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toy-intelligence / app.py

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	import gradio as gr
	from transformers import pipeline
	import json
	from datetime import datetime
	import sqlite3
	import asyncio
	from concurrent.futures import ThreadPoolExecutor
	import re

	# Initialize NLP pipelines
	ner_pipeline = pipeline("ner", model="dbmdz/bert-large-cased-finetuned-conll03-english")
	classifier = pipeline("zero-shot-classification")

	class OntologyRegistry:
	def __init__(self):
	self.temporal_patterns = [
	r'\b\d{1,2}:\d{2}\s*(?:AM\|PM\|am\|pm)?\b',
	r'\b(?:Jan\|Feb\|Mar\|Apr\|May\|Jun\|Jul\|Aug\|Sep\|Oct\|Nov\|Dec)[a-z]* \d{1,2}(?:st\|nd\|rd\|th)?,? \d{4}\b',
	r'\btomorrow\b',
	r'\bin \d+ (?:days?\|weeks?\|months?)\b'
	]

	self.location_patterns = [
	r'\b(?:in\|at\|from\|to) ([A-Z][a-zA-Z]+(,? [A-Z]{2})?)\b',
	r'\b[A-Z][a-zA-Z]+ Base\b',
	r'\bHeadquarters\b',
	r'\bHQ\b'
	]

	self.entity_types = {
	'PER': 'person',
	'ORG': 'organization',
	'LOC': 'location',
	'MISC': 'miscellaneous'
	}

	def validate_pattern(self, text, pattern_type):
	patterns = getattr(self, f"{pattern_type}_patterns", [])
	matches = []
	for pattern in patterns:
	matches.extend(re.finditer(pattern, text))
	return [m.group() for m in matches]

	class RelationshipEngine:
	def __init__(self, db_path=':memory:'):
	self.conn = sqlite3.connect(db_path)
	self.setup_database()

	def setup_database(self):
	self.conn.execute('''
	CREATE TABLE IF NOT EXISTS events (
	id INTEGER PRIMARY KEY,
	text TEXT,
	timestamp DATETIME,
	confidence REAL
	)
	''')

	self.conn.execute('''
	CREATE TABLE IF NOT EXISTS relationships (
	id INTEGER PRIMARY KEY,
	source_event_id INTEGER,
	target_event_id INTEGER,
	relationship_type TEXT,
	confidence REAL,
	FOREIGN KEY (source_event_id) REFERENCES events(id),
	FOREIGN KEY (target_event_id) REFERENCES events(id)
	)
	''')
	self.conn.commit()

	def find_related_events(self, event_data):
	# Find events with similar entities
	cursor = self.conn.execute('''
	SELECT * FROM events
	WHERE text LIKE ?
	ORDER BY timestamp DESC
	LIMIT 5
	''', (f"%{event_data.get('text', '')}%",))

	related_events = cursor.fetchall()
	return related_events

	def calculate_relationship_confidence(self, event1, event2):
	# Simple similarity-based confidence
	base_confidence = 0.0

	# Entity overlap increases confidence
	if set(event1.get('entities', {}).get('people', [])) & set(event2.get('entities', {}).get('people', [])):
	base_confidence += 0.3

	if set(event1.get('entities', {}).get('organizations', [])) & set(event2.get('entities', {}).get('organizations', [])):
	base_confidence += 0.3

	if set(event1.get('entities', {}).get('locations', [])) & set(event2.get('entities', {}).get('locations', [])):
	base_confidence += 0.4

	return min(base_confidence, 1.0)

	class EventAnalyzer:
	def __init__(self):
	self.ontology = OntologyRegistry()
	self.relationship_engine = RelationshipEngine()
	self.executor = ThreadPoolExecutor(max_workers=3)

	async def extract_entities(self, text):
	def _extract():
	return ner_pipeline(text)

	# Run NER in thread pool
	ner_results = await asyncio.get_event_loop().run_in_executor(
	self.executor, _extract
	)

	entities = {
	"people": [],
	"organizations": [],
	"locations": [],
	"hashtags": [word for word in text.split() if word.startswith('#')]
	}

	for item in ner_results:
	if item["entity"].endswith("PER"):
	entities["people"].append(item["word"])
	elif item["entity"].endswith("ORG"):
	entities["organizations"].append(item["word"])
	elif item["entity"].endswith("LOC"):
	entities["locations"].append(item["word"])

	return entities

	def extract_temporal(self, text):
	return self.ontology.validate_pattern(text, 'temporal')

	async def extract_locations(self, text):
	# First await the entities result
	entities = await self.extract_entities(text)
	ml_locations = entities.get('locations', [])
	# Get pattern-based locations
	pattern_locations = self.ontology.validate_pattern(text, 'location')
	return list(set(ml_locations + pattern_locations))

	async def analyze_event(self, text):
	try:
	# Parallel extraction
	entities_future = self.extract_entities(text)
	temporal_data = self.extract_temporal(text) # This is synchronous now
	locations_future = self.extract_locations(text)

	# Gather async results
	entities, locations = await asyncio.gather(
	entities_future, locations_future
	)

	# Add temporal and locations to entities
	entities['locations'] = locations
	entities['temporal'] = temporal_data

	# Calculate initial confidence
	confidence = min(1.0, (
	0.2 * bool(entities["people"]) +
	0.2 * bool(entities["organizations"]) +
	0.3 * bool(entities["locations"]) +
	0.3 * bool(temporal_data)
	))

	# Find related events
	related_events = self.relationship_engine.find_related_events({
	'text': text,
	'entities': entities
	})

	# Adjust confidence based on relationships
	if related_events:
	relationship_confidence = max(
	self.relationship_engine.calculate_relationship_confidence(
	{'entities': entities},
	{'text': event[1]}
	)
	for event in related_events
	)
	confidence = (confidence + relationship_confidence) / 2

	result = {
	"text": text,
	"entities": entities,
	"confidence": confidence,
	"verification_needed": confidence < 0.6,
	"related_events": [
	{
	"text": event[1],
	"timestamp": event[2],
	"confidence": event[3]
	}
	for event in related_events
	]
	}

	# Store event if confidence is sufficient
	if confidence >= 0.6:
	self.relationship_engine.conn.execute(
	'INSERT INTO events (text, timestamp, confidence) VALUES (?, ?, ?)',
	(text, datetime.now().isoformat(), confidence)
	)
	self.relationship_engine.conn.commit()

	return result

	except Exception as e:
	return {"error": str(e)}

	# Initialize analyzer
	analyzer = EventAnalyzer()

	# Custom CSS for UI
	css = """
	.container { max-width: 1200px; margin: auto; padding: 20px; }
	.results { padding: 20px; border: 1px solid #ddd; border-radius: 8px; margin-top: 20px; }
	.confidence-high { color: #22c55e; font-weight: bold; }
	.confidence-low { color: #f97316; font-weight: bold; }
	.entity-section { margin: 15px 0; }
	.alert-warning { background: #fff3cd; padding: 10px; border-radius: 5px; margin: 10px 0; }
	.alert-success { background: #d1fae5; padding: 10px; border-radius: 5px; margin: 10px 0; }
	.related-events { background: #f3f4f6; padding: 15px; border-radius: 5px; margin-top: 15px; }
	"""

	def format_results(analysis_result):
	if "error" in analysis_result:
	return f"<div style='color: red'>Error: {analysis_result['error']}</div>"

	confidence_class = "confidence-high" if analysis_result["confidence"] >= 0.6 else "confidence-low"

	html = f"""
	<div class="results">
	<div style="display: flex; justify-content: space-between; align-items: center; margin-bottom: 20px;">
	<h3 style="margin: 0;">Analysis Results</h3>
	<div>
	Confidence Score: <span class="{confidence_class}">{int(analysis_result['confidence'] * 100)}%</span>
	</div>
	</div>

	{f'''
	<div class="alert-warning">
	⚠️ <strong>Verification Required:</strong> Low confidence score detected. Please verify the extracted information.
	</div>
	''' if analysis_result["verification_needed"] else ''}

	<div class="entity-section">
	<h4>👤 People Detected</h4>
	<ul>{''.join(f'<li>{person}</li>' for person in analysis_result['entities']['people']) or '<li>None detected</li>'}</ul>
	</div>

	<div class="entity-section">
	<h4>🏢 Organizations</h4>
	<ul>{''.join(f'<li>{org}</li>' for org in analysis_result['entities']['organizations']) or '<li>None detected</li>'}</ul>
	</div>

	<div class="entity-section">
	<h4>📍 Locations</h4>
	<ul>{''.join(f'<li>{loc}</li>' for loc in analysis_result['entities']['locations']) or '<li>None detected</li>'}</ul>
	</div>

	<div class="entity-section">
	<h4>🕒 Temporal References</h4>
	<ul>{''.join(f'<li>{time}</li>' for time in analysis_result['entities']['temporal']) or '<li>None detected</li>'}</ul>
	</div>

	<div class="entity-section">
	<h4># Hashtags</h4>
	<ul>{''.join(f'<li>{tag}</li>' for tag in analysis_result['entities']['hashtags']) or '<li>None detected</li>'}</ul>
	</div>

	{f'''
	<div class="alert-success">
	✅ <strong>Event Validated:</strong> The extracted information meets confidence thresholds.
	</div>
	''' if not analysis_result["verification_needed"] else ''}

	{f'''
	<div class="related-events">
	<h4>Related Events</h4>
	<ul>
	{''.join(f'<li>{event["text"]} ({event["timestamp"]}) - Confidence: {int(event["confidence"] * 100)}%</li>' for event in analysis_result['related_events'])}
	</ul>
	</div>
	''' if analysis_result.get('related_events') else ''}
	</div>
	"""
	return html

	# Modified to properly handle async
	async def process_input(text):
	result = await analyzer.analyze_event(text)
	return format_results(result)

	demo = gr.Interface(
	fn=process_input,
	inputs=[
	gr.Textbox(
	label="Event Text",
	placeholder="Enter text to analyze (e.g., 'John from Tech Corp. is attending the meeting in Washington, DC tomorrow at 14:30 #tech')",
	lines=3
	)
	],
	outputs=gr.HTML(),
	title="ToY Event Analysis System",
	description="Analyze text to extract entities, assess confidence, and identify key event information with relationship tracking.",
	css=css,
	theme=gr.themes.Soft(),
	examples=[
	["John from Tech Corp. is attending the meeting in Washington, DC tomorrow at 14:30 #tech"],
	["Sarah Johnson and Mike Smith from Defense Systems Inc. are conducting training in Norfolk, VA on June 15th #defense #training"],
	["Team meeting at headquarters with @commander_smith at 0900 #briefing"]
	]
	)

	if __name__ == "__main__":
	demo.launch()