void-with-150epoch

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void-with-150epoch / app.py

SakshiRathi77

Update app.py

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	import gradio as gr
	import spaces
	from huggingface_hub import hf_hub_download


	# def download_models(model_id):
	# hf_hub_download("SakshiRathi77/void-space-detection/weights", filename=f"{model_id}", local_dir=f"./")
	# return f"./{model_id}"


	def yolov9_inference(img_path, model_id, image_size, conf_threshold, iou_threshold):
	"""
	Load a YOLOv9 model, configure it, perform inference on an image, and optionally adjust
	the input size and apply test time augmentation.

	:param model_path: Path to the YOLOv9 model file.
	:param conf_threshold: Confidence threshold for NMS.
	:param iou_threshold: IoU threshold for NMS.
	:param img_path: Path to the image file.
	:param size: Optional, input size for inference.
	:return: A tuple containing the detections (boxes, scores, categories) and the results object for further actions like displaying.
	"""
	# Import YOLOv9
	import yolov9

	# Load the model
	# model_path = download_models()
	model = yolov9.load(best.pt, device="cuda:0")

	# Set model parameters
	model.conf = conf_threshold
	model.iou = iou_threshold

	# Perform inference
	results = model(img_path, size=image_size)

	# Optionally, show detection bounding boxes on image
	output = results.render()

	return output[0]


	def app():
	with gr.Blocks():
	with gr.Row():
	with gr.Column():
	img_path = gr.Image(type="filepath", label="Image")
	model_path = "best.pt"
	image_size = gr.Slider(
	label="Image Size",
	minimum=320,
	maximum=1280,
	step=32,
	value=640,
	)
	conf_threshold = gr.Slider(
	label="Confidence Threshold",
	minimum=0.1,
	maximum=1.0,
	step=0.1,
	value=0.4,
	)
	iou_threshold = gr.Slider(
	label="IoU Threshold",
	minimum=0.1,
	maximum=1.0,
	step=0.1,
	value=0.5,
	)
	yolov9_infer = gr.Button(value="Inference")

	with gr.Column():
	output_numpy = gr.Image(type="numpy",label="Output")

	yolov9_infer.click(
	fn=yolov9_inference,
	inputs=[
	img_path,
	model_path,
	image_size,
	conf_threshold,
	iou_threshold,
	],
	outputs=[output_numpy],
	)




	gradio_app = gr.Blocks()
	with gradio_app:
	gr.HTML(
	"""
	<h1 style='text-align: center'>
	YOLOv9: Learning What You Want to Learn Using Programmable Gradient Information
	</h1>
	""")
	gr.HTML(
	"""
	<h3 style='text-align: center'>
	Follow me for more!
	</h3>
	""")
	with gr.Row():
	with gr.Column():
	app()

	gradio_app.launch(debug=True)

	# make sure you have the following dependencies
	# import gradio as gr
	# import torch
	# from torchvision import transforms
	# from PIL import Image

	# # Load the YOLOv9 model
	# model_path = "best.pt" # Replace with the path to your YOLOv9 model
	# model = torch.load(model_path)

	# # Define preprocessing transforms
	# preprocess = transforms.Compose([
	# transforms.Resize((640, 640)), # Resize image to model input size
	# transforms.ToTensor(), # Convert image to tensor
	# ])

	# # Define a function to perform inference
	# def detect_void(image):
	# # Preprocess the input image
	# image = Image.fromarray(image)
	# image = preprocess(image).unsqueeze(0) # Add batch dimension

	# # Perform inference
	# with torch.no_grad():
	# output = model(image)

	# # Post-process the output if needed
	# # For example, draw bounding boxes on the image

	# # Convert the image back to numpy array
	# # and return the result
	# return output.squeeze().numpy()

	# # Define Gradio interface components
	# input_image = gr.inputs.Image(shape=(640, 640), label="Input Image")
	# output_image = gr.outputs.Image(label="Output Image")

	# # Create Gradio interface
	# gr.Interface(fn=detect_void, inputs=input_image, outputs=output_image, title="Void Detection App").launch()