- Updated ucHydPipe.xaml to improve visual representation with drop shadows and flow indicators.
- Modified ucHydPump.xaml to include a background ellipse and improved status indicators.
- Simplified ucHydTank.xaml by removing unnecessary sections and enhancing the fluid level display.
- Added a new method CopyFrom in osBase.cs to facilitate property copying between objects.
- Replaced blocking Dispatcher.Invoke() calls with non-blocking Dispatcher.BeginInvoke() in MainViewModel, osBase, and ObjectManipulationManager to enhance responsiveness during simulations.
- Added checks for Dispatcher availability to prevent crashes during application shutdown.
- Implemented comprehensive error handling with try-catch blocks and logging for better debugging.
- Corrected hydraulic connection logic to use component names instead of IDs for better accuracy in osHydPump.
- Introduced methods for safe Dispatcher invocation with timeout handling in MCPServer.
- Enhanced debug logging for better traceability of errors and server status.
- Documented threading improvements and their impact on MCP stability in new markdown files.
- Updated `tsnet_direct_tests.py` to improve code formatting and consistency.
- Enhanced `tsnet_edge_test_suite.py` with better error handling and logging.
- Refactored `tsnet_mcp_test_suite.py` for improved structure and clarity.
- Revised `tsnet_simple_verification.py` for better readability and error checking.
- Added comprehensive migration summary for CtrEditor from IronPython to CPython.
- Introduced new test scripts (`test_debug.py`, `test_mcp.py`, `test_python.py`) for validating CPython integration.
- Ensured all tests are compatible with the new CPython environment and improved performance metrics.
- Implemented `tsnet_direct_tests.py` for direct testing of TSNet core functionalities without MCP.
- Created `tsnet_edge_test_suite.py` to handle edge cases and error management in TSNet.
- Developed `tsnet_mcp_test_suite.py` to test TSNet using MCP CtrEditor APIs, ensuring no freezing occurs.
- Introduced `tsnet_simple_verification.py` for a basic connectivity and functionality check of TSNet.
- 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 osHydPump.cs to replace NPSH and cavitation calculations with a simpler flow check.
- Modified pump status display to indicate whether the pump is pumping or not.
- Streamlined fluid updates in osHydPump.cs to only occur when there is flow.
- Refactored osHydTank.cs to consolidate flow handling and remove unnecessary three-section logic.
- Adjusted UI elements in ucHydTank.xaml to reflect changes in flow representation and removed deprecated visual indicators.
- Enhanced DebugConsoleServer.cs to improve client connection handling with timeout and error management.
- Added NPSH verification logic to PumpHQ and osHydPump classes.
- Introduced properties for NPSH available, cavitation factor, and operational status.
- Implemented NPSH testing on application startup in MainWindow.xaml.cs.
- Created a console application (NPSHTestConsole) for testing NPSH functionalities.
- Developed NPSHTestExample class to demonstrate original user problem and solutions.
- Enhanced osHydTank and osHydPump classes to support NPSH calculations and conditions.
- Added comprehensive logging for debugging and verification purposes.
- 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