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	import sys
	import os
	import pandas as pd
	import pdfplumber
	import json
	import gradio as gr
	from typing import List, Tuple, Optional
	from concurrent.futures import ThreadPoolExecutor, as_completed
	import hashlib
	import shutil
	import re
	import psutil
	import subprocess
	from datetime import datetime
	import tiktoken

	# Persistent directory setup
	persistent_dir = "/data/hf_cache"
	os.makedirs(persistent_dir, exist_ok=True)

	model_cache_dir = os.path.join(persistent_dir, "txagent_models")
	tool_cache_dir = os.path.join(persistent_dir, "tool_cache")
	file_cache_dir = os.path.join(persistent_dir, "cache")
	report_dir = os.path.join(persistent_dir, "reports")
	vllm_cache_dir = os.path.join(persistent_dir, "vllm_cache")

	for directory in [model_cache_dir, tool_cache_dir, file_cache_dir, report_dir, vllm_cache_dir]:
	os.makedirs(directory, exist_ok=True)

	os.environ["HF_HOME"] = model_cache_dir
	os.environ["TRANSFORMERS_CACHE"] = model_cache_dir
	os.environ["VLLM_CACHE_DIR"] = vllm_cache_dir
	os.environ["TOKENIZERS_PARALLELISM"] = "false"
	os.environ["CUDA_LAUNCH_BLOCKING"] = "1"

	current_dir = os.path.dirname(os.path.abspath(__file__))
	src_path = os.path.abspath(os.path.join(current_dir, "src"))
	sys.path.insert(0, src_path)

	from txagent.txagent import TxAgent

	# Constants
	MEDICAL_KEYWORDS = {
	'diagnosis', 'assessment', 'plan', 'results', 'medications',
	'allergies', 'summary', 'impression', 'findings', 'recommendations',
	'conclusion', 'history', 'examination', 'progress', 'discharge'
	}
	TOKENIZER = "cl100k_base"
	MAX_MODEL_LEN = 2048 # Matches your model's actual limit
	TARGET_CHUNK_TOKENS = 1200 # Leaves room for prompt and response
	PROMPT_RESERVE = 300 # Tokens reserved for prompt structure
	MEDICAL_SECTION_HEADER = "=== MEDICAL SECTION ==="

	def log_system_usage(tag=""):
	"""Log system resource usage."""
	try:
	cpu = psutil.cpu_percent(interval=1)
	mem = psutil.virtual_memory()
	print(f"[{tag}] CPU: {cpu}% \| RAM: {mem.used // (10242)}MB / {mem.total // (10242)}MB")
	result = subprocess.run(
	["nvidia-smi", "--query-gpu=memory.used,memory.total,utilization.gpu", "--format=csv,nounits,noheader"],
	capture_output=True, text=True
	)
	if result.returncode == 0:
	used, total, util = result.stdout.strip().split(", ")
	print(f"[{tag}] GPU: {used}MB / {total}MB \| Utilization: {util}%")
	except Exception as e:
	print(f"[{tag}] GPU/CPU monitor failed: {e}")

	def sanitize_utf8(text: str) -> str:
	"""Ensure text is UTF-8 clean."""
	return text.encode("utf-8", "ignore").decode("utf-8")

	def file_hash(path: str) -> str:
	"""Generate MD5 hash of file content."""
	with open(path, "rb") as f:
	return hashlib.md5(f.read()).hexdigest()

	def count_tokens(text: str) -> int:
	"""Count tokens using the same method as the model"""
	encoding = tiktoken.get_encoding(TOKENIZER)
	return len(encoding.encode(text))

	def extract_all_pages_with_token_count(file_path: str) -> Tuple[str, int, int]:
	"""
	Extract all pages from PDF with token counting.
	Returns (extracted_text, total_pages, total_tokens)
	"""
	try:
	text_chunks = []
	total_pages = 0
	total_tokens = 0

	with pdfplumber.open(file_path) as pdf:
	total_pages = len(pdf.pages)

	for i, page in enumerate(pdf.pages):
	page_text = page.extract_text() or ""
	lower_text = page_text.lower()

	if any(re.search(rf'\b{kw}\b', lower_text) for kw in MEDICAL_KEYWORDS):
	section_header = f"\n{MEDICAL_SECTION_HEADER} (Page {i+1})\n"
	text_chunks.append(section_header + page_text.strip())
	total_tokens += count_tokens(section_header)
	else:
	text_chunks.append(f"\n=== Page {i+1} ===\n{page_text.strip()}")

	total_tokens += count_tokens(page_text)

	return "\n".join(text_chunks), total_pages, total_tokens
	except Exception as e:
	return f"PDF processing error: {str(e)}", 0, 0

	def convert_file_to_json(file_path: str, file_type: str) -> str:
	"""Convert file to JSON format with caching and token counting."""
	try:
	h = file_hash(file_path)
	cache_path = os.path.join(file_cache_dir, f"{h}.json")

	if os.path.exists(cache_path):
	with open(cache_path, "r", encoding="utf-8") as f:
	return f.read()

	if file_type == "pdf":
	text, total_pages, total_tokens = extract_all_pages_with_token_count(file_path)
	result = json.dumps({
	"filename": os.path.basename(file_path),
	"content": text,
	"total_pages": total_pages,
	"total_tokens": total_tokens,
	"status": "complete"
	})
	elif file_type == "csv":
	chunks = []
	for chunk in pd.read_csv(file_path, encoding_errors="replace", header=None, dtype=str,
	skip_blank_lines=False, on_bad_lines="skip", chunksize=1000):
	chunks.append(chunk.fillna("").astype(str).values.tolist())
	content = [item for sublist in chunks for item in sublist]
	result = json.dumps({
	"filename": os.path.basename(file_path),
	"rows": content,
	"total_tokens": count_tokens(str(content))
	})
	elif file_type in ["xls", "xlsx"]:
	try:
	df = pd.read_excel(file_path, engine="openpyxl", header=None, dtype=str)
	except Exception:
	df = pd.read_excel(file_path, engine="xlrd", header=None, dtype=str)
	content = df.fillna("").astype(str).values.tolist()
	result = json.dumps({
	"filename": os.path.basename(file_path),
	"rows": content,
	"total_tokens": count_tokens(str(content))
	})
	else:
	result = json.dumps({"error": f"Unsupported file type: {file_type}"})

	with open(cache_path, "w", encoding="utf-8") as f:
	f.write(result)
	return result
	except Exception as e:
	return json.dumps({"error": f"Error processing {os.path.basename(file_path)}: {str(e)}"})

	def clean_response(text: str) -> str:
	"""Clean and format the model response."""
	text = sanitize_utf8(text)
	text = re.sub(r"\[TOOL_CALLS\].*", "", text, flags=re.DOTALL)
	text = re.sub(r"\['get_[^\]]+\']\n?", "", text)
	text = re.sub(r"\{'meta':\s\{.?\}\s,\s'results':\s\[.?\]\}\n?", "", text, flags=re.DOTALL)
	text = re.sub(r"To analyze the medical records for clinical oversights.?begin by reviewing.?\n", "", text, flags=re.DOTALL)
	text = re.sub(r"\n{3,}", "\n\n", text).strip()
	return text

	def format_final_report(analysis_results: List[str], filename: str) -> str:
	"""Combine all analysis chunks into a well-formatted final report."""
	report = []
	report.append(f"COMPREHENSIVE CLINICAL OVERSIGHT ANALYSIS")
	report.append(f"Generated: {datetime.now().strftime('%Y-%m-%d %H:%M:%S')}")
	report.append(f"File: {filename}")
	report.append("=" * 80)

	sections = {
	"CRITICAL FINDINGS": [],
	"MISSED DIAGNOSES": [],
	"MEDICATION ISSUES": [],
	"ASSESSMENT GAPS": [],
	"FOLLOW-UP RECOMMENDATIONS": []
	}

	for result in analysis_results:
	for section in sections:
	section_match = re.search(
	rf"{re.escape(section)}:?\s\n([^]+?)(?=\n\*\|\n\n\|$)",
	result,
	re.IGNORECASE \| re.DOTALL
	)
	if section_match:
	content = section_match.group(1).strip()
	if content and content not in sections[section]:
	sections[section].append(content)

	if sections["CRITICAL FINDINGS"]:
	report.append("\n🚨 CRITICAL FINDINGS 🚨")
	for content in sections["CRITICAL FINDINGS"]:
	report.append(f"\n{content}")

	for section, contents in sections.items():
	if section != "CRITICAL FINDINGS" and contents:
	report.append(f"\n{section.upper()}")
	for content in contents:
	report.append(f"\n{content}")

	if not any(sections.values()):
	report.append("\nNo significant clinical oversights identified.")

	report.append("\n" + "=" * 80)
	report.append("END OF REPORT")

	return "\n".join(report)

	def split_content_by_tokens(content: str, max_tokens: int = TARGET_CHUNK_TOKENS) -> List[str]:
	"""Split content into chunks that fit within token limits"""
	paragraphs = re.split(r"\n\s*\n", content)
	chunks = []
	current_chunk = []
	current_tokens = 0

	for para in paragraphs:
	para_tokens = count_tokens(para)
	if para_tokens > max_tokens:
	sentences = re.split(r'(?<=[.!?])\s+', para)
	for sent in sentences:
	sent_tokens = count_tokens(sent)
	if current_tokens + sent_tokens > max_tokens:
	chunks.append("\n\n".join(current_chunk))
	current_chunk = [sent]
	current_tokens = sent_tokens
	else:
	current_chunk.append(sent)
	current_tokens += sent_tokens
	elif current_tokens + para_tokens > max_tokens:
	chunks.append("\n\n".join(current_chunk))
	current_chunk = [para]
	current_tokens = para_tokens
	else:
	current_chunk.append(para)
	current_tokens += para_tokens

	if current_chunk:
	chunks.append("\n\n".join(current_chunk))

	return chunks

	def init_agent():
	"""Initialize the TxAgent with proper configuration."""
	print("🔁 Initializing model...")
	log_system_usage("Before Load")

	default_tool_path = os.path.abspath("data/new_tool.json")
	target_tool_path = os.path.join(tool_cache_dir, "new_tool.json")
	if not os.path.exists(target_tool_path):
	shutil.copy(default_tool_path, target_tool_path)

	agent = TxAgent(
	model_name="mims-harvard/TxAgent-T1-Llama-3.1-8B",
	rag_model_name="mims-harvard/ToolRAG-T1-GTE-Qwen2-1.5B",
	tool_files_dict={"new_tool": target_tool_path},
	force_finish=True,
	enable_checker=True,
	step_rag_num=2,
	seed=100,
	additional_default_tools=[],
	)
	agent.init_model()
	log_system_usage("After Load")
	print("✅ Agent Ready")
	return agent

	def analyze_complete_document(content: str, filename: str, agent: TxAgent, temperature: float = 0.3) -> str:
	"""Analyze complete document with strict token management"""
	chunks = split_content_by_tokens(content)
	analysis_results = []

	for i, chunk in enumerate(chunks):
	try:
	# Ultra-minimal prompt to maximize content space
	base_prompt = "Analyze for:\n1. Critical\n2. Missed DX\n3. Med issues\n4. Gaps\n5. Follow-up\n\nContent:\n"

	# Calculate available space for content
	prompt_tokens = count_tokens(base_prompt)
	max_content_tokens = MAX_MODEL_LEN - prompt_tokens - 100 # Response buffer

	# Ensure chunk fits
	chunk_tokens = count_tokens(chunk)
	if chunk_tokens > max_content_tokens:
	# Find last paragraph that fits
	adjusted_chunk = ""
	tokens_used = 0
	paragraphs = re.split(r"\n\s*\n", chunk)

	for para in paragraphs:
	para_tokens = count_tokens(para)
	if tokens_used + para_tokens <= max_content_tokens:
	adjusted_chunk += "\n\n" + para
	tokens_used += para_tokens
	else:
	break

	if not adjusted_chunk:
	# If even one paragraph is too big, split sentences
	sentences = re.split(r'(?<=[.!?])\s+', chunk)
	for sent in sentences:
	sent_tokens = count_tokens(sent)
	if tokens_used + sent_tokens <= max_content_tokens:
	adjusted_chunk += " " + sent
	tokens_used += sent_tokens
	else:
	break

	chunk = adjusted_chunk.strip()

	prompt = base_prompt + chunk

	response = ""
	for output in agent.run_gradio_chat(
	message=prompt,
	history=[],
	temperature=temperature,
	max_new_tokens=300, # Keep responses very concise
	max_token=MAX_MODEL_LEN,
	call_agent=False,
	conversation=[],
	):
	if output:
	if isinstance(output, list):
	for m in output:
	if hasattr(m, 'content'):
	response += clean_response(m.content)
	elif isinstance(output, str):
	response += clean_response(output)

	if response:
	analysis_results.append(response)
	except Exception as e:
	print(f"Error processing chunk {i}: {str(e)}")
	continue

	return format_final_report(analysis_results, filename)

	def create_ui(agent):
	"""Create the Gradio interface with enhanced design."""
	with gr.Blocks(
	theme=gr.themes.Soft(
	primary_hue="indigo",
	secondary_hue="blue",
	neutral_hue="slate",
	spacing_size="md",
	radius_size="md"
	),
	title="Clinical Oversight Assistant",
	css="""
	.report-box {
	border: 1px solid #e0e0e0;
	border-radius: 8px;
	padding: 16px;
	background-color: #f9f9f9;
	}
	.file-upload {
	background-color: #f5f7fa;
	padding: 16px;
	border-radius: 8px;
	}
	.analysis-btn {
	width: 100%;
	}
	.critical-finding {
	color: #d32f2f;
	font-weight: bold;
	}
	"""
	) as demo:
	# Header Section
	gr.Markdown("""
	<div style='text-align: center; margin-bottom: 20px;'>
	<h1 style='color: #2b3a67; margin-bottom: 8px;'>🩺 Clinical Oversight Assistant</h1>
	<p style='color: #5a6a8a; font-size: 16px;'>
	Analyze medical records for potential oversights and generate comprehensive reports
	</p>
	</div>
	""")

	with gr.Row(equal_height=False):
	# Left Column - Inputs
	with gr.Column(scale=1, min_width=400):
	with gr.Group(label="Document Upload", elem_classes="file-upload"):
	file_upload = gr.File(
	file_types=[".pdf", ".csv", ".xls", ".xlsx"],
	file_count="multiple",
	label="Upload Medical Records",
	elem_id="file-upload"
	)
	with gr.Row():
	clear_btn = gr.Button("Clear All", size="sm")
	send_btn = gr.Button(
	"Analyze Documents",
	variant="primary",
	elem_classes="analysis-btn"
	)

	with gr.Accordion("Additional Options", open=False):
	msg_input = gr.Textbox(
	placeholder="Enter specific focus areas or questions...",
	label="Analysis Focus",
	lines=3
	)
	temperature = gr.Slider(
	minimum=0.1,
	maximum=1.0,
	value=0.3,
	step=0.1,
	label="Analysis Strictness"
	)

	status = gr.Textbox(
	label="Processing Status",
	interactive=False,
	visible=True
	)

	# Right Column - Outputs
	with gr.Column(scale=2, min_width=600):
	with gr.Tabs():
	with gr.TabItem("Analysis Report", id="report"):
	report_output = gr.Textbox(
	label="Clinical Oversight Findings",
	lines=25,
	max_lines=50,
	interactive=False,
	elem_classes="report-box"
	)

	with gr.TabItem("Raw Data Preview", id="preview"):
	data_preview = gr.Dataframe(
	headers=["Page", "Content"],
	datatype=["str", "str"],
	interactive=False,
	height=600
	)

	with gr.Row():
	download_output = gr.File(
	label="Download Full Report",
	visible=True,
	interactive=False
	)
	gr.Button("Save to EHR", visible=False)

	# Analysis function with UI updates
	def analyze(files: List, message: str, temp: float):
	if not files:
	yield (
	gr.Textbox.update(value="", visible=True),
	gr.File.update(value=None, visible=False),
	gr.Textbox.update(value="⚠️ Please upload at least one file to analyze.", visible=True),
	gr.Dataframe.update(value=None, visible=True)
	)
	return

	# Update UI for processing state
	yield (
	gr.Textbox.update(value="", visible=True),
	gr.File.update(value=None, visible=False),
	gr.Textbox.update(value="⏳ Processing documents...", visible=True),
	gr.Dataframe.update(value=None, visible=True)
	)

	# Process files
	file_contents = []
	filenames = []
	preview_data = []

	with ThreadPoolExecutor(max_workers=4) as executor:
	futures = []
	for f in files:
	futures.append(executor.submit(
	convert_file_to_json,
	f.name,
	f.name.split(".")[-1].lower()
	))
	filenames.append(os.path.basename(f.name))

	results = []
	for future in as_completed(futures):
	result = sanitize_utf8(future.result())
	try:
	data = json.loads(result)
	results.append(result)
	if "content" in data:
	preview_data.append([data["filename"], data["content"][:500] + "..."])
	except:
	pass

	# Update UI for analysis state
	yield (
	gr.Textbox.update(value="", visible=True),
	gr.File.update(value=None, visible=False),
	gr.Textbox.update(value=f"🔍 Analyzing {len(files)} documents...", visible=True),
	gr.Dataframe.update(value=preview_data[:20], visible=True)
	)

	try:
	combined_content = "\n".join([
	json.loads(fc).get("content", "") if "content" in json.loads(fc)
	else str(json.loads(fc).get("rows", ""))
	for fc in results
	])

	full_report = analyze_complete_document(
	combined_content,
	" + ".join(filenames),
	agent,
	temperature=temp
	)

	file_hash_value = hashlib.md5(combined_content.encode()).hexdigest()
	report_path = os.path.join(report_dir, f"{file_hash_value}_report.txt")
	with open(report_path, "w", encoding="utf-8") as f:
	f.write(full_report)

	yield (
	gr.Textbox.update(value=full_report, visible=True),
	gr.File.update(value=report_path if os.path.exists(report_path) else None, visible=True),
	gr.Textbox.update(value="✅ Analysis complete!", visible=True),
	gr.Dataframe.update(value=preview_data[:20], visible=True)
	)

	except Exception as e:
	error_msg = f"❌ Error during analysis: {str(e)}"
	print(error_msg)
	yield (
	gr.Textbox.update(value="", visible=True),
	gr.File.update(value=None, visible=False),
	gr.Textbox.update(value=error_msg, visible=True),
	gr.Dataframe.update(value=None, visible=True)
	)

	# Event handlers
	send_btn.click(
	fn=analyze,
	inputs=[file_upload, msg_input, temperature],
	outputs=[report_output, download_output, status, data_preview],
	api_name="analyze"
	)

	clear_btn.click(
	fn=lambda: (
	None, None, "", None,
	gr.Slider.update(value=0.3),
	gr.Textbox.update(value="")
	),
	inputs=None,
	outputs=[file_upload, download_output, status, data_preview, temperature, msg_input]
	)

	return demo

	if __name__ == "__main__":
	print("🚀 Launching app...")
	# Install tiktoken if not available
	try:
	import tiktoken
	except ImportError:
	print("Installing tiktoken...")
	subprocess.run([sys.executable, "-m", "pip", "install", "tiktoken"])

	agent = init_agent()
	demo = create_ui(agent)
	demo.queue(
	api_open=False,
	max_size=20
	).launch(
	server_name="0.0.0.0",
	server_port=7860,
	show_error=True,
	allowed_paths=[report_dir],
	share=False
	)