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Atomizer/tests/demo_research_agent.py
Anto01 eabcc4c3ca refactor: Major reorganization of optimization_engine module structure 
BREAKING CHANGE: Module paths have been reorganized for better maintainability.
Backwards compatibility aliases with deprecation warnings are provided.

New Structure:
- core/           - Optimization runners (runner, intelligent_optimizer, etc.)
- processors/     - Data processing
  - surrogates/   - Neural network surrogates
- nx/             - NX/Nastran integration (solver, updater, session_manager)
- study/          - Study management (creator, wizard, state, reset)
- reporting/      - Reports and analysis (visualizer, report_generator)
- config/         - Configuration management (manager, builder)
- utils/          - Utilities (logger, auto_doc, etc.)
- future/         - Research/experimental code

Migration:
- ~200 import changes across 125 files
- All __init__.py files use lazy loading to avoid circular imports
- Backwards compatibility layer supports old import paths with warnings
- All existing functionality preserved

To migrate existing code:
  OLD: from optimization_engine.nx_solver import NXSolver
  NEW: from optimization_engine.nx.solver import NXSolver

  OLD: from optimization_engine.runner import OptimizationRunner
  NEW: from optimization_engine.core.runner import OptimizationRunner

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
2025-12-29 12:30:59 -05:00

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"""
Quick Interactive Demo of Research Agent
This demo shows the Research Agent learning from a material XML example
and documenting the research session.
Run this to see Phase 2 in action!
"""
import sys
from pathlib import Path
# Set UTF-8 encoding for Windows console
if sys.platform == 'win32':
import codecs
sys.stdout = codecs.getwriter('utf-8')(sys.stdout.buffer, errors='replace')
sys.stderr = codecs.getwriter('utf-8')(sys.stderr.buffer, errors='replace')
# Add project root to path
project_root = Path(__file__).parent.parent
sys.path.insert(0, str(project_root))
from optimization_engine.future.research_agent import (
ResearchAgent,
ResearchFindings,
KnowledgeGap,
CONFIDENCE_LEVELS
)
def main():
print("\n" + "="*70)
print(" RESEARCH AGENT DEMO - Phase 2 Self-Learning System")
print("="*70)
# Initialize agent
agent = ResearchAgent()
print("\n[1] Research Agent initialized")
print(f" Feature registry loaded: {agent.feature_registry_path}")
print(f" Knowledge base: {agent.knowledge_base_path}")
# Test 1: Detect knowledge gap
print("\n" + "-"*70)
print("[2] Testing Knowledge Gap Detection")
print("-"*70)
request = "Create NX material XML for titanium Ti-6Al-4V"
print(f"\nUser request: \"{request}\"")
gap = agent.identify_knowledge_gap(request)
print(f"\n Analysis:")
print(f" Missing features: {gap.missing_features}")
print(f" Missing knowledge: {gap.missing_knowledge}")
print(f" Confidence: {gap.confidence:.2f}")
print(f" Research needed: {gap.research_needed}")
# Test 2: Learn from example
print("\n" + "-"*70)
print("[3] Learning from User Example")
print("-"*70)
# Simulated user provides this example
example_xml = """<?xml version="1.0" encoding="UTF-8"?>
<PhysicalMaterial name="Steel_AISI_1020" version="1.0">
<Density units="kg/m3">7850</Density>
<YoungModulus units="GPa">200</YoungModulus>
<PoissonRatio>0.29</PoissonRatio>
<ThermalExpansion units="1/K">1.17e-05</ThermalExpansion>
<YieldStrength units="MPa">295</YieldStrength>
<UltimateTensileStrength units="MPa">420</UltimateTensileStrength>
</PhysicalMaterial>"""
print("\nUser provides example: steel_material.xml")
print(" (Simulating user uploading a file)")
# Create research findings
findings = ResearchFindings(
sources={'user_example': 'steel_material.xml'},
raw_data={'user_example': example_xml},
confidence_scores={'user_example': CONFIDENCE_LEVELS['user_validated']}
)
print(f"\n Source: user_example")
print(f" Confidence: {CONFIDENCE_LEVELS['user_validated']:.2f} (user-validated)")
# Test 3: Synthesize knowledge
print("\n" + "-"*70)
print("[4] Synthesizing Knowledge")
print("-"*70)
knowledge = agent.synthesize_knowledge(findings)
print(f"\n {knowledge.synthesis_notes}")
if knowledge.schema and 'xml_structure' in knowledge.schema:
xml_schema = knowledge.schema['xml_structure']
print(f"\n Learned Schema:")
print(f" Root element: {xml_schema['root_element']}")
print(f" Required fields: {len(xml_schema['required_fields'])}")
for field in xml_schema['required_fields'][:3]:
print(f" - {field}")
if len(xml_schema['required_fields']) > 3:
print(f" ... and {len(xml_schema['required_fields']) - 3} more")
# Test 4: Document session
print("\n" + "-"*70)
print("[5] Documenting Research Session")
print("-"*70)
session_path = agent.document_session(
topic='nx_materials_demo',
knowledge_gap=gap,
findings=findings,
knowledge=knowledge,
generated_files=[
'optimization_engine/custom_functions/nx_material_generator.py',
'knowledge_base/templates/material_xml_template.py'
]
)
print(f"\n Session saved to:")
print(f" {session_path}")
print(f"\n Files created:")
for file in ['user_question.txt', 'sources_consulted.txt', 'findings.md', 'decision_rationale.md']:
file_path = session_path / file
if file_path.exists():
print(f" [OK] {file}")
else:
print(f" [MISSING] {file}")
# Show content of findings
print("\n Preview of findings.md:")
findings_path = session_path / 'findings.md'
if findings_path.exists():
content = findings_path.read_text(encoding='utf-8')
for i, line in enumerate(content.split('\n')[:12]):
print(f" {line}")
print(" ...")
# Test 5: Now agent can generate materials
print("\n" + "-"*70)
print("[6] Agent is Now Ready to Generate Materials!")
print("-"*70)
print("\n Next time you request a material XML, the agent will:")
print(" 1. Search knowledge base and find this research session")
print(" 2. Retrieve the learned schema")
print(" 3. Generate new material XML following the pattern")
print(" 4. Confidence: HIGH (based on user-validated example)")
print("\n Example usage:")
print(' User: "Create aluminum alloy 6061-T6 material XML"')
print(' Agent: "I know how to do this! Using learned schema..."')
print(' [Generates XML with Al 6061-T6 properties]')
# Summary
print("\n" + "="*70)
print(" DEMO COMPLETE - Research Agent Successfully Learned!")
print("="*70)
print("\n What was accomplished:")
print(" [OK] Detected knowledge gap (material XML generation)")
print(" [OK] Learned XML schema from user example")
print(" [OK] Extracted reusable patterns")
print(" [OK] Documented research session for future reference")
print(" [OK] Ready to generate similar features autonomously")
print("\n Knowledge persisted in:")
print(f" {session_path}")
print("\n This demonstrates Phase 2: Self-Extending Research System")
print(" The agent can now learn ANY new capability from examples!\n")
if __name__ == '__main__':
try:
main()
except Exception as e:
print(f"\n[ERROR] {e}")
import traceback
traceback.print_exc()
sys.exit(1)
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