KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
Public Member Functions | Static Public Member Functions | Public Attributes | List of all members
visualization_mesh_process.VisualizationMeshProcess Class Reference

VisualizationMeshProcess. More...

Inheritance diagram for visualization_mesh_process.VisualizationMeshProcess:
Collaboration diagram for visualization_mesh_process.VisualizationMeshProcess:

Public Member Functions

def __init__ (self, model, settings)
 Constructor with Model and Parameters. More...
 
def ExecuteInitialize (self)
 Generate the topographic model part if specified or it already exists. More...
 
def ExecuteBeforeSolutionLoop (self)
 Initialize the visualization operations. More...
 
def ExecuteBeforeOutputStep (self)
 Perform the visualization operations. More...
 
def ExecuteAfterOutputStep (self)
 Restore the mesh deformation. More...
 

Static Public Member Functions

def GetDefaultParameters ()
 

Public Attributes

 model
 
 computing_model_part
 
 deform_free_surface
 
 deform_topography
 
 nodal_historical_displacement
 
 mean_water_level
 
 topographic_model_part
 
 duplicate_model_part
 
 nodal_variables
 
 nonhistorical_variables
 

Detailed Description

VisualizationMeshProcess.

This process provides several tools for post-processing.

Constructor & Destructor Documentation

◆ __init__()

def visualization_mesh_process.VisualizationMeshProcess.__init__ (   self,
  model,
  settings 
)

Constructor with Model and Parameters.

Member Function Documentation

◆ ExecuteAfterOutputStep()

def visualization_mesh_process.VisualizationMeshProcess.ExecuteAfterOutputStep (   self)

Restore the mesh deformation.

◆ ExecuteBeforeOutputStep()

def visualization_mesh_process.VisualizationMeshProcess.ExecuteBeforeOutputStep (   self)

Perform the visualization operations.

◆ ExecuteBeforeSolutionLoop()

def visualization_mesh_process.VisualizationMeshProcess.ExecuteBeforeSolutionLoop (   self)

Initialize the visualization operations.

◆ ExecuteInitialize()

def visualization_mesh_process.VisualizationMeshProcess.ExecuteInitialize (   self)

Generate the topographic model part if specified or it already exists.

◆ GetDefaultParameters()

def visualization_mesh_process.VisualizationMeshProcess.GetDefaultParameters ( )
static

Member Data Documentation

◆ computing_model_part

visualization_mesh_process.VisualizationMeshProcess.computing_model_part

◆ deform_free_surface

visualization_mesh_process.VisualizationMeshProcess.deform_free_surface

◆ deform_topography

visualization_mesh_process.VisualizationMeshProcess.deform_topography

◆ duplicate_model_part

visualization_mesh_process.VisualizationMeshProcess.duplicate_model_part

◆ mean_water_level

visualization_mesh_process.VisualizationMeshProcess.mean_water_level

◆ model

visualization_mesh_process.VisualizationMeshProcess.model

◆ nodal_historical_displacement

visualization_mesh_process.VisualizationMeshProcess.nodal_historical_displacement

◆ nodal_variables

visualization_mesh_process.VisualizationMeshProcess.nodal_variables

◆ nonhistorical_variables

visualization_mesh_process.VisualizationMeshProcess.nonhistorical_variables

◆ topographic_model_part

visualization_mesh_process.VisualizationMeshProcess.topographic_model_part

The documentation for this class was generated from the following file: