195 lines
7.1 KiB
Python
195 lines
7.1 KiB
Python
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"""
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Test Phase 2.6 with CBAR Element Genetic Algorithm Optimization
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Tests intelligent step classification with:
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- 1D element force extraction
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- Minimum value calculation (not maximum)
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- CBAR element (not CBUSH)
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- Genetic algorithm (not Optuna TPE)
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"""
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import sys
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from pathlib import Path
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# Set UTF-8 encoding for Windows console
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if sys.platform == 'win32':
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import codecs
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if not isinstance(sys.stdout, codecs.StreamWriter):
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if hasattr(sys.stdout, 'buffer'):
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sys.stdout = codecs.getwriter('utf-8')(sys.stdout.buffer, errors='replace')
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sys.stderr = codecs.getwriter('utf-8')(sys.stderr.buffer, errors='replace')
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project_root = Path(__file__).parent.parent
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sys.path.insert(0, str(project_root))
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from optimization_engine.workflow_decomposer import WorkflowDecomposer
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from optimization_engine.step_classifier import StepClassifier
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from optimization_engine.codebase_analyzer import CodebaseCapabilityAnalyzer
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from optimization_engine.capability_matcher import CapabilityMatcher
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def main():
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user_request = """I want to extract forces in direction Z of all the 1D elements and find the average of it, then find the minimum value and compere it to the average, then assign it to a objective metric that needs to be minimized.
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I want to iterate on the FEA properties of the Cbar element stiffness in X to make the objective function minimized.
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I want to use genetic algorithm to iterate and optimize this"""
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print('=' * 80)
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print('PHASE 2.6 TEST: CBAR Genetic Algorithm Optimization')
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print('=' * 80)
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print()
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print('User Request:')
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print(user_request)
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print()
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print('=' * 80)
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print()
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# Initialize all Phase 2.5 + 2.6 components
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decomposer = WorkflowDecomposer()
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classifier = StepClassifier()
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analyzer = CodebaseCapabilityAnalyzer()
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matcher = CapabilityMatcher(analyzer)
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# Step 1: Decompose workflow
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print('[1] Decomposing Workflow')
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print('-' * 80)
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steps = decomposer.decompose(user_request)
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print(f'Identified {len(steps)} workflow steps:')
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print()
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for i, step in enumerate(steps, 1):
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print(f' {i}. {step.action.replace("_", " ").title()}')
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print(f' Domain: {step.domain}')
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print(f' Params: {step.params}')
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print()
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# Step 2: Classify steps (Phase 2.6)
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print()
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print('[2] Classifying Steps (Phase 2.6 Intelligence)')
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print('-' * 80)
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classified = classifier.classify_workflow(steps, user_request)
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print(classifier.get_summary(classified))
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print()
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# Step 3: Match to capabilities (Phase 2.5)
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print()
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print('[3] Matching to Existing Capabilities (Phase 2.5)')
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print('-' * 80)
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match = matcher.match(steps)
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print(f'Coverage: {match.coverage:.0%} ({len(match.known_steps)}/{len(steps)} steps)')
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print(f'Confidence: {match.overall_confidence:.0%}')
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print()
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print('KNOWN Steps (Already Implemented):')
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if match.known_steps:
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for i, known in enumerate(match.known_steps, 1):
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print(f' {i}. {known.step.action.replace("_", " ").title()} ({known.step.domain})')
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if known.implementation != 'unknown':
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impl_name = Path(known.implementation).name if ('\\' in known.implementation or '/' in known.implementation) else known.implementation
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print(f' File: {impl_name}')
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else:
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print(' None')
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print()
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print('MISSING Steps (Need Research):')
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if match.unknown_steps:
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for i, unknown in enumerate(match.unknown_steps, 1):
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print(f' {i}. {unknown.step.action.replace("_", " ").title()} ({unknown.step.domain})')
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print(f' Required: {unknown.step.params}')
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if unknown.similar_capabilities:
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similar_str = ', '.join(unknown.similar_capabilities)
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print(f' Similar to: {similar_str}')
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print(f' Confidence: {unknown.confidence:.0%} (can adapt)')
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else:
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print(f' Confidence: {unknown.confidence:.0%} (needs research)')
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print()
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else:
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print(' None - all capabilities are known!')
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print()
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# Step 4: Intelligent Analysis
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print()
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print('[4] Intelligent Decision: What to Research vs Auto-Generate')
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print('-' * 80)
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print()
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eng_features = classified['engineering_features']
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inline_calcs = classified['inline_calculations']
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hooks = classified['post_processing_hooks']
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print('ENGINEERING FEATURES (Need Research/Documentation):')
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if eng_features:
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for item in eng_features:
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step = item['step']
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classification = item['classification']
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print(f' - {step.action} ({step.domain})')
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print(f' Reason: {classification.reasoning}')
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print(f' Requires documentation: {classification.requires_documentation}')
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print()
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else:
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print(' None')
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print()
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print('INLINE CALCULATIONS (Auto-Generate Python):')
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if inline_calcs:
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for item in inline_calcs:
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step = item['step']
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classification = item['classification']
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print(f' - {step.action}')
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print(f' Complexity: {classification.complexity}')
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print(f' Auto-generate: {classification.auto_generate}')
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print()
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else:
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print(' None')
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print()
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print('POST-PROCESSING HOOKS (Generate Middleware):')
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if hooks:
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for item in hooks:
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step = item['step']
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print(f' - {step.action}')
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print(f' Will generate hook script for custom objective calculation')
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print()
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else:
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print(' None detected (but likely needed based on request)')
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print()
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# Step 5: Key Differences from Previous Test
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print()
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print('[5] Differences from CBUSH/Optuna Request')
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print('-' * 80)
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print()
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print('Changes Detected:')
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print(' - Element type: CBAR (was CBUSH)')
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print(' - Direction: X (was Z)')
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print(' - Metric: minimum (was maximum)')
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print(' - Algorithm: genetic algorithm (was Optuna TPE)')
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print()
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print('What This Means:')
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print(' - CBAR stiffness properties are different from CBUSH')
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print(' - Genetic algorithm may not be implemented (Optuna is)')
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print(' - Same pattern for force extraction (Z direction still works)')
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print(' - Same pattern for intermediate calculations (min vs max is trivial)')
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print()
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# Summary
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print()
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print('=' * 80)
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print('SUMMARY: Atomizer Intelligence')
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print('=' * 80)
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print()
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print(f'Total Steps: {len(steps)}')
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print(f'Engineering Features: {len(eng_features)} (research needed)')
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print(f'Inline Calculations: {len(inline_calcs)} (auto-generate)')
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print(f'Post-Processing Hooks: {len(hooks)} (auto-generate)')
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print()
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print('Research Effort:')
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print(f' Features needing documentation: {sum(1 for item in eng_features if item["classification"].requires_documentation)}')
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print(f' Features needing research: {sum(1 for item in eng_features if item["classification"].requires_research)}')
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print(f' Auto-generated code: {len(inline_calcs) + len(hooks)} items')
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print()
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if __name__ == '__main__':
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main()
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