`
			`import numpy as np`

feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`# UPDATED: Use the factory function and import from the new location`
			`from uniface.detection import create_detector`
			`from uniface.visualization import draw_detections`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00

feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`def run_inference(detector, image_path: str, vis_threshold: float = 0.6, save_dir: str = "outputs"):`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00			`"""`
			`Run face detection on a single image.`

			`Args:`
feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`detector: Initialized face detector.`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00			`image_path (str): Path to input image.`
			`vis_threshold (float): Threshold for drawing detections.`
			`save_dir (str): Directory to save output image.`
			`"""`
			`image = cv2.imread(image_path)`
			`if image is None:`
			`print(f"❌ Error: Failed to load image from '{image_path}'")`
			`return`

feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`# 1. Get the list of face dictionaries from the detector`
			`faces = detector.detect(image)`

			`if faces:`
			`# 2. Unpack the data into separate lists`
			`bboxes = [face['bbox'] for face in faces]`
			`scores = [face['confidence'] for face in faces]`
			`landmarks = [face['landmarks'] for face in faces]`

			`# 3. Pass the unpacked lists to the drawing function`
			`draw_detections(image, bboxes, scores, landmarks, vis_threshold=0.6)`

feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00
			`os.makedirs(save_dir, exist_ok=True)`
			`output_path = os.path.join(save_dir, f"{os.path.splitext(os.path.basename(image_path))[0]}_out.jpg")`
			`cv2.imwrite(output_path, image)`
			`print(f"✅ Output saved at: {output_path}")`


			`def main():`
feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`parser = argparse.ArgumentParser(description="Run face detection on an image.")`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00			`parser.add_argument("--image", type=str, required=True, help="Path to the input image")`
feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`parser.add_argument(`
			`"--method",`
			`type=str,`
			`default="retinaface",`
			`choices=['retinaface', 'scrfd'],`
			`help="Detection method to use."`
			`)`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00			`parser.add_argument("--threshold", type=float, default=0.6, help="Visualization confidence threshold")`
			`parser.add_argument("--iterations", type=int, default=1, help="Number of inference runs for benchmarking")`
			`parser.add_argument("--save_dir", type=str, default="outputs", help="Directory to save output images")`

			`args = parser.parse_args()`

feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`print(f"Initializing detector: {args.method}")`
			`detector = create_detector(method=args.method)`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00
			`avg_time = 0`
			`for i in range(args.iterations):`
			`start = time.time()`
feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`run_inference(detector, args.image, args.threshold, args.save_dir)`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00			`elapsed = time.time() - start`
			`print(f"[{i + 1}/{args.iterations}] ⏱️ Inference time: {elapsed:.4f} seconds")`
feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`if i >= 0: # Avoid counting the first run if it includes model loading time`
			`avg_time += elapsed`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00
			`if args.iterations > 1:`
feat: Update recognition, landmark modules 2025-07-02 18:52:28 +09:00			`# Adjust average calculation to exclude potential first-run overhead`
			`effective_iterations = max(1, args.iterations)`
			`print(`
			`f"\n🔥 Average inference time over {effective_iterations} runs: {avg_time / effective_iterations:.4f} seconds")`
feat: Add model name signature and several more updates 2025-03-26 11:55:56 +09:00

			`if __name__ == "__main__":`
			`main()`