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results_journal.py
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results_journal.py
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# encoding: utf-8
# 2020 R1
SetScriptVersion(Version="20.1.164")
import os
import time
from datetime import date
from datetime import datetime
class Mesh_Properties:
'''
Mesh_Properties object stores the name and directory of the exported .CAS file containing the mesh.
Instance Variables
---------------------
CAS_name : Name of .CAS file containing the mesh. Does not include file extension. [str]
CAS_dir : Directory containing the .CAS file with the name as indicated in CAS_name. [str]
'''
def __init__(self, CAS_name = None, CAS_dir = None, body_size = None):
'''Define instance variables.'''
self.CAS_name = CAS_name
self.CAS_dir = CAS_dir
self.body_size = body_size
def __str__(self):
'''Print properties of Mesh_Properties object.'''
return "\n----MESH PROPERTIES----\nCAS file: {}\nLocated in {}\nBody size: {}".format(self.CAS_name, self.CAS_dir, self.body_size)
class Dimension_Properties:
'''
Dimension_Properties object stores the dimensional properties of the object to be simulated.
Instance Variables
---------------------
area : Reference area of aerobody in m^2. Typically the surface area. [float]
length : Reference length of aerobody in m. Typically the length in the x dimension. [float]
CG_X : X-coordinate of aerobody center of gravity in m. [float]
CG_Y : Y-coordinate of aerobody center of gravity in m. [float]
CG_Z : Z-coordinate of aerobody center of gravity in m. [float]
'''
def __init__(self, area = None, length = None, CG_X = None, CG_Y = None, CG_Z = None):
'''Define instance variables.'''
self.area = area #Stored in m^2
self.length = length #Stored in m
self.CG_X = CG_X #Stored in m
self.CG_Y = CG_Y #Stored in m
self.CG_Z = CG_Z #Stored in m
def __str__(self):
'''Print properties of Dimension_Properties object.'''
return "\n----DIMENSION PROPERTIES----\nArea is {}. Length is {}. Center of Gravity is ({}, {}, {})".format(self.area, self.length, self.CG_X, self.CG_Y, self.CG_Z)
class Workflow_Properties:
'''
Workflow_Properties object stores the simulation setup and post-processing parameters.
Instance Variables
---------------------
sol_method : Desired solution method. Either K-W or T-SST. [str]
velocity : Inlet and road velocity. [float]
cg : Specification of whether CG is entered and valid. [bool]
post : Specification of whether post-processing is desired if simulation converges. [bool]
streamlines : Specification of whether streamline animations are desired in post-processing. [bool]
'''
def __init__(self, sol_method = None, velocity = None, cg = None, post = None, streamlines = None):
'''Define instance variables.'''
self.sol_method = sol_method #Either K-W or T-SST
self.velocity = velocity
self.cg = cg #Either True or False
self.post = post #Either True or False
self.streamlines = streamlines #True or False
def __str__(self):
'''Print properties of Dimension_Properties object.'''
return "\n----WORKFLOW PROPERTIES----\nSolution method: {}\nVelocity: {}\nCG: {}\nPost-Processing: {}\nStreamline Animations: {}".format(self.sol_method, self.velocity, self.cg, self.post, self.streamlines)
class Simulation_Results:
'''
Simulation_Results object stores the extracted numerical results of the FLUENT simulation.
Instance Variables
---------------------
convergence : Convergence status of completed simulation. [str]
iterations : Number of iterations completed before convergence status reached. [int]
drag_tot : Total drag force experienced in positive x direction in Newtons. [str]
drag_comp : Pressure and viscous drag force components experienced in positive x direction in Newtons. [str]
lift_tot : Total lift force experienced in positive z direction in Newtons. [str]
lift_comp : Pressure and viscous lift force components experienced in positive z direction in Newtons. [str]
f_left : Total aerodynamic force experienced in negative y direction in Newtons. [str]
f_right : Total aerodynamic force experienced in positive y direction in Newtons. [str]
mom_roll : Total aerodynamic moment experienced about x axis in Newton-metres. [str]
mom_pitch : Total aerodynamic moment experienced about y axis in Newton-metres. [str]
mom_yaw : Total aerodynamic moment experienced about z axis in Newton-metres. [str]
'''
def __init__(self, convergence = None, iterations = None, drag_tot = None, drag_comp = None, lift_tot = None, lift_comp = None, f_left = None, f_right = None, mom_roll = None, mom_pitch = None, mom_yaw = None, cop = None):
'''Define instance variables.'''
self.convergence = convergence
self.iterations = iterations
self.drag_tot = drag_tot
self.drag_comp = drag_comp
self.lift_tot = lift_tot
self.lift_comp = lift_comp
self.f_left = f_left
self.f_right = f_right
self.mom_roll = mom_roll
self.mom_pitch = mom_pitch
self.mom_yaw = mom_yaw
self.cop = cop
class Simulation:
'''
Simulation object contains all ANSYS module, mesh, 3D model, simulation workflow, and results processing parameters to be used in the course of CFD simulations in ANSYS Fluent and CFD-Post.
Instance Variables
---------------------
sim_name : Name of simulation. [str]
mesh : Instance of Mesh_Properties object.
dimension : Instance of Dimension_Properties object.
workflow : Instance of Workflow_Properties object.
results : Instance of Simulation_Results object.
'''
def __init__(self, sim_name = None, mesh = None, dimension = None, workflow = None, results = None):
'''Define instance variables.'''
self.sim_name = sim_name
self.mesh = mesh
self.dimension = dimension
self.workflow = workflow
self.results = results
def __str__(self):
'''Print properties of Simulation object.'''
return ("\n--------SIMULATION PROPERTIES--------\nSimulation: {} {} {} {}\n".format(self.sim_name, self.mesh, self.dimension, self.workflow))
class Project:
'''
Project object contains governing parameters to be used in project.
Instance Variables
---------------------
proj_name : Name of ANSYS Workbench project. [str]
proj_dir : Directory in which the ANSYS Workbench project should be stored. [str]
results_dir : Directory in which the numerical and post-processing results should be stored. [str]
processes : Number of processes to use during simulations. [int]
'''
def __init__(self, proj_name = None, proj_dir = None, results_dir = None, processes = None):
'''Define instance variables.'''
self.proj_name = proj_name
self.proj_dir = proj_dir
self.results_dir = results_dir
self.processes = processes
def __str__(self):
'''Print properties of Project object'''
return("\n--------PROJECT PROPERTIES--------\nProject name: {}\nProject directory: {}\nResults directory: {}\nProcesses: {}".format(self.proj_name, self.proj_dir, self.results_dir, self.processes))
def param_extract(input_file):
'''
Extracts simulation parameters from CSV of name indicated by input_file to instances of Simulation object and stores in list.
Str -> List
Parameters
---------------------
input_file : string
String containing name and file extension of CSV file with simulation parameters to be imported.
Returns
---------------------
output_list : list
List containing instances of Simulation object generated from each line of CSV file.
project_parameters : Project
Instance of class Project generated from the CSV File.
'''
all_sim_param = open(input_file, 'r')
next(all_sim_param)
lines = all_sim_param.readlines()
proj_param_input = lines[0].split(",")
wb_proj_param = proj_param_extract(proj_param_input)
output_list = []
half_body = ["hb", "h-b", "half body", "half-body"]
full_body = ["fb", "f-b", "full body", "full-body"]
for line in lines:
line = line.split(",")
if (line[3].lower() in half_body):
sim_mesh = Mesh_Properties(line[1], line[2], "HB")
elif (line[3].lower() in full_body):
sim_mesh = Mesh_Properties(line[1], line[2], "FB")
if (line[8] == "Y") or (line[8] == "y"):
sim_dimensions = Dimension_Properties(float(line[6]), float(line[7]), float(line[9]), float(line[10]), float(line[11]))
CG_bool = True
else:
sim_dimensions = Dimension_Properties(float(line[6]), float(line[7]), 0, 0, 0)
CG_bool = False
if (line[12] == "Y") or (line[12] == "y"):
post_bool = True
else:
post_bool = False
if (line[13] == "Y") or (line[13] == "y"):
streamlines_bool = True
else:
streamlines_bool = False
if line[5] == "":
velocity = 18.0
else:
velocity = float(line[5])
sim_workflow = Workflow_Properties(line[4], velocity, CG_bool, post_bool, streamlines_bool)
sim_param = Simulation(line[0], sim_mesh, sim_dimensions, sim_workflow, Simulation_Results())
output_list.append(sim_param)
all_sim_param.close
return(output_list, wb_proj_param)
def proj_param_extract(line):
'''
Extracts global project parameters from list containing split string to instance of Project class.
List -> Project (class)
Parameters
---------------------
line : List
List containing strings with project parameters.
Returns
---------------------
proj_param : Project (class)
Instance of Project class containing parameters of Workbench project.
'''
proj_param = Project(line[15], line[16], line[17], line[18])
return(proj_param)
def initialize_project(project):
'''
Initializes ANSYS Workbench project.
Parameters
---------------------
project : Project object
Instance of Project class containing project parameters.
Returns
---------------------
None
'''
proj_directory = project.proj_dir.replace(os.sep, '/')
Save(
FilePath="{}/{}.wbpj".format(proj_directory, project.proj_name),
Overwrite=True)
return
def results_dir(sim_list, proj_params):
'''
Runs results_dir_check on each simulation in a list of simulations.
Parameters
---------------------
sim_list : list
List containing instances of Simulation object.
proj_params : Project objects
Instance of Project class containing project parameters.
Returns
---------------------
None
'''
for simulation in sim_list:
results_dir_check(proj_params.results_dir, simulation.sim_name, simulation.workflow.post, simulation.workflow.streamlines, simulation.results.convergence)
return
def results_dir_check(path, name, post, streamlines, status):
'''
Checks if path to results folder exists and creates parent and sub-folders for indicated results folder and post-processing folders.
Parameters
---------------------
path : str
Path to results folder for simulation.
post : bool
Boolean variable indicating whether post-processing results are desired.
streamlines : bool
Boolean variable indicating whether streamline animations are desired.
Returns
---------------------
None
'''
if (os.path.exists(path) == False):
os.mkdir(path)
sim_path = os.path.join(path, name)
if (status == "Converged"):
if (os.path.exists(sim_path) == False):
os.mkdir(sim_path)
raw_results_dir = os.path.join(sim_path, "Raw Results")
os.mkdir(raw_results_dir)
if post:
media_dir = os.path.join(sim_path, "Media Files")
if (os.path.exists(media_dir) == False):
os.mkdir(media_dir)
media_subdir = ["\\3D Cp Contour", "\\Pressure Contour", "\\TKE Contour", "\\Wall Shear Streamline"]
for subdir in media_subdir:
if (os.path.exists(media_dir + subdir) == False):
os.mkdir(media_dir + subdir)
if streamlines:
if (os.path.exists(media_dir + "\\Streamline Animations")) == False:
os.mkdir(media_dir + "\\Streamline Animations")
return
def fluent_sim_setup(sim_list, processes):
'''
Checks solution method to be used and runs appropriate Fluent module setup.
Parameters
---------------------
sim_list : list
List containing instances of Simulation object.
Returns
---------------------
None
'''
komega = ["komega", "k-omega", "k-w", "kw"]
tsst = ["t-sst", "tsst"]
# design_points = []
for i in range(len(sim_list)):
sim = sim_list[i]
if sim.workflow.sol_method.lower() in komega:
komega_setup(sim, processes)
elif sim.workflow.sol_method.lower() in tsst:
tsst_setup(sim, processes)
Save(Overwrite=True)
designPoint1 = Parameters.GetDesignPoint(Name="0")
backgroundSession1 = UpdateAllDesignPoints(DesignPoints = [designPoint1])
return
def komega_setup(simulation, processes):
'''
Performs setup of Fluent module with K-W solution method.
Parameters
---------------------
simulation : Simulation object
Instance of Simulation object.
processes : int
Integer containing number of parallel processes to use in simulation.
Returns
---------------------
None
'''
template1 = GetTemplate(TemplateName="FLUENT")
system1 = template1.CreateSystem()
system1.DisplayText = simulation.sim_name
setup1 = system1.GetContainer(ComponentName="Setup")
fluentLauncherSettings1 = setup1.GetFluentLauncherSettings()
fluentLauncherSettings1.SetEntityProperties(Properties=Set(Dimension="ThreeD", EnvPath={}, RunParallel=True, NumberOfProcessors=processes))
setup1.Edit()
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"MenuBar*ImportSubMenu*Case...\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"{}/{}.cas\") \"All Case Files (*.cas* *.msh* *.MSH* )\")".format((simulation.mesh.CAS_dir.replace(os.sep, '/')), simulation.mesh.CAS_name))
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "General*Table1*ButtonBox1(Mesh)*PushButton1(Scale)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-selections \"Scale Mesh*Table1*Table2(Scaling)*DropDownList2(Mesh Was Created In)\" '( 3))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Scale Mesh*Table1*Table2(Scaling)*DropDownList2(Mesh Was Created In)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Scale Mesh*Table1*Table2(Scaling)*PushButton4(Scale)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Scale Mesh*PanelButtons*PushButton1(Close)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "General*Table1*ButtonBox1(Mesh)*PushButton3(Check)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "General*Table1*ButtonBox1(Mesh)*PushButton5(Report Quality)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Models|Viscous (SST k-omega)"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Models|Viscous (SST k-omega)"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Models|Viscous (SST k-omega)"))(cx-gui-do cx-activate-item "Viscous Model*PanelButtons*PushButton1(OK)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Materials|Fluid|air"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Materials|Fluid|air"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Setup|Materials|Fluid|air\"))(cx-gui-do cx-set-real-entry-list \"Create/Edit Materials*RealEntry10\" '( 1.177))(cx-gui-do cx-set-real-entry-list \"Create/Edit Materials*RealEntry16\" '( 1.846e-05))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Create/Edit Materials*PanelButtons*PushButton3(Change/Create)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Create/Edit Materials*PanelButtons*PushButton1(Close)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Inlet|inlet (velocity-inlet, id=5)"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Inlet|inlet (velocity-inlet, id=5)"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Setup|Boundary Conditions|Inlet|inlet (velocity-inlet, id=5)\"))(cx-gui-do cx-set-list-selections \"Velocity Inlet*Frame3*Frame1(Momentum)*Table1*DropDownList6(Velocity Specification Method)\" '( 0))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Velocity Inlet*Frame3*Frame1(Momentum)*Table1*DropDownList6(Velocity Specification Method)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-expression-entry \"Velocity Inlet*Frame3*Frame1(Momentum)*Table1*Table8*ExpressionEntry1(Velocity Magnitude)\" '(\"{}\" . 0))(cx-gui-do cx-activate-item \"Velocity Inlet*PanelButtons*PushButton1(OK)\")".format(simulation.workflow.velocity))
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|road (wall, id=7)"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|road (wall, id=7)"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Setup|Boundary Conditions|Wall|road (wall, id=7)\"))(cx-gui-do cx-set-toggle-button2 \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*ToggleBox1(Wall Motion)*Moving Wall\" #t)(cx-gui-do cx-activate-item \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*ToggleBox1(Wall Motion)*Moving Wall\")(cx-gui-do cx-set-toggle-button2 \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*Table2(Motion)*Table1*ToggleBox1*Absolute\" #t)(cx-gui-do cx-activate-item \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*Table2(Motion)*Table1*ToggleBox1*Absolute\")(cx-gui-do cx-set-expression-entry \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*Table2(Motion)*Table2*Table1*ExpressionEntry1(Speed)\" '(\"{}\" . 0))(cx-gui-do cx-activate-item \"Wall*PanelButtons*PushButton1(OK)\")".format(simulation.workflow.velocity))
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|walls (wall, id=8)"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|walls (wall, id=8)"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|walls (wall, id=8)"))(cx-gui-do cx-set-toggle-button2 "Wall*Frame3*Frame1(Momentum)*Table1*Frame2*Frame1*Table1*ToggleBox1(Shear Condition)*Specified Shear" #t)(cx-gui-do cx-activate-item "Wall*Frame3*Frame1(Momentum)*Table1*Frame2*Frame1*Table1*ToggleBox1(Shear Condition)*Specified Shear")(cx-gui-do cx-activate-item "Wall*PanelButtons*PushButton1(OK)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Frames"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Frames"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Frames"))(cx-gui-do cx-activate-item "Reference Frame*PanelButtons*PushButton2(Cancel)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Values"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Values"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Setup|Reference Values\"))(cx-gui-do cx-set-list-selections \"Reference Values*DropDownList1(Compute from)\" '( 3))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Reference Values*DropDownList1(Compute from)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Reference Values*Table2(Reference Values)*RealEntry1(Area)\" '({}))(cx-gui-do cx-activate-item \"Reference Values*Table2(Reference Values)*RealEntry1(Area)\")".format(simulation.dimension.area))
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Reference Values*Table2(Reference Values)*RealEntry5(Length)\" '({}))(cx-gui-do cx-activate-item \"Reference Values*Table2(Reference Values)*RealEntry5(Length)\")".format(simulation.dimension.length))
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Methods"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Methods"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Solution|Methods\"))(cx-gui-do cx-set-list-selections \"Solution Methods*Table1*Table2(Pressure-Velocity Coupling)*DropDownList2(Scheme)\" '( 3))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Solution Methods*Table1*Table2(Pressure-Velocity Coupling)*DropDownList2(Scheme)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-selections \"Solution Methods*Table1*Table3(Spatial Discretization)*DropDownList2(Pressure)\" '( 1))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Solution Methods*Table1*Table3(Spatial Discretization)*DropDownList2(Pressure)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-toggle-button2 "Solution Methods*Table1*CheckButton5(Pseudo Transient)" #t)(cx-gui-do cx-activate-item "Solution Methods*Table1*CheckButton5(Pseudo Transient)")(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Report Definitions"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Report Definitions"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Report Definitions"))')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Report Definitions*Table1*ButtonBox3*PushButton1(New)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "MenuBar*Force ReportSubMenu*Drag...")')
setup1.SendCommand(Command='(cx-gui-do cx-set-toggle-button2 "Drag Report Definition*Table1*Table2*ToggleBox1(Report Output Type)*Drag Force" #t)(cx-gui-do cx-activate-item "Drag Report Definition*Table1*Table2*ToggleBox1(Report Output Type)*Drag Force")(cx-gui-do cx-set-text-entry "Drag Report Definition*Table1*TextEntry3(Name)" "drag")(cx-gui-do cx-activate-item "Drag Report Definition*Table1*TextEntry3(Name)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-selections \"Drag Report Definition*Table1*Table2*List2(Wall Zones)\" '( 0))(cx-gui-do cx-activate-item \"Drag Report Definition*Table1*Table2*List2(Wall Zones)\")(cx-gui-do cx-set-toggle-button2 \"Drag Report Definition*Table1*Table1*Table5(Create)*CheckButton1(Report File)\" #t)(cx-gui-do cx-activate-item \"Drag Report Definition*Table1*Table1*Table5(Create)*CheckButton1(Report File)\")(cx-gui-do cx-set-toggle-button2 \"Drag Report Definition*Table1*Table1*Table5(Create)*CheckButton2(Report Plot)\" #t)(cx-gui-do cx-activate-item \"Drag Report Definition*Table1*Table1*Table5(Create)*CheckButton2(Report Plot)\")(cx-gui-do cx-set-toggle-button2 \"Drag Report Definition*Table1*Table1*CheckButton6(Create Output Parameter)\" #t)(cx-gui-do cx-activate-item \"Drag Report Definition*Table1*Table1*CheckButton6(Create Output Parameter)\")(cx-gui-do cx-activate-item \"Drag Report Definition*PanelButtons*PushButton1(OK)\")")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Report Definitions*Table1*ButtonBox3*PushButton1(New)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "MenuBar*Force ReportSubMenu*Lift...")')
setup1.SendCommand(Command='(cx-gui-do cx-set-text-entry "Lift Report Definition*Table1*TextEntry3(Name)" "lift")(cx-gui-do cx-activate-item "Lift Report Definition*Table1*TextEntry3(Name)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-toggle-button2 \"Lift Report Definition*Table1*Table2*ToggleBox1(Report Output Type)*Drag Force\" #t)(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table2*ToggleBox1(Report Output Type)*Drag Force\")(cx-gui-do cx-set-list-selections \"Lift Report Definition*Table1*Table2*List2(Wall Zones)\" '( 0))(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table2*List2(Wall Zones)\")(cx-gui-do cx-set-real-entry-list \"Lift Report Definition*Table1*Table1*Table2(Force Vector)*RealEntry2(Y)\" '( 0))(cx-gui-do cx-set-real-entry-list \"Lift Report Definition*Table1*Table1*Table2(Force Vector)*RealEntry3(Z)\" '( 1))(cx-gui-do cx-set-toggle-button2 \"Lift Report Definition*Table1*Table1*Table5(Create)*CheckButton1(Report File)\" #t)(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table1*Table5(Create)*CheckButton1(Report File)\")(cx-gui-do cx-set-toggle-button2 \"Lift Report Definition*Table1*Table1*Table5(Create)*CheckButton2(Report Plot)\" #t)(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table1*Table5(Create)*CheckButton2(Report Plot)\")(cx-gui-do cx-set-toggle-button2 \"Lift Report Definition*Table1*Table1*CheckButton6(Create Output Parameter)\" #t)(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table1*CheckButton6(Create Output Parameter)\")(cx-gui-do cx-activate-item \"Report Definitions*PanelButtons*PushButton1(Close)\")")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Lift Report Definition*PanelButtons*PushButton1(OK)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Run Calculation"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Run Calculation"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Solution|Run Calculation\"))(cx-gui-do cx-set-list-selections \"Run Calculation*Table1*Table2(Pseudo Transient Settings)*Table1(Fluid Time Scale)*Table1*DropDownList2(Length Scale Method)\" '( 2))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Run Calculation*Table1*Table2(Pseudo Transient Settings)*Table1(Fluid Time Scale)*Table1*DropDownList2(Length Scale Method)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Run Calculation*Table1*Table2(Pseudo Transient Settings)*Table1(Fluid Time Scale)*Table3*RealEntry3(Length Scale)\" '( {}))(cx-gui-do cx-activate-item \"Run Calculation*Table1*Table2(Pseudo Transient Settings)*Table1(Fluid Time Scale)*Table3*RealEntry3(Length Scale)\")".format(simulation.dimension.length))
setup1.SendCommand(Command='(cx-gui-do cx-set-integer-entry "Run Calculation*Table1*Table3(Parameters)*Table1*Table1*IntegerEntry1(Number of Iterations)" 600)(cx-gui-do cx-activate-item "Run Calculation*Table1*Table3(Parameters)*Table1*Table1*IntegerEntry1(Number of Iterations)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Initialization"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Initialization"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Initialization"))')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Solution Initialization*Table1*Frame11*PushButton2(Initialize)")')
setup1.SendCommand(Command="/mesh/repair-improve/allow-repair-at-boundaries yes")
setup1.SendCommand(Command="/mesh/repair-improve/include-local-polyhedra-conversion-in-repair yes")
setup1.SendCommand(Command="/mesh/repair-improve/repair")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "MenuBar*FileMenu*Close Fluent")')
Save(Overwrite=True)
return
def tsst_setup(simulation, processes):
'''
Performs setup of Fluent module with T-SST solution method.
Parameters
---------------------
simulation : Simulation object
Instance of Simulation object.
processes : int
Integer containing number of parallel processes to use in simulation.
Returns
---------------------
None
'''
template1 = GetTemplate(TemplateName="FLUENT")
system1 = template1.CreateSystem()
system1.DisplayText = simulation.sim_name
setup1 = system1.GetContainer(ComponentName="Setup")
fluentLauncherSettings1 = setup1.GetFluentLauncherSettings()
fluentLauncherSettings1.SetEntityProperties(Properties=Set(Dimension="ThreeD", EnvPath={}, RunParallel=True, NumberOfProcessors=processes))
setup1.Edit()
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"MenuBar*ImportSubMenu*Case...\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"{}/{}.cas\") \"All Case Files (*.cas* *.msh* *.MSH* )\")".format((simulation.mesh.CAS_dir.replace(os.sep, '/')), simulation.mesh.CAS_name))
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "General*Table1*ButtonBox1(Mesh)*PushButton1(Scale)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-selections \"Scale Mesh*Table1*Table2(Scaling)*DropDownList2(Mesh Was Created In)\" '( 3))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Scale Mesh*Table1*Table2(Scaling)*DropDownList2(Mesh Was Created In)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Scale Mesh*Table1*Table2(Scaling)*PushButton4(Scale)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Scale Mesh*PanelButtons*PushButton1(Close)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "General*Table1*ButtonBox1(Mesh)*PushButton3(Check)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "General*Table1*ButtonBox1(Mesh)*PushButton5(Report Quality)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Models|Viscous (SST k-omega)"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Models|Viscous (SST k-omega)"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Models|Viscous (SST k-omega)"))(cx-gui-do cx-set-toggle-button2 "Viscous Model*Table1*ToggleBox1(Model)*Transition SST (4 eqn)" #t)(cx-gui-do cx-activate-item "Viscous Model*Table1*ToggleBox1(Model)*Transition SST (4 eqn)")(cx-gui-do cx-activate-item "Viscous Model*PanelButtons*PushButton1(OK)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Models|Viscous (Transition SST (4 eqn))"))(cx-gui-do cx-activate-item "Viscous Model*PanelButtons*PushButton1(OK)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Materials|Fluid|air"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Materials|Fluid|air"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Setup|Materials|Fluid|air\"))(cx-gui-do cx-set-real-entry-list \"Create/Edit Materials*RealEntry10\" '( 1.177))(cx-gui-do cx-set-real-entry-list \"Create/Edit Materials*RealEntry16\" '( 1.846e-05))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Create/Edit Materials*PanelButtons*PushButton3(Change/Create)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Create/Edit Materials*PanelButtons*PushButton1(Close)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Inlet|inlet (velocity-inlet, id=5)"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Inlet|inlet (velocity-inlet, id=5)"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Setup|Boundary Conditions|Inlet|inlet (velocity-inlet, id=5)\"))(cx-gui-do cx-set-list-selections \"Velocity Inlet*Frame3*Frame1(Momentum)*Table1*DropDownList6(Velocity Specification Method)\" '( 0))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Velocity Inlet*Frame3*Frame1(Momentum)*Table1*DropDownList6(Velocity Specification Method)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-expression-entry \"Velocity Inlet*Frame3*Frame1(Momentum)*Table1*Table8*ExpressionEntry1(Velocity Magnitude)\" '(\"{}\" . 0))(cx-gui-do cx-activate-item \"Velocity Inlet*PanelButtons*PushButton1(OK)\")".format(simulation.workflow.velocity))
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|road (wall, id=7)"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|road (wall, id=7)"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Setup|Boundary Conditions|Wall|road (wall, id=7)\"))(cx-gui-do cx-set-toggle-button2 \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*ToggleBox1(Wall Motion)*Moving Wall\" #t)(cx-gui-do cx-activate-item \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*ToggleBox1(Wall Motion)*Moving Wall\")(cx-gui-do cx-set-toggle-button2 \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*Table2(Motion)*Table1*ToggleBox1*Absolute\" #t)(cx-gui-do cx-activate-item \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*Table2(Motion)*Table1*ToggleBox1*Absolute\")(cx-gui-do cx-set-expression-entry \"Wall*Frame3*Frame1(Momentum)*Table1*Frame1*Frame1*Table1*Table2(Motion)*Table2*Table1*ExpressionEntry1(Speed)\" '(\"{}\" . 0))(cx-gui-do cx-activate-item \"Wall*PanelButtons*PushButton1(OK)\")".format(simulation.workflow.velocity))
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|walls (wall, id=8)"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|walls (wall, id=8)"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Boundary Conditions|Wall|walls (wall, id=8)"))(cx-gui-do cx-set-toggle-button2 "Wall*Frame3*Frame1(Momentum)*Table1*Frame2*Frame1*Table1*ToggleBox1(Shear Condition)*Specified Shear" #t)(cx-gui-do cx-activate-item "Wall*Frame3*Frame1(Momentum)*Table1*Frame2*Frame1*Table1*ToggleBox1(Shear Condition)*Specified Shear")(cx-gui-do cx-activate-item "Wall*PanelButtons*PushButton1(OK)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Frames"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Frames"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Frames"))(cx-gui-do cx-activate-item "Reference Frame*PanelButtons*PushButton2(Cancel)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Values"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Setup|Reference Values"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Setup|Reference Values\"))(cx-gui-do cx-set-list-selections \"Reference Values*DropDownList1(Compute from)\" '( 3))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Reference Values*DropDownList1(Compute from)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Reference Values*Table2(Reference Values)*RealEntry1(Area)\" '({}))(cx-gui-do cx-activate-item \"Reference Values*Table2(Reference Values)*RealEntry1(Area)\")".format(simulation.dimension.area))
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Reference Values*Table2(Reference Values)*RealEntry5(Length)\" '({}))(cx-gui-do cx-activate-item \"Reference Values*Table2(Reference Values)*RealEntry5(Length)\")".format(simulation.dimension.length))
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Methods"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Methods"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Solution|Methods\"))(cx-gui-do cx-set-list-selections \"Solution Methods*Table1*Table2(Pressure-Velocity Coupling)*DropDownList2(Scheme)\" '( 3))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Solution Methods*Table1*Table2(Pressure-Velocity Coupling)*DropDownList2(Scheme)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-selections \"Solution Methods*Table1*Table3(Spatial Discretization)*DropDownList2(Pressure)\" '( 1))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Solution Methods*Table1*Table3(Spatial Discretization)*DropDownList2(Pressure)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-toggle-button2 "Solution Methods*Table1*CheckButton5(Pseudo Transient)" #t)(cx-gui-do cx-activate-item "Solution Methods*Table1*CheckButton5(Pseudo Transient)")(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Report Definitions"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Report Definitions"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Report Definitions"))')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Report Definitions*Table1*ButtonBox3*PushButton1(New)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "MenuBar*Force ReportSubMenu*Drag...")')
setup1.SendCommand(Command='(cx-gui-do cx-set-toggle-button2 "Drag Report Definition*Table1*Table2*ToggleBox1(Report Output Type)*Drag Force" #t)(cx-gui-do cx-activate-item "Drag Report Definition*Table1*Table2*ToggleBox1(Report Output Type)*Drag Force")(cx-gui-do cx-set-text-entry "Drag Report Definition*Table1*TextEntry3(Name)" "drag")(cx-gui-do cx-activate-item "Drag Report Definition*Table1*TextEntry3(Name)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-selections \"Drag Report Definition*Table1*Table2*List2(Wall Zones)\" '( 0))(cx-gui-do cx-activate-item \"Drag Report Definition*Table1*Table2*List2(Wall Zones)\")(cx-gui-do cx-set-toggle-button2 \"Drag Report Definition*Table1*Table1*Table5(Create)*CheckButton1(Report File)\" #t)(cx-gui-do cx-activate-item \"Drag Report Definition*Table1*Table1*Table5(Create)*CheckButton1(Report File)\")(cx-gui-do cx-set-toggle-button2 \"Drag Report Definition*Table1*Table1*Table5(Create)*CheckButton2(Report Plot)\" #t)(cx-gui-do cx-activate-item \"Drag Report Definition*Table1*Table1*Table5(Create)*CheckButton2(Report Plot)\")(cx-gui-do cx-set-toggle-button2 \"Drag Report Definition*Table1*Table1*CheckButton6(Create Output Parameter)\" #t)(cx-gui-do cx-activate-item \"Drag Report Definition*Table1*Table1*CheckButton6(Create Output Parameter)\")(cx-gui-do cx-activate-item \"Drag Report Definition*PanelButtons*PushButton1(OK)\")")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Report Definitions*Table1*ButtonBox3*PushButton1(New)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "MenuBar*Force ReportSubMenu*Lift...")')
setup1.SendCommand(Command='(cx-gui-do cx-set-text-entry "Lift Report Definition*Table1*TextEntry3(Name)" "lift")(cx-gui-do cx-activate-item "Lift Report Definition*Table1*TextEntry3(Name)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-toggle-button2 \"Lift Report Definition*Table1*Table2*ToggleBox1(Report Output Type)*Drag Force\" #t)(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table2*ToggleBox1(Report Output Type)*Drag Force\")(cx-gui-do cx-set-list-selections \"Lift Report Definition*Table1*Table2*List2(Wall Zones)\" '( 0))(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table2*List2(Wall Zones)\")(cx-gui-do cx-set-real-entry-list \"Lift Report Definition*Table1*Table1*Table2(Force Vector)*RealEntry2(Y)\" '( 0))(cx-gui-do cx-set-real-entry-list \"Lift Report Definition*Table1*Table1*Table2(Force Vector)*RealEntry3(Z)\" '( 1))(cx-gui-do cx-set-toggle-button2 \"Lift Report Definition*Table1*Table1*Table5(Create)*CheckButton1(Report File)\" #t)(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table1*Table5(Create)*CheckButton1(Report File)\")(cx-gui-do cx-set-toggle-button2 \"Lift Report Definition*Table1*Table1*Table5(Create)*CheckButton2(Report Plot)\" #t)(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table1*Table5(Create)*CheckButton2(Report Plot)\")(cx-gui-do cx-set-toggle-button2 \"Lift Report Definition*Table1*Table1*CheckButton6(Create Output Parameter)\" #t)(cx-gui-do cx-activate-item \"Lift Report Definition*Table1*Table1*CheckButton6(Create Output Parameter)\")(cx-gui-do cx-activate-item \"Report Definitions*PanelButtons*PushButton1(Close)\")")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Lift Report Definition*PanelButtons*PushButton1(OK)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Run Calculation"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Run Calculation"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Solution|Run Calculation\"))(cx-gui-do cx-set-list-selections \"Run Calculation*Table1*Table2(Pseudo Transient Settings)*Table1(Fluid Time Scale)*Table1*DropDownList2(Length Scale Method)\" '( 2))")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Run Calculation*Table1*Table2(Pseudo Transient Settings)*Table1(Fluid Time Scale)*Table1*DropDownList2(Length Scale Method)")')
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Run Calculation*Table1*Table2(Pseudo Transient Settings)*Table1(Fluid Time Scale)*Table3*RealEntry3(Length Scale)\" '( {}))(cx-gui-do cx-activate-item \"Run Calculation*Table1*Table2(Pseudo Transient Settings)*Table1(Fluid Time Scale)*Table3*RealEntry3(Length Scale)\")".format(simulation.dimension.length))
setup1.SendCommand(Command='(cx-gui-do cx-set-integer-entry "Run Calculation*Table1*Table3(Parameters)*Table1*Table1*IntegerEntry1(Number of Iterations)" 600)(cx-gui-do cx-activate-item "Run Calculation*Table1*Table3(Parameters)*Table1*Table1*IntegerEntry1(Number of Iterations)")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Initialization"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Initialization"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Solution|Initialization"))')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Solution Initialization*Table1*Frame11*PushButton2(Initialize)")')
setup1.SendCommand(Command="/mesh/repair-improve/allow-repair-at-boundaries yes")
setup1.SendCommand(Command="/mesh/repair-improve/include-local-polyhedra-conversion-in-repair yes")
setup1.SendCommand(Command="/mesh/repair-improve/repair")
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "MenuBar*FileMenu*Close Fluent")')
Save(Overwrite=True)
return
def completion_status(sim_list, proj_params):
'''
Detects if entire workbench project has finished running simulations.
Parameters
---------------------
sim_list : List
List containing Simulation objects.
proj_params : Project object
Instance of Project class containing project parameters.
Returns
---------------------
None
'''
wb_files_dir = os.path.join(proj_params.proj_dir, proj_params.proj_name + "_files")
last_sim_index = len(sim_list)-1
complete = 0
if last_sim_index == 0:
flu_dir = "FLU"
else:
flu_dir = "FLU-{}".format(last_sim_index)
last_sim_dir = "{}\\progress_files\\dp0\\{}\\Fluent\\Solution.trn".format(wb_files_dir, flu_dir)
while complete == 0:
if os.path.isfile(last_sim_dir):
complete = 1
else:
time.sleep(60)
return
def convergence_status(sim_list, proj_params):
'''
Performs batch detection of convergence status on all simulations in sim_list.
Parameters
---------------------
sim_list : List
List containing Simulation objects.
proj_params : Project object
Instance of Project class containing project parameters.
Returns
---------------------
sim_list : List
List containing Simulation objects.
'''
wb_files_dir = os.path.join(proj_params.proj_dir, proj_params.proj_name + "_files").replace(os.sep, '/')
for i in range(len(sim_list)):
if i==0:
flu_dir = "FLU"
else:
flu_dir = "FLU-{}".format(i)
status_file = open("{}/progress_files/dp0/{}/Fluent/Solution.trn".format(wb_files_dir, flu_dir), 'r')
if "solution is converged" in status_file.read():
sim_list[i].results.convergence = "Converged"
else:
sim_list[i].results.convergence = "Diverged or Error"
return(sim_list)
def results_extract(sim_list, proj_params):
'''
Performs batch execution of fluent_results_export on simulations that have converged.
Parameters
---------------------
sim_list : List
List containing Simulation objects.
proj_params : Project object
Instance of Project class containing project parameters.
Returns
---------------------
None
'''
for i in range(len(sim_list)):
if sim_list[i].results.convergence == "Converged":
fluent_results_export(sim_list[i], i, proj_params)
sim_list[i] = fluent_results_aggregator(sim_list[i], i, proj_params)
results_formatter(sim_list, proj_params)
return
def fluent_results_export(simulation, index, proj_params):
'''
Exports results from a given Fluent simulation into .txt files.
Parameters
---------------------
simulation : Simulation object
Instance of Simulation object.
index : int
Integer of current index of converged simulation.
proj_params : Project object
Instance of Project class containing project parameters.
Returns
---------------------
None
'''
if index==0:
module = "FLU"
flu_dir = "FLU"
else:
module = "FLU {}".format(index)
flu_dir = "FLU-{}".format(index)
raw_results_dir = os.path.join(proj_params.results_dir, simulation.sim_name + "\\Raw Results").replace(os.sep, '/')
wb_files_dir = os.path.join(proj_params.proj_dir, proj_params.proj_name + "_files").replace(os.sep, '/')
system1 = GetSystem(Name=module)
solution1 = system1.GetContainer(ComponentName="Solution")
solution1.Edit()
setup1 = system1.GetContainer(ComponentName="Setup")
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Results|Reports|Forces"))')
setup1.SendCommand(Command='(cx-gui-do cx-set-list-tree-selections "NavigationPane*List_Tree1" (list "Results|Reports|Forces"))(cx-gui-do cx-activate-item "NavigationPane*List_Tree1")')
setup1.SendCommand(Command="(cx-gui-do cx-set-list-tree-selections \"NavigationPane*List_Tree1\" (list \"Results|Reports|Forces\"))(cx-gui-do cx-set-list-selections \"Force Reports*List2(Wall Zones)\" '( 0 2))(cx-gui-do cx-activate-item \"Force Reports*List2(Wall Zones)\")(cx-gui-do cx-set-list-selections \"Force Reports*List2(Wall Zones)\" '( 0))(cx-gui-do cx-activate-item \"Force Reports*List2(Wall Zones)\")")
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"Force Reports*PanelButtons*PushButton4(Write)\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"{}/drag{}.txt\") \"All Files (*)\")".format(raw_results_dir, index))
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame1(Direction Vector)*RealEntry1(X)\" '( 0))(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame1(Direction Vector)*RealEntry3(Z)\" '( 1))")
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"Force Reports*PanelButtons*PushButton4(Write)\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"lift{}.txt\") \"All Files (*)\")".format(index))
setup1.SendCommand(Command="(cx-gui-do cx-set-toggle-button2 \"Force Reports*Table1*ToggleBox1(Options)*Moments\" #t)(cx-gui-do cx-activate-item \"Force Reports*Table1*ToggleBox1(Options)*Moments\")(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame2(Moment Center)*RealEntry1(X)\" '({}))(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame2(Moment Center)*RealEntry2(Y)\" '({}))(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame2(Moment Center)*RealEntry3(Z)\" '({}))".format(simulation.dimension.CG_X, simulation.dimension.CG_Y, simulation.dimension.CG_Z))
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"Force Reports*PanelButtons*PushButton4(Write)\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"roll_moment{}.txt\") \"All Files (*)\")".format(index))
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame3(Moment Axis)*RealEntry1(X)\" '( 0))(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame3(Moment Axis)*RealEntry2(Y)\" '( 1))")
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"Force Reports*PanelButtons*PushButton4(Write)\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"pitch_moment{}.txt\") \"All Files (*)\")".format(index))
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame3(Moment Axis)*RealEntry2(Y)\" '( 0))(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame3(Moment Axis)*RealEntry3(Z)\" '( 1))")
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"Force Reports*PanelButtons*PushButton4(Write)\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"yaw_moment{}.txt\") \"All Files (*)\")".format(index))
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame3(Moment Axis)*RealEntry3(Z)\" '( 0))(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame3(Moment Axis)*RealEntry1(X)\" '( 1))(cx-gui-do cx-set-toggle-button2 \"Force Reports*Table1*ToggleBox1(Options)*Forces\" #t)(cx-gui-do cx-activate-item \"Force Reports*Table1*ToggleBox1(Options)*Forces\")(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame1(Direction Vector)*RealEntry3(Z)\" '( 0))(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame1(Direction Vector)*RealEntry2(Y)\" '( -1))")
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"Force Reports*PanelButtons*PushButton4(Write)\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"force_left{}.txt\") \"All Files (*)\")".format(index))
setup1.SendCommand(Command="(cx-gui-do cx-set-real-entry-list \"Force Reports*Table1*Frame2*Frame1(Direction Vector)*RealEntry2(Y)\" '( 1))")
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"Force Reports*PanelButtons*PushButton4(Write)\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"force_right{}.txt\") \"All Files (*)\")".format(index))
setup1.SendCommand(Command='(cx-gui-do cx-set-toggle-button2 "Force Reports*Table1*ToggleBox1(Options)*Center of Pressure" #t)(cx-gui-do cx-activate-item "Force Reports*Table1*ToggleBox1(Options)*Center of Pressure")')
setup1.SendCommand(Command="(cx-gui-do cx-activate-item \"Force Reports*PanelButtons*PushButton4(Write)\")(cx-gui-do cx-set-file-dialog-entries \"Select File\" '( \"cp_x_0m_{}.txt\") \"All Files (*)\")".format(index))
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "Force Reports*PanelButtons*PushButton2(Cancel)")')
setup1.SendCommand(Command='(cx-gui-do cx-activate-item "MenuBar*FileMenu*Close Fluent")')
iter_file = open("{}/dp0/{}/Fluent/drag-rfile.out".format(wb_files_dir, flu_dir), 'r')
iter_lines = iter_file.readlines()
iter_data = iter_lines[len(iter_lines)-1]
output = open("{}/iter{}.txt".format(raw_results_dir, index), 'w')
output.write(iter_data)
output.close()
iter_file.close()
return
def fluent_results_aggregator(simulation, index, proj_params):
'''
Aggregates exported fluent results and imports into their Simulation_Results object.
Parameters
---------------------
simulation : Simulation object
Instance of Simulation object.
index : int
Integer of current index of converged simulation.
proj_params : Project object
Instance of Project class containing project parameters.
Returns
---------------------
simulation : Simulation object
Instance of Simulation object.
'''
raw_results_dir = os.path.join(proj_params.results_dir, simulation.sim_name + "\\Raw Results").replace(os.sep, '/')
cop_file = open("{}/cp_x_0m_{}.txt".format(raw_results_dir, index), 'r')
drag_file = open("{}/drag{}.txt".format(raw_results_dir, index), 'r')
lift_file = open("{}/lift{}.txt".format(raw_results_dir, index), 'r')
iter_file = open("{}/iter{}.txt".format(raw_results_dir, index), 'r')
f_left_file = open("{}/force_left{}.txt".format(raw_results_dir, index), 'r')
f_right_file = open("{}/force_right{}.txt".format(raw_results_dir, index), 'r')
pitch_file = open("{}/pitch_moment{}.txt".format(raw_results_dir, index), 'r')
roll_file = open("{}/roll_moment{}.txt".format(raw_results_dir, index), 'r')
yaw_file = open("{}/yaw_moment{}.txt".format(raw_results_dir, index), 'r')
cop_all_data = cop_file.readlines()
drag_all_data = drag_file.readlines()
lift_all_data = lift_file.readlines()
iter_all_data = iter_file.readlines()
f_left_all_data = f_left_file.readlines()
f_right_all_data = f_right_file.readlines()
pitch_all_data = pitch_file.readlines()
roll_all_data = roll_file.readlines()
yaw_all_data = yaw_file.readlines()
# cop values are on line 5
# drag values are on line 13
# lift values are on line 13
# iter values are on line 1
# f_left values are on line 13
# f_right values are on line 13
# pitch moment values are on line 13
# roll moment values are on line 13
# yaw moment values are on line 13
cop_line_data = cop_all_data[4].split()
drag_line_data = drag_all_data[12].split()
lift_line_data = lift_all_data[12].split()
iter_line_data = iter_all_data[0].split()
f_left_line_data = f_left_all_data[12].split()
f_right_line_data = f_right_all_data[12].split()
pitch_line_data = pitch_all_data[12].split()
roll_line_data = roll_all_data[12].split()
yaw_line_data = yaw_all_data[12].split()
cop_values = str(cop_line_data[1]) + " " + str(cop_line_data[2])
drag_comp_values = str(drag_line_data[1]) + " " + str(drag_line_data[2])
drag_tot_value = str(drag_line_data[3])
lift_comp_values = str(lift_line_data[1] + " " + lift_line_data[2])
lift_tot_value = str(lift_line_data[3])
iter_value = str(iter_line_data[0])
f_left_value = str(f_left_line_data[3])
f_right_value = str(f_right_line_data[3])
pitch_value = str(pitch_line_data[3])
roll_value = str(roll_line_data[3])
yaw_value =str(yaw_line_data[3])
simulation.results.iterations = iter_value
simulation.results.drag_tot = drag_tot_value
simulation.results.drag_comp = drag_comp_values
simulation.results.lift_tot = lift_tot_value
simulation.results.lift_comp = lift_comp_values
simulation.results.f_left = f_left_value
simulation.results.f_right = f_right_value
if simulation.workflow.cg == True:
simulation.results.mom_roll = roll_value
simulation.results.mom_pitch = pitch_value
simulation.results.mom_yaw = yaw_value
else:
simulation.results.mom_roll = 0
simulation.results.mom_pitch = 0
simulation.results.mom_yaw = 0
simulation.results.cop = cop_values
return(simulation)
def results_formatter(sim_list, proj_params):
export_directory = proj_params.results_dir.replace(os.sep, '/')
current_date = date.today().strftime("%d/%m/%Y")
with open("{}/{} Simulation Results.csv".format(export_directory, proj_params.proj_name), 'w') as csvfile:
csvfile.write('Simulation Name,.CAS File Name,Date,Number of Iterations,A. Drag [N] (Total),B. Drag [N]: Pressure + Viscous,A. Lift [N] (Total),B. Lift [N]: Pressure + Viscous,Force Left [N] (Total),Force Right [N] (Total),"Roll Moment [N-m] (axis = [1,0,0])","Pitch Moment [N-m] (axis = [0,1,0])","Yaw Moment [N-m] (axis = [0,0,1])",Center of Pressure (x=0 [m]),Status\n')
for i in range(len(sim_list)):
simulation = sim_list[i]
if simulation.results.convergence == "Converged":
csvfile.write("{},{},{},{},{},{},{},{},{},{},{},{},{},{},{}\n".format(simulation.sim_name, simulation.mesh.CAS_name, current_date, simulation.results.iterations, simulation.results.drag_tot, simulation.results.drag_comp, simulation.results.lift_tot, simulation.results.lift_comp, simulation.results.f_left, simulation.results.f_right, simulation.results.mom_roll, simulation.results.mom_pitch, simulation.results.mom_yaw, simulation.results.cop, simulation.results.convergence))
else:
csvfile.write("{},{},{},,,,,,,,,,,,{}\n".format(simulation.sim_name, simulation.mesh.CAS_name, current_date, simulation.results.convergence))
csvfile.close()
return
def post_processing(sim_list, proj_params):
stream = []
for i in range(len(sim_list)):
if sim_list[i].workflow.post == True:
post_plots(sim_list[i], i, proj_params)
if sim_list[i].workflow.streamlines == True:
stream.append(i)
for j in range(len(stream)):
simulation = sim_list[stream[j]]
if simulation.mesh.body_size == "FB":
post_streamlines_fb(simulation, j, proj_params)
if simulation.mesh.body_size == "HB":
post_streamlines_hb(simulation, j, proj_params)
return
def post_plots(simulation, index, proj_params):
sim_path = os.path.join(proj_params.results_dir, simulation.sim_name)
media_dir = os.path.join(sim_path, "Media Files")
cp_dir = os.path.join(media_dir, "3D Cp Contour")
pressure_dir = os.path.join(media_dir, "Pressure Contour")
tke_dir = os.path.join(media_dir, "TKE Contour")
wallshear_dir = os.path.join(media_dir, "Wall Shear Streamline")
if index == 0:
module = "FLU"
else:
module = "FLU {}".format(index)
template1 = GetTemplate(TemplateName="Results")
system1 = GetSystem(Name=module)
system2 = template1.CreateSystem(
Position="Right",
RelativeTo=system1)
solutionComponent1 = system1.GetComponent(Name="Solution")
resultsComponent1 = system2.GetComponent(Name="Results")
solutionComponent1.TransferData(TargetComponent=resultsComponent1)
results1 = system2.GetContainer(ComponentName="Results")
results1.Edit()
results1.SendCommand(Command="""VIEW:View 1
Light Angle = 50, 110
END
VIEW:View 2
Light Angle = 50, 110
END
VIEW:View 3
Light Angle = 50, 110
END
VIEW:View 4
Light Angle = 50, 110
END
> update
# Sending visibility action from ViewUtilities
>show /DATA READER/CASE:Case {}/BOUNDARY:car, view=/VIEW:View 1""".format(simulation.sim_name))
results1.SendCommand(Command="> autolegend plot=/CONTOUR:TKE Contour, view=VIEW:View 1")
results1.SendCommand(Command="""CONTOUR:TKE Contour
Apply Instancing Transform = On
Clip Contour = Off
Colour Map = Default Colour Map
Colour Scale = Logarithmic
Colour Variable = Turbulence Kinetic Energy
Colour Variable Boundary Values = Conservative
Constant Contour Colour = Off
Contour Range = Global
Culling Mode = No Culling
Domain List = /DOMAIN GROUP:All Domains
Draw Contours = Off
Font = Sans Serif
Fringe Fill = On
Instancing Transform = /DEFAULT INSTANCE TRANSFORM:Default Transform
Lighting = On
Line Colour = 0, 0, 0
Line Colour Mode = Default
Line Width = 1
Location List = car
Max = 0.0 [m^2 s^-2]
Min = 0.0 [m^2 s^-2]
Number of Contours = 5000
Show Numbers = Off
Specular Lighting = On
Surface Drawing = Smooth Shading
Text Colour = 0, 0, 0
Text Colour Mode = Default
Text Height = 0.024
Transparency = 0.0
Use Face Values = On
Value List = 0 [m^2 s^-2],1 [m^2 s^-2]
OBJECT VIEW TRANSFORM:
Apply Reflection = Off
Apply Rotation = Off
Apply Scale = Off
Apply Translation = Off
END
END""")
results1.SendCommand(Command="""# Sending visibility action from ViewUtilities
>show /CONTOUR:TKE Contour, view=/VIEW:View 1""")
results1.SendCommand(Command="""# Sending visibility action from ViewUtilities
>hide /CONTOUR:TKE Contour, view=/VIEW:View 1""")
results1.SendCommand(Command="> autolegend plot=/CONTOUR:Pressure Contour, view=VIEW:View 1")
results1.SendCommand(Command="""CONTOUR:Pressure Contour
Apply Instancing Transform = On
Clip Contour = Off
Colour Map = Default Colour Map
Colour Scale = Linear
Colour Variable = Pressure
Colour Variable Boundary Values = Conservative
Constant Contour Colour = Off
Contour Range = Global
Culling Mode = No Culling
Domain List = /DOMAIN GROUP:All Domains
Draw Contours = Off
Font = Sans Serif
Fringe Fill = On
Instancing Transform = /DEFAULT INSTANCE TRANSFORM:Default Transform
Lighting = On
Line Colour = 0, 0, 0
Line Colour Mode = Default
Line Width = 1
Location List = car
Max = 0.0 [Pa]
Min = 0.0 [Pa]
Number of Contours = 5000
Show Numbers = Off
Specular Lighting = On
Surface Drawing = Smooth Shading
Text Colour = 0, 0, 0
Text Colour Mode = Default
Text Height = 0.024
Transparency = 0.0
Use Face Values = On
Value List = 0 [Pa],1 [Pa]
OBJECT VIEW TRANSFORM:
Apply Reflection = Off
Apply Rotation = Off
Apply Scale = Off
Apply Translation = Off
END
END""")
results1.SendCommand(Command="""# Sending visibility action from ViewUtilities
>show /CONTOUR:Pressure Contour, view=/VIEW:View 1""")
results1.SendCommand(Command="""# Sending visibility action from ViewUtilities
>hide /CONTOUR:Pressure Contour, view=/VIEW:View 1""")
results1.SendCommand(Command="> autolegend plot=/STREAMLINE:Wall Shear Streamline, view=VIEW:View 1")
results1.SendCommand(Command="""STREAMLINE:Wall Shear Streamline
Absolute Tolerance = 0.0 [m]
Apply Instancing Transform = On
Colour = 0, 0, 1
Colour Map = Default Colour Map
Colour Mode = Constant
Colour Scale = Linear
Colour Variable = Wall Shear
Colour Variable Boundary Values = Conservative
Cross Periodics = On
Culling Mode = No Culling
Domain List = /DOMAIN GROUP:All Domains
Draw Faces = On
Draw Lines = Off
Draw Streams = On
Draw Symbols = Off
Grid Tolerance = 0.01
Instancing Transform = /DEFAULT INSTANCE TRANSFORM:Default Transform
Lighting = On
Line Width = 1
Location List = car
Locator Sampling Method = Equally Spaced
Max = 0.0 [Pa]
Maximum Number of Items = 25