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Final_Assignment / async_question_processor.py
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 #!/usr/bin/env python3
"""
Asynchronous Question Processor
Clean question handler that removes hardcoded overrides for honest accuracy measurement.
"""
import asyncio
import json
import logging
import time
import traceback
from datetime import datetime
from pathlib import Path
from typing import Dict, List, Optional, Any
import subprocess
import sys
import os
# Add the project root to the Python path
sys.path.insert(0, str(Path(__file__).parent))
from gaia_web_loader import GAIAQuestionLoaderWeb
from question_classifier import QuestionClassifier
class AsyncQuestionProcessor:
"""Asynchronous processor for individual GAIA questions with clean execution."""
def __init__(self,
session_dir: Path,
timeout_seconds: int = 900,
model: str = "qwen3-235b"):
"""
Initialize the async question processor.
Args:
session_dir: Directory for this test session
timeout_seconds: Timeout per question processing
model: Model to use for question solving
"""
self.session_dir = session_dir
self.timeout_seconds = timeout_seconds
self.model = model
# Create individual logs directory
self.logs_dir = session_dir / "individual_logs"
self.logs_dir.mkdir(exist_ok=True)
# Setup logging
self.setup_logging()
# Initialize components
self.loader = GAIAQuestionLoaderWeb()
self.classifier = QuestionClassifier()
# Load validation metadata for accuracy checking
self.validation_metadata = self.load_validation_metadata()
def setup_logging(self):
"""Setup logging for the question processor."""
log_file = self.session_dir / "question_processor.log"
self.logger = logging.getLogger("AsyncQuestionProcessor")
self.logger.setLevel(logging.INFO)
# File handler
file_handler = logging.FileHandler(log_file)
file_handler.setLevel(logging.INFO)
# Formatter
formatter = logging.Formatter(
'%(asctime)s - %(name)s - %(levelname)s - %(message)s'
)
file_handler.setFormatter(formatter)
self.logger.addHandler(file_handler)
def load_validation_metadata(self) -> Dict[str, Any]:
"""Load validation metadata for answer checking."""
metadata_file = Path("gaia_validation_metadata.jsonl")
metadata = {}
if not metadata_file.exists():
self.logger.warning(f"Validation metadata file not found: {metadata_file}")
return metadata
try:
with open(metadata_file, 'r') as f:
for line in f:
line = line.strip()
if line:
try:
data = json.loads(line)
task_id = data.get('task_id')
if task_id:
metadata[task_id] = data
except json.JSONDecodeError:
continue
self.logger.info(f"Loaded validation metadata for {len(metadata)} questions")
except Exception as e:
self.logger.error(f"Failed to load validation metadata: {e}")
return metadata
async def classify_question(self, question: Dict) -> Dict:
"""Classify the question using the classification system."""
try:
classification = await asyncio.to_thread(
self.classifier.classify_question, question
)
return classification
except Exception as e:
self.logger.error(f"Classification failed: {e}")
return {
"primary_agent": "general",
"secondary_agent": None,
"complexity": 3,
"confidence": 0.0,
"tools_needed": [],
"error": str(e)
}
async def execute_question_solver(self, question_id: str) -> Dict:
"""
Execute the main question solver without hardcoded overrides.
This is the clean version that provides honest accuracy measurement.
"""
start_time = time.time()
# Create individual log file for this question
individual_log = self.logs_dir / f"question_{question_id}_{datetime.now().strftime('%Y%m%d_%H%M%S')}.log"
try:
# Build command for question solver
cmd = [
sys.executable,
"tests/test_specific_question.py",
question_id,
self.model
]
self.logger.info(f"Executing solver for {question_id}: {' '.join(cmd)}")
# Execute with timeout
process = await asyncio.create_subprocess_exec(
*cmd,
stdout=asyncio.subprocess.PIPE,
stderr=asyncio.subprocess.STDOUT,
cwd=Path.cwd()
)
try:
stdout, _ = await asyncio.wait_for(
process.communicate(),
timeout=self.timeout_seconds
)
# Write output to individual log
with open(individual_log, 'w') as f:
f.write(f"Command: {' '.join(cmd)}\n")
f.write(f"Start time: {datetime.fromtimestamp(start_time).isoformat()}\n")
f.write(f"Question ID: {question_id}\n")
f.write("=" * 80 + "\n")
f.write(stdout.decode('utf-8', errors='replace'))
execution_time = time.time() - start_time
# Parse the output for answer extraction
output_text = stdout.decode('utf-8', errors='replace')
answer = self.extract_answer_from_output(output_text)
return {
"status": "completed",
"execution_time": execution_time,
"return_code": process.returncode,
"answer": answer,
"log_file": str(individual_log),
"timestamp": datetime.now().isoformat()
}
except asyncio.TimeoutError:
# Kill the process on timeout
process.kill()
await process.wait()
execution_time = time.time() - start_time
# Write timeout info to log
with open(individual_log, 'w') as f:
f.write(f"Command: {' '.join(cmd)}\n")
f.write(f"Start time: {datetime.fromtimestamp(start_time).isoformat()}\n")
f.write(f"Question ID: {question_id}\n")
f.write(f"STATUS: TIMEOUT after {self.timeout_seconds} seconds\n")
f.write("=" * 80 + "\n")
return {
"status": "timeout",
"execution_time": execution_time,
"timeout_seconds": self.timeout_seconds,
"log_file": str(individual_log),
"timestamp": datetime.now().isoformat()
}
except Exception as e:
execution_time = time.time() - start_time
# Write error info to log
with open(individual_log, 'w') as f:
f.write(f"Command: {' '.join(cmd)}\n")
f.write(f"Start time: {datetime.fromtimestamp(start_time).isoformat()}\n")
f.write(f"Question ID: {question_id}\n")
f.write(f"STATUS: ERROR - {str(e)}\n")
f.write("=" * 80 + "\n")
f.write(traceback.format_exc())
return {
"status": "error",
"execution_time": execution_time,
"error": str(e),
"log_file": str(individual_log),
"timestamp": datetime.now().isoformat()
}
def extract_answer_from_output(self, output_text: str) -> Optional[str]:
"""Extract the final answer from solver output."""
# Look for common answer patterns
patterns = [
"Final Answer:",
"FINAL ANSWER:",
"Answer:",
"ANSWER:",
]
lines = output_text.split('\n')
# Search for answer patterns
for i, line in enumerate(lines):
line_stripped = line.strip()
for pattern in patterns:
if pattern in line_stripped:
# Try to extract answer from same line
answer_part = line_stripped.split(pattern, 1)
if len(answer_part) > 1:
answer = answer_part[1].strip()
if answer:
return answer
# Try next line if current line doesn't have answer
if i + 1 < len(lines):
next_line = lines[i + 1].strip()
if next_line:
return next_line
# Fallback: look for the last non-empty line that might be an answer
for line in reversed(lines):
line_stripped = line.strip()
if line_stripped and not line_stripped.startswith(('=', '-', 'Time:', 'Duration:')):
# Avoid log formatting lines
if len(line_stripped) < 200: # Reasonable answer length
return line_stripped
return None
def validate_answer(self, question_id: str, generated_answer: Optional[str]) -> Dict:
"""Validate the generated answer against expected answer."""
if question_id not in self.validation_metadata:
return {
"validation_status": "no_metadata",
"message": "No validation metadata available"
}
metadata = self.validation_metadata[question_id]
expected_answer = metadata.get('Final answer')
if not generated_answer:
return {
"validation_status": "no_answer",
"expected_answer": expected_answer,
"message": "No answer generated"
}
# Simple string comparison (case-insensitive)
generated_clean = str(generated_answer).strip().lower()
expected_clean = str(expected_answer).strip().lower()
if generated_clean == expected_clean:
status = "correct"
elif generated_clean in expected_clean or expected_clean in generated_clean:
status = "partial"
else:
status = "incorrect"
return {
"validation_status": status,
"generated_answer": generated_answer,
"expected_answer": expected_answer,
"match_details": {
"exact_match": (generated_clean == expected_clean),
"partial_match": (generated_clean in expected_clean or expected_clean in generated_clean)
}
}
async def process_question(self, question: Dict) -> Dict:
"""
Process a single question through the complete pipeline.
This is the clean version without hardcoded overrides for honest accuracy.
"""
question_id = question.get('task_id', 'unknown')
start_time = time.time()
self.logger.info(f"Processing question {question_id}")
try:
# Step 1: Classify the question
classification = await self.classify_question(question)
# Step 2: Execute the solver (clean version)
solver_result = await self.execute_question_solver(question_id)
# Step 3: Validate the answer
validation = self.validate_answer(
question_id,
solver_result.get('answer')
)
total_time = time.time() - start_time
# Compile complete result
result = {
"question_id": question_id,
"question_text": question.get('Question', '')[:200] + "..." if len(question.get('Question', '')) > 200 else question.get('Question', ''),
"classification": classification,
"solver_result": solver_result,
"validation": validation,
"total_processing_time": total_time,
"timestamp": datetime.now().isoformat()
}
self.logger.info(f"Completed question {question_id} in {total_time:.2f}s - Status: {validation.get('validation_status', 'unknown')}")
return result
except Exception as e:
total_time = time.time() - start_time
self.logger.error(f"Failed to process question {question_id}: {e}")
return {
"question_id": question_id,
"status": "error",
"error": str(e),
"total_processing_time": total_time,
"timestamp": datetime.now().isoformat(),
"traceback": traceback.format_exc()
}