""" nx_material_generator_demo Auto-generated feature for nx material generator demo Auto-generated by Research Agent Created: 2025-11-16 Confidence: 0.95 """ from pathlib import Path from typing import Dict, Any, Optional import xml.etree.ElementTree as ET def nx_material_generator_demo( density: float, youngmodulus: float, poissonratio: float, thermalexpansion: float, yieldstrength: float ) -> Dict[str, Any]: """ Auto-generated feature for nx material generator demo Args: density: Density parameter from learned schema youngmodulus: YoungModulus parameter from learned schema poissonratio: PoissonRatio parameter from learned schema thermalexpansion: ThermalExpansion parameter from learned schema yieldstrength: YieldStrength parameter from learned schema Returns: Dictionary with generated results """ # Generate XML from learned schema root = ET.Element("PhysicalMaterial") # Add attributes if any root.set("name", "Steel_AISI_1020") root.set("version", "1.0") # Add child elements from parameters if density is not None: elem = ET.SubElement(root, "Density") elem.text = str(density) if youngmodulus is not None: elem = ET.SubElement(root, "YoungModulus") elem.text = str(youngmodulus) if poissonratio is not None: elem = ET.SubElement(root, "PoissonRatio") elem.text = str(poissonratio) if thermalexpansion is not None: elem = ET.SubElement(root, "ThermalExpansion") elem.text = str(thermalexpansion) if yieldstrength is not None: elem = ET.SubElement(root, "YieldStrength") elem.text = str(yieldstrength) # Convert to string xml_str = ET.tostring(root, encoding="unicode") return { "xml_content": xml_str, "root_element": root.tag, "success": True } # Example usage if __name__ == "__main__": result = nx_material_generator_demo( density=None, # TODO: Provide example value youngmodulus=None, # TODO: Provide example value poissonratio=None, # TODO: Provide example value thermalexpansion=None, # TODO: Provide example value yieldstrength=None, # TODO: Provide example value ) print(result)