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 | Public Attributes | Static Public Attributes | List of all members
gid_output_process.GiDOutputProcess Class Reference
Inheritance diagram for gid_output_process.GiDOutputProcess:
Collaboration diagram for gid_output_process.GiDOutputProcess:

Public Member Functions

def __init__ (self, model_part, file_name, param=None)
 
def TranslateLegacyVariablesAccordingToCurrentStandard (self, settings)
 
def ExecuteInitialize (self)
 
def ExecuteBeforeSolutionLoop (self)
 Initialize output meshes. More...
 
def ExecuteInitializeSolutionStep (self)
 
def ExecuteFinalizeSolutionStep (self)
 
def IsOutputStep (self)
 
def PrintOutput (self)
 
def ExecuteFinalize (self)
 Finalize files and free resources. More...
 

Public Attributes

 param
 
 base_file_name
 
 model_part
 
 body_io
 
 volume_list_files
 
 cut_model_part
 
 cut_io
 
 output_surface_index
 
 cut_list_files
 
 point_output_process
 
 printed_step_count
 
 controller
 
 body_output
 
 node_output
 
 skin_output
 
 num_planes
 
 cut_manager
 
 nodal_variables
 
 gauss_point_variables
 
 nodal_nonhistorical_variables
 
 nodal_flags
 
 nodal_flags_names
 
 elemental_conditional_flags
 
 elemental_conditional_flags_names
 
 output_label_is_time
 
 time_label_format
 
 output_control_is_time
 
 output_interval
 
 flush_after_output
 
 multifile_flag
 
 volume_file_name
 
 cut_file_name
 
 post_mode
 
 write_deformed_mesh
 
 write_conditions
 

Static Public Attributes

 defaults = KM.Parameters()
 
 default_plane_output_data = KM.Parameters()
 

Constructor & Destructor Documentation

◆ __init__()

def gid_output_process.GiDOutputProcess.__init__ (   self,
  model_part,
  file_name,
  param = None 
)

Member Function Documentation

◆ ExecuteBeforeSolutionLoop()

def gid_output_process.GiDOutputProcess.ExecuteBeforeSolutionLoop (   self)

Initialize output meshes.

Reimplemented in pfem_solid_gid_output_process.PfemGiDOutputProcess.

◆ ExecuteFinalize()

def gid_output_process.GiDOutputProcess.ExecuteFinalize (   self)

Finalize files and free resources.

◆ ExecuteFinalizeSolutionStep()

def gid_output_process.GiDOutputProcess.ExecuteFinalizeSolutionStep (   self)

◆ ExecuteInitialize()

def gid_output_process.GiDOutputProcess.ExecuteInitialize (   self)

◆ ExecuteInitializeSolutionStep()

def gid_output_process.GiDOutputProcess.ExecuteInitializeSolutionStep (   self)

◆ IsOutputStep()

def gid_output_process.GiDOutputProcess.IsOutputStep (   self)

◆ PrintOutput()

def gid_output_process.GiDOutputProcess.PrintOutput (   self)

◆ TranslateLegacyVariablesAccordingToCurrentStandard()

def gid_output_process.GiDOutputProcess.TranslateLegacyVariablesAccordingToCurrentStandard (   self,
  settings 
)

Member Data Documentation

◆ base_file_name

gid_output_process.GiDOutputProcess.base_file_name

◆ body_io

gid_output_process.GiDOutputProcess.body_io

◆ body_output

gid_output_process.GiDOutputProcess.body_output

◆ controller

gid_output_process.GiDOutputProcess.controller

◆ cut_file_name

gid_output_process.GiDOutputProcess.cut_file_name

◆ cut_io

gid_output_process.GiDOutputProcess.cut_io

◆ cut_list_files

gid_output_process.GiDOutputProcess.cut_list_files

◆ cut_manager

gid_output_process.GiDOutputProcess.cut_manager

◆ cut_model_part

gid_output_process.GiDOutputProcess.cut_model_part

◆ default_plane_output_data

gid_output_process.GiDOutputProcess.default_plane_output_data = KM.Parameters()
static

◆ defaults

gid_output_process.GiDOutputProcess.defaults = KM.Parameters()
static

◆ elemental_conditional_flags

gid_output_process.GiDOutputProcess.elemental_conditional_flags

◆ elemental_conditional_flags_names

gid_output_process.GiDOutputProcess.elemental_conditional_flags_names

◆ flush_after_output

gid_output_process.GiDOutputProcess.flush_after_output

◆ gauss_point_variables

gid_output_process.GiDOutputProcess.gauss_point_variables

◆ model_part

gid_output_process.GiDOutputProcess.model_part

◆ multifile_flag

gid_output_process.GiDOutputProcess.multifile_flag

◆ nodal_flags

gid_output_process.GiDOutputProcess.nodal_flags

◆ nodal_flags_names

gid_output_process.GiDOutputProcess.nodal_flags_names

◆ nodal_nonhistorical_variables

gid_output_process.GiDOutputProcess.nodal_nonhistorical_variables

◆ nodal_variables

gid_output_process.GiDOutputProcess.nodal_variables

◆ node_output

gid_output_process.GiDOutputProcess.node_output

◆ num_planes

gid_output_process.GiDOutputProcess.num_planes

◆ output_control_is_time

gid_output_process.GiDOutputProcess.output_control_is_time

◆ output_interval

gid_output_process.GiDOutputProcess.output_interval

◆ output_label_is_time

gid_output_process.GiDOutputProcess.output_label_is_time

◆ output_surface_index

gid_output_process.GiDOutputProcess.output_surface_index

◆ param

gid_output_process.GiDOutputProcess.param

◆ point_output_process

gid_output_process.GiDOutputProcess.point_output_process

◆ post_mode

gid_output_process.GiDOutputProcess.post_mode

◆ printed_step_count

gid_output_process.GiDOutputProcess.printed_step_count

◆ skin_output

gid_output_process.GiDOutputProcess.skin_output

◆ time_label_format

gid_output_process.GiDOutputProcess.time_label_format

◆ volume_file_name

gid_output_process.GiDOutputProcess.volume_file_name

◆ volume_list_files

gid_output_process.GiDOutputProcess.volume_list_files

◆ write_conditions

gid_output_process.GiDOutputProcess.write_conditions

◆ write_deformed_mesh

gid_output_process.GiDOutputProcess.write_deformed_mesh

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