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/__pycache__/
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First Commit
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### Start
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See the `conf.py`:
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```
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scheme = 'B'
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schemeA = {
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'image_name': 'd1.jpg',
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'is_lama': False,
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'inpaint_radius': 3,
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'is_gaussianblur': True,
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'gaussian_radius': 9 # Odd number
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}
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schemeB = {
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'image_name': 'd1.jpg',
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'gaussian_radius': 51, # Odd number
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'is_use_fill_color': False,
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'fill_color': [227, 234, 244]
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}
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```
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You can choose scheme whcih you want.
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The A is useof openCV inpaint or model(LaMa); And B is useof openCV but no inpaint.
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When you finished the conf, run `python main.py`.
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scheme = 'B'
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schemeA = {
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'image_name': 'd1.jpg',
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'is_lama': False,
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'inpaint_radius': 3,
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'is_gaussianblur': True,
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'gaussian_radius': 9 # Odd number
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}
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schemeB = {
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'image_name': 'd2.jpg',
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'gaussian_radius': 51, # Odd number
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'is_use_fill_color': False,
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'fill_color': [227, 234, 244]
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}
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import conf
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import subprocess
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scheme = conf.scheme
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def run_script(script_name):
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try:
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subprocess.run(['python', script_name], check=True)
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print(f"{script_name} success!")
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except subprocess.CalledProcessError as e:
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print(f'Run {script_name} error: {e}')
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except FileNotFoundError:
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print(f'Can not found: {script_name}')
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if __name__ == '__main__':
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if scheme == 'A':
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run_script("schemeA.py")
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elif scheme == 'B':
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run_script("schemeB.py")
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else:
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print('请检查配置文件conf.py中的scheme字段')
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numpy==2.2.4
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opencv_python==4.11.0.86
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opencv_python_headless==4.11.0.86
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Pillow==9.5.0
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Pillow==11.1.0
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simple_lama_inpainting==0.1.2
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ultralytics==8.3.85
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import cv2
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from PIL import Image
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import numpy as np
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from ultralytics import YOLO
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from simple_lama_inpainting import SimpleLama
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import conf
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image_name = conf.schemeA['image_name']
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is_lama = conf.schemeA['is_lama']
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inpaint_radius = conf.schemeA['inpaint_radius']
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is_gaussianblur = conf.schemeA['is_gaussianblur']
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gaussian_radius = conf.schemeA['gaussian_radius']
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model = YOLO('yolov5s.pt')
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if is_lama == True:
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simple_lama = SimpleLama()
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def imwrite(image):
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output_path = 'outputs/' + 'output_lama_A_' + image_name if is_lama == True else 'outputs/' + 'output_A_' + image_name
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cv2.imwrite(output_path, image)
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print(f'Person has been removed, and the processed image has been saved in ./{output_path}')
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def use_lama(box, image, mask):
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if is_gaussianblur == True:
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mask_blurred = cv2.GaussianBlur(mask, (gaussian_radius, gaussian_radius), 0)
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inpainted_image = simple_lama(image, mask_blurred)
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else:
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inpainted_image = simple_lama(image, mask)
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if isinstance(inpainted_image, Image.Image):
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inpainted_image = np.array(inpainted_image) # make PIL.Image to numpy
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inpainted_image_bgr = cv2.cvtColor(inpainted_image, cv2.COLOR_RGB2BGR) # RGB to BGR
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imwrite(inpainted_image_bgr)
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def use_opencv(box, image, mask):
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if is_gaussianblur == True:
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mask_blurred = cv2.GaussianBlur(mask, (gaussian_radius, gaussian_radius), 0)
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inpainted_image = cv2.inpaint(image, mask_blurred, inpaintRadius=inpaint_radius, flags=cv2.INPAINT_TELEA)
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mask_edges = cv2.Canny(mask_blurred, 100, 200)
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inpainted_image = cv2.inpaint(inpainted_image, mask_edges, inpaintRadius=inpaint_radius, flags=cv2.INPAINT_TELEA)
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else:
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inpainted_image = cv2.inpaint(image, mask, inpaintRadius=inpaint_radius, flags=cv2.INPAINT_TELEA)
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imwrite(inpainted_image)
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def inpaint_mask(box, image, mask):
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if is_lama == True:
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use_lama(box, image, mask)
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else:
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use_opencv(box, image, mask)
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def get_mask(box):
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x1, y1, x2, y2 = map(int, box.xyxy[0])
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mask = np.zeros(image.shape[:2], dtype=np.uint8)
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mask[y1:y2, x1:x2] = 255
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return mask
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def detect_person(image, box):
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if model.names[int(box.cls)] == 'person':
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mask = get_mask(box)
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inpaint_mask(box, image, mask)
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def detect_results(results, image):
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for result in results:
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boxes = result.boxes
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for box in boxes:
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detect_person(image, box)
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if __name__ == '__main__':
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image = cv2.imread('./images/' + image_name)
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if is_lama == True:
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image = cv2.cvtColor(image, cv2.COLOR_BGR2RGB) # SimpleLama need to RGB
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results = model(image)
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else:
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results = model(image)
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detect_results(results, image)
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+69
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import cv2
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import numpy as np
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from ultralytics import YOLO
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import conf
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image_name = conf.schemeB['image_name']
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gaussian_radius = conf.schemeB['gaussian_radius']
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is_use_fill_color = conf.schemeB['is_use_fill_color']
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fill_color_c = conf.schemeB['fill_color']
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model = YOLO('yolov5s.pt')
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def imwrite(image):
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output_path = 'outputs/output_B_' + image_name
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cv2.imwrite(output_path, image)
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print(f'Person has been removed, and the processed image has been saved in ./{output_path}')
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def get_blended_image(image, blurred_mask):
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fill_color = None
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if is_use_fill_color:
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fill_color = fill_color_c
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else:
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mean_color = np.mean(image, axis=0)
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fill_color = mean_color
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fill_image = np.zeros_like(image)
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fill_image[:] = fill_color
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blended_image = (image * (1 - blurred_mask[..., np.newaxis]) +
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fill_image * blurred_mask[..., np.newaxis]).astype(np.uint8)
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return blended_image
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def detect_person(image, box):
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if model.names[int(box.cls)] == 'person':
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x1, y1, x2, y2 = map(int, box.xyxy[0])
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mask = np.zeros(image.shape[:2], dtype=np.uint8)
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mask[y1:y2, x1:x2] = 255
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rgb_image = cv2.cvtColor(image, cv2.COLOR_BGR2RGB) # BGR to RGB
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blurred_mask = cv2.GaussianBlur(mask, (gaussian_radius, gaussian_radius), 0)
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blurred_mask = blurred_mask / 255.0
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blended_image = get_blended_image(rgb_image, blurred_mask)
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bgr_image = cv2.cvtColor(blended_image, cv2.COLOR_RGB2BGR) # RGB to BGR
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imwrite(bgr_image)
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def detect_results(results, image):
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for result in results:
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boxes = result.boxes
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for box in boxes:
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detect_person(image, box)
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if __name__ == '__main__':
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image = cv2.imread('./images/' + image_name)
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results = model(image)
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detect_results(results, image)
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