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Update app.py

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	import gradio as gr
	import cv2
	import numpy as np
	import pandas as pd
	import pydicom
	import io
	from PIL import Image

	class DicomAnalyzer:
	def __init__(self):
	self.results = []
	self.circle_diameter = 9
	self.zoom_factor = 1.0
	self.current_image = None
	self.dicom_data = None
	self.display_image = None
	self.marks = [] # Store (x, y, diameter) for each mark
	self.original_image = None
	self.original_display = None
	# Pan position
	self.pan_x = 0
	self.pan_y = 0
	self.max_pan_x = 0
	self.max_pan_y = 0

	def load_dicom(self, file):
	try:
	if file is None:
	return None, "No file uploaded"

	if hasattr(file, 'name'):
	dicom_data = pydicom.dcmread(file.name)
	else:
	dicom_data = pydicom.dcmread(file)

	image = dicom_data.pixel_array.astype(np.float32)

	rescale_slope = getattr(dicom_data, 'RescaleSlope', 1)
	rescale_intercept = getattr(dicom_data, 'RescaleIntercept', 0)
	image = (image * rescale_slope) + rescale_intercept

	self.current_image = image
	self.original_image = image.copy()
	self.dicom_data = dicom_data

	self.display_image = self.normalize_image(image)
	self.original_display = self.display_image.copy()

	# Reset view on new image
	self.reset_view()

	return self.display_image, "DICOM file loaded successfully"
	except Exception as e:
	return None, f"Error loading DICOM file: {str(e)}"

	def normalize_image(self, image):
	try:
	normalized = cv2.normalize(image, None, 0, 255, cv2.NORM_MINMAX).astype(np.uint8)
	if len(normalized.shape) == 2:
	normalized = cv2.cvtColor(normalized, cv2.COLOR_GRAY2RGB)
	return normalized
	except Exception as e:
	print(f"Error normalizing image: {str(e)}")
	return None

	def reset_view(self):
	"""Reset zoom and center the image"""
	self.zoom_factor = 1.0
	self.pan_x = 0
	self.pan_y = 0
	if self.original_display is not None:
	return self.update_display()
	return None

	def zoom_in(self, image):
	"""Increase zoom factor"""
	self.zoom_factor = min(20.0, self.zoom_factor + 0.5)
	return self.update_display()

	def zoom_out(self, image):
	"""Decrease zoom factor"""
	self.zoom_factor = max(1.0, self.zoom_factor - 0.5)
	return self.update_display()

	def update_display(self):
	try:
	if self.original_display is None:
	return None

	# Calculate zoomed size
	height, width = self.original_display.shape[:2]
	new_height = int(height * self.zoom_factor)
	new_width = int(width * self.zoom_factor)

	# Create zoomed image
	zoomed = cv2.resize(self.original_display, (new_width, new_height),
	interpolation=cv2.INTER_CUBIC)

	# Draw marks on the zoomed image
	for x, y, diameter in self.marks:
	# Calculate zoomed coordinates
	zoomed_x = int(x * self.zoom_factor)
	zoomed_y = int(y * self.zoom_factor)
	zoomed_diameter = int(diameter * self.zoom_factor)

	cv2.circle(zoomed,
	(zoomed_x, zoomed_y),
	zoomed_diameter // 2,
	(255, 255, 0), # BGR: Yellow
	2,
	lineType=cv2.LINE_AA)

	# Extract visible portion considering pan
	visible_height = min(height, new_height)
	visible_width = min(width, new_width)

	# Ensure pan values don't exceed bounds
	self.pan_x = min(self.pan_x, max(0, new_width - width))
	self.pan_y = min(self.pan_y, max(0, new_height - height))

	visible = zoomed[
	self.pan_y:self.pan_y + visible_height,
	self.pan_x:self.pan_x + visible_width
	]

	return visible
	except Exception as e:
	print(f"Error updating display: {str(e)}")
	return self.original_display

	def handle_keyboard(self, key):
	"""Handle keyboard inputs for pan"""
	try:
	print(f"Handling key press: {key}") # Debug print
	# Reduce pan amount for finer control
	pan_amount = int(10 * self.zoom_factor)

	if key == 'ArrowLeft':
	self.pan_x = max(0, self.pan_x - pan_amount)
	elif key == 'ArrowRight':
	self.pan_x = min(self.max_pan_x, self.pan_x + pan_amount)
	elif key == 'ArrowUp':
	self.pan_y = max(0, self.pan_y - pan_amount)
	elif key == 'ArrowDown':
	self.pan_y = min(self.max_pan_y, self.pan_y + pan_amount)

	return self.update_display()
	except Exception as e:
	print(f"Error handling keyboard input: {str(e)}")
	return self.display_image
	def analyze_roi(self, evt: gr.SelectData):
	try:
	if self.current_image is None:
	return None, "No image loaded"

	# Convert clicked coordinates to original image coordinates
	x = int((evt.index[0] + self.pan_x) / self.zoom_factor)
	y = int((evt.index[1] + self.pan_y) / self.zoom_factor)

	mask = np.zeros_like(self.current_image, dtype=np.uint8)
	y_indices, x_indices = np.ogrid[:self.current_image.shape[0], :self.current_image.shape[1]]
	distance_from_center = np.sqrt((x_indices - x) 2 + (y_indices - y) 2)
	mask[distance_from_center <= self.circle_diameter / 2] = 1

	roi_pixels = self.current_image[mask == 1]

	pixel_spacing = float(self.dicom_data.PixelSpacing[0])
	area_pixels = np.sum(mask)
	area_mm2 = area_pixels * (pixel_spacing ** 2)
	mean = np.mean(roi_pixels)
	stddev = np.std(roi_pixels)
	min_val = np.min(roi_pixels)
	max_val = np.max(roi_pixels)

	result = {
	'Area (mm²)': f"{area_mm2:.3f}",
	'Mean': f"{mean:.3f}",
	'StdDev': f"{stddev:.3f}",
	'Min': f"{min_val:.3f}",
	'Max': f"{max_val:.3f}",
	'Point': f"({x}, {y})"
	}
	self.results.append(result)
	self.marks.append((x, y, self.circle_diameter))

	return self.update_display(), self.format_results()
	except Exception as e:
	print(f"Error analyzing ROI: {str(e)}")
	return self.display_image, f"Error analyzing ROI: {str(e)}"

	def format_results(self):
	if not self.results:
	return "No measurements yet"
	df = pd.DataFrame(self.results)
	columns_order = ['Area (mm²)', 'Mean', 'StdDev', 'Min', 'Max', 'Point']
	df = df[columns_order]
	return df.to_string(index=False)

	def add_blank_row(self, image):
	self.results.append({
	'Area (mm²)': '',
	'Mean': '',
	'StdDev': '',
	'Min': '',
	'Max': '',
	'Point': ''
	})
	return image, self.format_results()

	def add_zero_row(self, image):
	self.results.append({
	'Area (mm²)': '0.000',
	'Mean': '0.000',
	'StdDev': '0.000',
	'Min': '0.000',
	'Max': '0.000',
	'Point': '(0, 0)'
	})
	return image, self.format_results()

	def undo_last(self, image):
	if self.results:
	self.results.pop()
	if self.marks:
	self.marks.pop()
	return self.update_display(), self.format_results()

	def save_results(self):
	try:
	if not self.results:
	return None, "No results to save"

	df = pd.DataFrame(self.results)
	columns_order = ['Area (mm²)', 'Mean', 'StdDev', 'Min', 'Max', 'Point']
	df = df[columns_order]

	temp_file = "analysis_results.xlsx"
	df.to_excel(temp_file, index=False)

	return temp_file, "Results saved successfully"
	except Exception as e:
	return None, f"Error saving results: {str(e)}"

	def create_interface():
	analyzer = DicomAnalyzer()

	with gr.Blocks(css="#image_display { outline: none; }") as interface:
	gr.Markdown("# DICOM Image Analyzer")

	with gr.Row():
	with gr.Column():
	file_input = gr.File(label="Upload DICOM file")
	diameter_slider = gr.Slider(
	minimum=1,
	maximum=20,
	value=9,
	step=1,
	label="ROI Diameter (pixels)"
	)

	# Zoom controls
	with gr.Row():
	zoom_in_btn = gr.Button("Zoom In (+)")
	zoom_out_btn = gr.Button("Zoom Out (-)")
	reset_btn = gr.Button("Reset View")

	with gr.Column():
	image_display = gr.Image(label="DICOM Image", interactive=True, elem_id="image_display")

	with gr.Row():
	blank_btn = gr.Button("Add Blank Row")
	zero_btn = gr.Button("Add Zero Row")
	undo_btn = gr.Button("Undo Last")
	save_btn = gr.Button("Save Results")

	results_display = gr.Textbox(label="Results", interactive=False)
	file_output = gr.File(label="Download Results")
	key_press = gr.Textbox(visible=False, elem_id="key_press")

	# Instructions
	gr.Markdown("""
	### Controls:
	- Use arrow keys to pan when zoomed in
	- Click points to measure
	- Use Zoom In/Out buttons or Reset View to adjust zoom level
	""")

	# Event handlers
	file_input.change(
	fn=analyzer.load_dicom,
	inputs=file_input,
	outputs=[image_display, results_display]
	)

	image_display.select(
	fn=analyzer.analyze_roi,
	outputs=[image_display, results_display]
	)

	diameter_slider.change(
	fn=lambda x: (analyzer.circle_diameter := x, f"Diameter set to {x} pixels")[1],
	inputs=diameter_slider,
	outputs=gr.Textbox(label="Status")
	)

	zoom_in_btn.click(
	fn=analyzer.zoom_in,
	inputs=image_display,
	outputs=image_display
	)

	zoom_out_btn.click(
	fn=analyzer.zoom_out,
	inputs=image_display,
	outputs=image_display
	)

	reset_btn.click(
	fn=analyzer.reset_view,
	outputs=image_display
	)

	key_press.change(
	fn=analyzer.handle_keyboard,
	inputs=key_press,
	outputs=image_display,
	api_name="handle_keyboard"
	)

	blank_btn.click(
	fn=analyzer.add_blank_row,
	inputs=image_display,
	outputs=[image_display, results_display]
	)

	zero_btn.click(
	fn=analyzer.add_zero_row,
	inputs=image_display,
	outputs=[image_display, results_display]
	)

	undo_btn.click(
	fn=analyzer.undo_last,
	inputs=image_display,
	outputs=[image_display, results_display]
	)

	save_btn.click(
	fn=analyzer.save_results,
	outputs=[file_output, results_display]
	)

	# JavaScript for keyboard handling
	js = """
	<script>
	document.addEventListener('keydown', function(e) {
	if (['ArrowUp', 'ArrowDown', 'ArrowLeft', 'ArrowRight'].includes(e.key)) {
	e.preventDefault();
	const keyPressElement = document.querySelector('#key_press textarea');
	if (keyPressElement) {
	keyPressElement.value = e.key;
	keyPressElement.dispatchEvent(new Event('input'));
	}
	}
	});
	</script>
	"""
	gr.HTML(js)

	return interface

	if __name__ == "__main__":
	interface = create_interface()
	interface.launch()