- Added Python execution capabilities via MCPServer, allowing scripts to interact with CtrEditor objects.
- Introduced methods for executing Python code and retrieving help on available objects.
- Updated osHydPump and osHydTank classes to remove direct hydraulic object management, leveraging the new unified hydraulic simulation system.
- Created documentation for Python integration and usage examples.
- Developed a script for analyzing screenshots to detect circular objects and assess their centering.
- Implemented tests for Python execution functionality to ensure proper integration and response handling.
- Addressed potential freeze issues in MCPServer and StateManager by improving async handling and cancellation support.
- Updated UserControlFactory to support hydraulic simulation manager in AssignDatos method.
- Introduced new classes for hydraulic simulation objects: simHydraulicBase, simHydraulicPump, simHydraulicTank, and simHydraulicPipe.
- Implemented methods for updating properties and applying simulation results in hydraulic components.
- Enhanced osHydPipe, osHydPump, and osHydTank classes to manage hydraulic simulation objects and their properties.
- Added methods for creating, removing, and clearing hydraulic simulation objects in HydraulicSimulationManager.
- Improved error handling and logging in various components to facilitate debugging.
- Refactored XAML and code-behind files to align with new namespace structure for hydraulic components.
Miguel