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Atomizer/tests/test_phase_3_2_llm_mode.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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"""
Test Phase 3.2: LLM Mode Integration
Tests the new generic run_optimization.py with --llm flag support.
This test verifies:
1. Natural language request parsing with LLM
2. Workflow generation (engineering features, calculations, hooks)
3. Integration with LLMOptimizationRunner
4. Argument parsing and validation
Author: Antoine Letarte
Date: 2025-11-17
"""
import sys
from pathlib import Path
# Add parent directory to path
sys.path.insert(0, str(Path(__file__).parent.parent))
from optimization_engine.future.llm_workflow_analyzer import LLMWorkflowAnalyzer
def test_llm_workflow_analysis():
"""Test that LLM can analyze a natural language optimization request."""
print("=" * 80)
print("Test: LLM Workflow Analysis")
print("=" * 80)
print()
# Natural language request (same as bracket study)
request = """
Maximize displacement while ensuring safety factor is greater than 4.
Material: Aluminum 6061-T6 with yield strength of 276 MPa
Design variables:
- tip_thickness: 15 to 25 mm
- support_angle: 20 to 40 degrees
Run 20 trials using TPE algorithm.
"""
print("Natural Language Request:")
print(request)
print()
# Initialize analyzer (using Claude Code integration)
print("Initializing LLM Workflow Analyzer (Claude Code mode)...")
analyzer = LLMWorkflowAnalyzer(use_claude_code=True)
print()
# Analyze request
print("Analyzing request with LLM...")
print("(This will call Claude Code to parse the natural language)")
print()
try:
workflow = analyzer.analyze_request(request)
print("=" * 80)
print("LLM Analysis Results")
print("=" * 80)
print()
# Engineering features
print(f"Engineering Features ({len(workflow.get('engineering_features', []))}):")
for i, feature in enumerate(workflow.get('engineering_features', []), 1):
print(f" {i}. {feature.get('action')}: {feature.get('description')}")
print(f" Domain: {feature.get('domain')}")
print(f" Params: {feature.get('params')}")
print()
# Inline calculations
print(f"Inline Calculations ({len(workflow.get('inline_calculations', []))}):")
for i, calc in enumerate(workflow.get('inline_calculations', []), 1):
print(f" {i}. {calc.get('action')}")
print(f" Params: {calc.get('params')}")
print(f" Code hint: {calc.get('code_hint')}")
print()
# Post-processing hooks
print(f"Post-Processing Hooks ({len(workflow.get('post_processing_hooks', []))}):")
for i, hook in enumerate(workflow.get('post_processing_hooks', []), 1):
print(f" {i}. {hook.get('action')}")
print(f" Params: {hook.get('params')}")
print()
# Optimization config
opt_config = workflow.get('optimization', {})
print("Optimization Configuration:")
print(f" Algorithm: {opt_config.get('algorithm')}")
print(f" Direction: {opt_config.get('direction')}")
print(f" Design Variables ({len(opt_config.get('design_variables', []))}):")
for var in opt_config.get('design_variables', []):
print(f" - {var.get('parameter')}: {var.get('min')} to {var.get('max')} {var.get('units', '')}")
print()
print("=" * 80)
print("TEST PASSED: LLM successfully analyzed the request!")
print("=" * 80)
print()
return True
except Exception as e:
print()
print("=" * 80)
print(f"TEST FAILED: {e}")
print("=" * 80)
print()
import traceback
traceback.print_exc()
return False
def test_argument_parsing():
"""Test that run_optimization.py argument parsing works."""
print("=" * 80)
print("Test: Argument Parsing")
print("=" * 80)
print()
import subprocess
# Test help message
# Need to go up one directory since we're in tests/
result = subprocess.run(
["python", "../optimization_engine/run_optimization.py", "--help"],
capture_output=True,
text=True,
cwd=Path(__file__).parent
)
if result.returncode == 0 and "--llm" in result.stdout:
print("[OK] Help message displays correctly")
print("[OK] --llm flag is present")
print()
print("TEST PASSED: Argument parsing works!")
return True
else:
print("[FAIL] Help message failed or --llm flag missing")
print(result.stdout)
print(result.stderr)
return False
def main():
"""Run all tests."""
print()
print("=" * 80)
print("PHASE 3.2 INTEGRATION TESTS")
print("=" * 80)
print()
tests = [
("Argument Parsing", test_argument_parsing),
("LLM Workflow Analysis", test_llm_workflow_analysis),
]
results = []
for test_name, test_func in tests:
print()
passed = test_func()
results.append((test_name, passed))
# Summary
print()
print("=" * 80)
print("TEST SUMMARY")
print("=" * 80)
for test_name, passed in results:
status = "[PASSED]" if passed else "[FAILED]"
print(f"{status}: {test_name}")
print()
all_passed = all(passed for _, passed in results)
if all_passed:
print("All tests passed!")
else:
print("Some tests failed")
return all_passed
if __name__ == '__main__':
success = main()
sys.exit(0 if success else 1)
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