# *************************************************************************** # * Copyright (c) 2015 Przemo Firszt * # * Copyright (c) 2016 Bernd Hahnebach * # * * # * This file is part of the FreeCAD CAx development system. * # * * # * This program is free software; you can redistribute it and/or modify * # * it under the terms of the GNU Lesser General Public License (LGPL) * # * as published by the Free Software Foundation; either version 2 of * # * the License, or (at your option) any later version. * # * for detail see the LICENCE text file. * # * * # * This program is distributed in the hope that it will be useful, * # * but WITHOUT ANY WARRANTY; without even the implied warranty of * # * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * # * GNU Library General Public License for more details. * # * * # * You should have received a copy of the GNU Library General Public * # * License along with this program; if not, write to the Free Software * # * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * # * USA * # * * # *************************************************************************** __title__ = "FemToolsCcx" __author__ = "Przemo Firszt, Bernd Hahnebach" __url__ = "http://www.freecadweb.org" ## \addtogroup FEM # @{ import os import sys import subprocess import FreeCAD from femtools import femutils from femtools import membertools from PySide import QtCore # there might be a special reason this is not guarded ?!? if FreeCAD.GuiUp: from PySide import QtGui import FemGui class FemToolsCcx(QtCore.QRunnable, QtCore.QObject): """ Attributes ---------- analysis : Fem::FemAnalysis FEM group analysis object has to be present, will be set in __init__ solver : Fem::FemSolverObjectPython FEM solver object has to be present, will be set in __init__ base_name : str name of .inp/.frd file (without extension) It is used to construct .inp file path that is passed to CalculiX ccx ccx_binary : str working_dir : str results_present : bool indicating if there are calculation results ready for us members : class femtools/membertools/AnalysisMember contains references to all analysis member except solvers and mesh Updated with update_objects """ finished = QtCore.Signal(int) def __init__(self, analysis=None, solver=None, test_mode=False): """The constructor Parameters ---------- analysis : Fem::FemAnalysis, optional analysis group as a container for all objects needed for the analysis solver : Fem::FemSolverObjectPython, optional solver object to be used for this solve test_mode : bool, optional mainly used in unit tests """ QtCore.QRunnable.__init__(self) QtCore.QObject.__init__(self) self.analysis = None self.solver = None if analysis: self.analysis = analysis if solver: # analysis and solver given self.solver = solver else: # analysis given, search for the solver self.find_solver() if not self.solver: raise Exception("FEM: No solver found!") else: if solver: # solver given, searche for the analysis self.solver = solver self.find_solver_analysis() if not self.analysis: raise Exception( "FEM: The solver was given as parameter, " "but no analysis for this solver was found!" ) else: # neither analysis nor solver given, search both self.find_analysis() if not self.analysis: raise Exception( "FEM: No solver was given and either no active analysis " "or no analysis at all or more than one analysis found!" ) self.find_solver() if not self.solver: raise Exception("FEM: No solver found!") # print(self.solver) # print(self.analysis) if self.analysis and self.solver: self.working_dir = "" self.ccx_binary = "" self.base_name = "" self.results_present = False if test_mode: self.test_mode = True self.ccx_binary_present = True else: self.test_mode = False self.ccx_binary_present = False self.result_object = None else: raise Exception( "FEM: Something went wrong, " "the exception should have been raised earlier!" ) def purge_results(self): """Remove all result objects and result meshes from an analysis group """ from femresult.resulttools import purge_results as pr pr(self.analysis) def reset_mesh_purge_results_checked(self): """Reset mesh color, deformation and removes all result objects if preferences to keep them is not set. """ self.fem_prefs = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Fem/General") keep_results_on_rerun = self.fem_prefs.GetBool("KeepResultsOnReRun", False) if not keep_results_on_rerun: self.purge_results() def reset_all(self): """Reset mesh color, deformation and removes all result objects """ self.purge_results() def _get_several_member(self, obj_type): return membertools.get_several_member(self.analysis, obj_type) def find_analysis(self): if FreeCAD.GuiUp: self.analysis = FemGui.getActiveAnalysis() if self.analysis: return found_analysis = False for m in FreeCAD.ActiveDocument.Objects: if femutils.is_of_type(m, "Fem::FemAnalysis"): if not found_analysis: self.analysis = m found_analysis = True else: self.analysis = None # more than one analysis if self.analysis: if FreeCAD.GuiUp: FemGui.setActiveAnalysis(self.analysis) def find_solver_analysis(self): """ get the analysis group the solver belongs to """ if self.solver.getParentGroup(): obj = self.solver.getParentGroup() if femutils.is_of_type(obj, "Fem::FemAnalysis"): self.analysis = obj if FreeCAD.GuiUp: FemGui.setActiveAnalysis(self.analysis) def find_solver(self): found_solver_for_use = False for m in self.analysis.Group: if femutils.is_of_type(m, "Fem::FemSolverCalculixCcxTools"): # we are going to explicitly check for the ccx tools solver type only, # thus it is possible to have lots of framework solvers inside the analysis anyway # for some methods no solver is needed (purge_results) --> solver could be none # analysis has one solver and no solver was set --> use the one solver # analysis has more than one solver and no solver was set --> use solver none # analysis has no solver --> use solver none if not found_solver_for_use: # no solver was found before self.solver = m found_solver_for_use = True else: # another solver was found --> We have more than one solver # we do not know which one to use, so we use none ! self.solver = None FreeCAD.Console.PrintLog( "FEM: More than one solver in the analysis " "and no solver given to analyze. " "No solver is set!\n" ) def update_objects(self): ## @var mesh # mesh of the analysis. Used to generate .inp file and to show results self.mesh = None mesh, message = membertools.get_mesh_to_solve(self.analysis) if mesh is not None: self.mesh = mesh else: if FreeCAD.GuiUp: QtGui.QMessageBox.critical(None, "Missing prerequisite", message) raise Exception(message + "\n") ## @var members # members of the analysis. All except solvers and the mesh self.member = membertools.AnalysisMember(self.analysis) def check_prerequisites(self): FreeCAD.Console.PrintMessage("Check prerequisites.\n") message = "" # analysis if not self.analysis: message += "No active Analysis\n" # solver if not self.solver: message += "No solver object defined in the analysis\n" if not self.working_dir: message += "Working directory not set\n" if not (os.path.isdir(self.working_dir)): message += ( "Working directory \'{}\' doesn't exist." .format(self.working_dir) ) from femtools.checksanalysis import check_analysismember message += check_analysismember( self.analysis, self.solver, self.mesh, self.member ) return message def set_base_name(self, base_name=None): """ Set base_name Parameters ---------- base_name : str, optional base_name base name of .inp/.frd file (without extension). It is used to construct .inp file path that is passed to CalculiX ccx """ if base_name is None: self.base_name = "" else: self.base_name = base_name # Update inp file name self.set_inp_file_name() def set_inp_file_name(self, inp_file_name=None): """ Set inp file name. Normally inp file name is set by write_inp_file. That name is also used to determine location and name of frd result file. Parameters ---------- inp_file_name : str, optional input file name path """ if inp_file_name is not None: self.inp_file_name = inp_file_name else: self.inp_file_name = os.path.join(self.working_dir, (self.base_name + ".inp")) def setup_working_dir(self, param_working_dir=None, create=False): """Set working dir for solver execution. Parameters ---------- param_working_dir : str, optional directory to be used for writing create : bool, optional Should the working directory be created if it does not exist """ self.working_dir = "" # try to use given working dir or overwrite with solver working dir fem_general_prefs = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Fem/General") if param_working_dir is not None: self.working_dir = param_working_dir if femutils.check_working_dir(self.working_dir) is not True: if create is True: FreeCAD.Console.PrintMessage( "Dir given as parameter \'{}\' doesn't exist.\n".format(self.working_dir) ) else: FreeCAD.Console.PrintError( "Dir given as parameter \'{}\' doesn't exist " "and create parameter is set to False.\n" .format(self.working_dir) ) self.working_dir = femutils.get_pref_working_dir(self.solver) FreeCAD.Console.PrintMessage( "Dir \'{}\' will be used instead.\n" .format(self.working_dir) ) elif fem_general_prefs.GetBool("OverwriteSolverWorkingDirectory", True) is False: self.working_dir = self.solver.WorkingDir if femutils.check_working_dir(self.working_dir) is not True: if self.working_dir == '': FreeCAD.Console.PrintError( "Working Dir is set to be used from solver object " "but Dir from solver object \'{}\' is empty.\n" .format(self.working_dir) ) else: FreeCAD.Console.PrintError( "Dir from solver object \'{}\' doesn't exist.\n" .format(self.working_dir) ) self.working_dir = femutils.get_pref_working_dir(self.solver) FreeCAD.Console.PrintMessage( "Dir \'{}\' will be used instead.\n" .format(self.working_dir) ) else: self.working_dir = femutils.get_pref_working_dir(self.solver) # check working_dir exist, if not use a tmp dir and inform the user if femutils.check_working_dir(self.working_dir) is not True: FreeCAD.Console.PrintError( "Dir \'{}\' doesn't exist or cannot be created.\n" .format(self.working_dir) ) self.working_dir = femutils.get_temp_dir(self.solver) FreeCAD.Console.PrintMessage( "Dir \'{}\' will be used instead.\n" .format(self.working_dir) ) # Update inp file name self.set_inp_file_name() def write_inp_file(self): import femsolver.calculix.writer as iw self.inp_file_name = "" try: inp_writer = iw.FemInputWriterCcx( self.analysis, self.solver, self.mesh, self.member, self.working_dir ) self.inp_file_name = inp_writer.write_calculix_input_file() except: FreeCAD.Console.PrintError( "Unexpected error when writing CalculiX input file: {}\n" .format(sys.exc_info()[0]) ) raise def setup_ccx(self, ccx_binary=None, ccx_binary_sig="CalculiX"): """Set Calculix binary path and validate its execution. Parameters ---------- ccx_binary : str, optional It defaults to `None`. The path to the `ccx` binary. If it is `None`, the path is guessed. ccx_binary_sig : str, optional Defaults to 'CalculiX'. Expected output from `ccx` when run empty. Raises ------ Exception """ error_title = "No CalculiX binary ccx" error_message = "" from platform import system ccx_std_location = FreeCAD.ParamGet( "User parameter:BaseApp/Preferences/Mod/Fem/Ccx" ).GetBool("UseStandardCcxLocation", True) if ccx_std_location: if system() == "Windows": ccx_path = FreeCAD.getHomePath() + "bin/ccx.exe" FreeCAD.ParamGet( "User parameter:BaseApp/Preferences/Mod/Fem/Ccx" ).SetString("ccxBinaryPath", ccx_path) self.ccx_binary = ccx_path elif system() in ("Linux", "Darwin"): p1 = subprocess.Popen(["which", "ccx"], stdout=subprocess.PIPE) if p1.wait() == 0: if sys.version_info.major >= 3: ccx_path = p1.stdout.read().decode("utf8").split("\n")[0] else: ccx_path = p1.stdout.read().split("\n")[0] elif p1.wait() == 1: error_message = ( "FEM: CalculiX binary ccx not found in " "standard system binary path. " "Please install ccx or set path to binary " "in FEM preferences tab CalculiX.\n" ) if FreeCAD.GuiUp: QtGui.QMessageBox.critical(None, error_title, error_message) raise Exception(error_message) self.ccx_binary = ccx_path else: if not ccx_binary: self.ccx_prefs = FreeCAD.ParamGet( "User parameter:BaseApp/Preferences/Mod/Fem/Ccx" ) ccx_binary = self.ccx_prefs.GetString("ccxBinaryPath", "") if not ccx_binary: FreeCAD.ParamGet( "User parameter:BaseApp/Preferences/Mod/Fem/Ccx" ).SetBool("UseStandardCcxLocation", True) error_message = ( "FEM: CalculiX binary ccx path not set at all. " "The use of standard path was activated in " "FEM preferences tab CalculiX. Please try again!\n" ) if FreeCAD.GuiUp: QtGui.QMessageBox.critical(None, error_title, error_message) raise Exception(error_message) self.ccx_binary = ccx_binary startup_info = None if system() == "Windows": # Windows workaround to avoid blinking terminal window startup_info = subprocess.STARTUPINFO() startup_info.dwFlags = subprocess.STARTF_USESHOWWINDOW ccx_stdout = None ccx_stderr = None try: p = subprocess.Popen( [self.ccx_binary], stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=False, startupinfo=startup_info ) ccx_stdout, ccx_stderr = p.communicate() if ccx_binary_sig in str(ccx_stdout): self.ccx_binary_present = True else: raise Exception("FEM: wrong ccx binary") # since we raise an exception the try will fail and # the exception later with the error popup will be raised # TODO: I'm still able to break it. # If user doesn't give a file but a path without a file or # a file which is not a binary no exception at all is raised. except OSError as e: FreeCAD.Console.PrintError("{}\n".format(e)) if e.errno == 2: error_message = ( "FEM: CalculiX binary ccx \'{}\' not found. " "Please set the CalculiX binary ccx path in " "FEM preferences tab CalculiX.\n" .format(ccx_binary) ) if FreeCAD.GuiUp: QtGui.QMessageBox.critical(None, error_title, error_message) raise Exception(error_message) except Exception as e: FreeCAD.Console.PrintError("{}\n".format(e)) error_message = ( "FEM: CalculiX ccx \'{}\' output \'{}\' doesn't " "contain expected phrase \'{}\'. " "There are some problems when running the ccx binary. " "Check if ccx runs standalone without FreeCAD.\n" .format(ccx_binary, ccx_stdout, ccx_binary_sig) ) if FreeCAD.GuiUp: QtGui.QMessageBox.critical(None, error_title, error_message) raise Exception(error_message) def start_ccx(self): import multiprocessing self.ccx_stdout = "" self.ccx_stderr = "" ont_backup = os.environ.get("OMP_NUM_THREADS") self.ccx_prefs = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Fem/Ccx") # If number of CPU's specified num_cpu_pref = self.ccx_prefs.GetInt("AnalysisNumCPUs", 1) if not ont_backup: ont_backup = str(num_cpu_pref) if num_cpu_pref > 1: # If user picked a number use that instead _env = os.putenv("OMP_NUM_THREADS", str(num_cpu_pref)) else: _env = os.putenv("OMP_NUM_THREADS", str(multiprocessing.cpu_count())) # change cwd because ccx may crash if directory has no write permission # there is also a limit of the length of file names so jump to the document directory cwd = QtCore.QDir.currentPath() f = QtCore.QFileInfo(self.inp_file_name) QtCore.QDir.setCurrent(f.path()) p = subprocess.Popen( [self.ccx_binary, "-i ", f.baseName()], stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=False, env=_env ) self.ccx_stdout, self.ccx_stderr = p.communicate() if sys.version_info.major >= 3: self.ccx_stdout = self.ccx_stdout.decode() self.ccx_stderr = self.ccx_stderr.decode() os.putenv("OMP_NUM_THREADS", ont_backup) QtCore.QDir.setCurrent(cwd) return p.returncode def get_ccx_version(self): self.setup_ccx() import re from platform import system startup_info = None if system() == "Windows": # Windows workaround to avoid blinking terminal window startup_info = subprocess.STARTUPINFO() startup_info.dwFlags = subprocess.STARTF_USESHOWWINDOW ccx_stdout = None ccx_stderr = None # Now extract the version number p = subprocess.Popen( [self.ccx_binary, "-v"], stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=False, startupinfo=startup_info ) ccx_stdout, ccx_stderr = p.communicate() if sys.version_info.major >= 3: ccx_stdout = ccx_stdout.decode() # ccx_stderr = ccx_stderr.decode() m = re.search(r"(\d+).(\d+)", ccx_stdout) return (int(m.group(1)), int(m.group(2))) def ccx_run(self): FreeCAD.Console.PrintMessage("Run CalculiX ...\n") if self.test_mode: FreeCAD.Console.PrintError("CalculiX can not be run if test_mode is True.\n") return self.setup_ccx() if self.ccx_binary_present is False: error_message = ( "FEM: CalculiX binary ccx \'{}\' not found. " "Please set the CalculiX binary ccx path in FEM preferences tab CalculiX.\n" .format(self.ccx_binary) ) if FreeCAD.GuiUp: QtGui.QMessageBox.critical(None, "No CalculiX binary ccx", error_message) raise Exception(error_message) progress_bar = FreeCAD.Base.ProgressIndicator() progress_bar.start("Everything seams fine. CalculiX ccx will be executed ...", 0) ret_code = 0 ret_code = self.start_ccx() self.finished.emit(ret_code) progress_bar.stop() if ret_code or self.ccx_stderr: if ret_code == 201 and self.solver.AnalysisType == "check": FreeCAD.Console.PrintMessage( "It seams we run into NOANALYSIS problem, " "thus workaround for wrong exit code for *NOANALYSIS check " "and set ret_code to 0.\n" ) # https://forum.freecadweb.org/viewtopic.php?f=18&t=31303&start=10#p260743 ret_code = 0 else: FreeCAD.Console.PrintError("CalculiX failed with exit code {}\n".format(ret_code)) FreeCAD.Console.PrintMessage("--------start of stderr-------\n") FreeCAD.Console.PrintMessage(self.ccx_stderr) FreeCAD.Console.PrintMessage("--------end of stderr---------\n") FreeCAD.Console.PrintMessage("--------start of stdout-------\n") FreeCAD.Console.PrintMessage(self.ccx_stdout) FreeCAD.Console.PrintMessage("\n--------end of stdout---------\n") FreeCAD.Console.PrintMessage("--------start problems---------\n") self.has_no_material_assigned() self.has_nonpositive_jacobians() FreeCAD.Console.PrintMessage("\n--------end problems---------\n") else: FreeCAD.Console.PrintMessage("CalculiX finished without error.\n") return ret_code def run(self): self.update_objects() self.setup_working_dir() message = self.check_prerequisites() if message: error_message = ( "CalculiX was not started due to missing prerequisites:\n{}\n" .format(message) ) FreeCAD.Console.PrintError(error_message) if FreeCAD.GuiUp: QtGui.QMessageBox.critical( None, "Missing prerequisite", error_message ) return False else: self.write_inp_file() if self.inp_file_name == "": error_message = "Error on writing CalculiX input file.\n" FreeCAD.Console.PrintError(error_message) if FreeCAD.GuiUp: QtGui.QMessageBox.critical( None, "Error", error_message ) return False else: FreeCAD.Console.PrintMessage( "Writing CalculiX input file completed.\n" ) ret_code = self.ccx_run() if ret_code != 0: error_message = ( "CalculiX finished with error {}.\n" .format(ret_code) ) FreeCAD.Console.PrintError(error_message) if FreeCAD.GuiUp: QtGui.QMessageBox.critical( None, "Error", error_message ) return False else: self.load_results() # TODO: output an error message if there where problems reading the results return True def has_no_material_assigned(self): if " *ERROR in calinput: no material was assigned" in self.ccx_stdout: without_material_elements = [] without_material_elemnodes = [] for line in self.ccx_stdout.splitlines(): if "to element" in line: # print(line) # print(line.split()) non_mat_ele = int(line.split()[2]) # print(non_mat_ele) if non_mat_ele not in without_material_elements: without_material_elements.append(non_mat_ele) for e in without_material_elements: for n in self.mesh.FemMesh.getElementNodes(e): without_material_elemnodes.append(n) without_material_elements = sorted(without_material_elements) without_material_elemnodes = sorted(without_material_elemnodes) command_for_withoutmatnodes = ( "without_material_elemnodes = {}" .format(without_material_elemnodes) ) command_to_highlight = ( "Gui.ActiveDocument.{}.HighlightedNodes = without_material_elemnodes" .format(self.mesh.Name) ) # some output for the user FreeCAD.Console.PrintError( "\n\nCalculiX returned an error due to elements without materials.\n" ) FreeCAD.Console.PrintMessage( "without_material_elements = {}\n" .format(without_material_elements) ) FreeCAD.Console.PrintMessage(command_for_withoutmatnodes + "\n") if FreeCAD.GuiUp: import FreeCADGui # with this the list without_material_elemnodes # will be available for further user interaction FreeCADGui.doCommand(command_for_withoutmatnodes) FreeCAD.Console.PrintMessage("\n") FreeCADGui.doCommand(command_to_highlight) FreeCAD.Console.PrintMessage( "\nFollowing some commands to copy. " "They will highlight the elements without materials " "or to reset the highlighted nodes:\n" ) FreeCAD.Console.PrintMessage(command_to_highlight + "\n") # command to reset the Highlighted Nodes FreeCAD.Console.PrintMessage( "Gui.ActiveDocument.{}.HighlightedNodes = []\n\n" .format(self.mesh.Name) ) return True else: return False def has_nonpositive_jacobians(self): if "*ERROR in e_c3d: nonpositive jacobian" in self.ccx_stdout: nonpositive_jacobian_elements = [] nonpositive_jacobian_elenodes = [] for line in self.ccx_stdout.splitlines(): if "determinant in element" in line: # print(line) # print(line.split()) non_posjac_ele = int(line.split()[3]) # print(non_posjac_ele) if non_posjac_ele not in nonpositive_jacobian_elements: nonpositive_jacobian_elements.append(non_posjac_ele) for e in nonpositive_jacobian_elements: for n in self.mesh.FemMesh.getElementNodes(e): nonpositive_jacobian_elenodes.append(n) nonpositive_jacobian_elements = sorted(nonpositive_jacobian_elements) nonpositive_jacobian_elenodes = sorted(nonpositive_jacobian_elenodes) command_for_nonposjacnodes = ( "nonpositive_jacobian_elenodes = {}" .format(nonpositive_jacobian_elenodes) ) command_to_highlight = ( "Gui.ActiveDocument.{}.HighlightedNodes = nonpositive_jacobian_elenodes" .format(self.mesh.Name) ) # some output for the user FreeCAD.Console.PrintError( "\n\nCalculiX returned an error due to nonpositive jacobian elements.\n" ) FreeCAD.Console.PrintMessage( "nonpositive_jacobian_elements = {}\n" .format(nonpositive_jacobian_elements) ) FreeCAD.Console.PrintMessage(command_for_nonposjacnodes + "\n") if FreeCAD.GuiUp: import FreeCADGui # with this the list nonpositive_jacobian_elenodes # will be available for further user interaction FreeCADGui.doCommand(command_for_nonposjacnodes) FreeCAD.Console.PrintMessage("\n") FreeCADGui.doCommand(command_to_highlight) FreeCAD.Console.PrintMessage( "\nFollowing some commands to copy. " "They highlight the nonpositive jacobians " "or to reset the highlighted nodes:\n" ) FreeCAD.Console.PrintMessage(command_to_highlight + "\n") # command to reset the Highlighted Nodes FreeCAD.Console.PrintMessage( "Gui.ActiveDocument.{}.HighlightedNodes = []\n\n" .format(self.mesh.Name) ) return True else: return False def load_results(self): FreeCAD.Console.PrintMessage("We will load the ccx frd and dat result file.\n") self.results_present = False self.load_results_ccxfrd() self.load_results_ccxdat() def load_results_ccxfrd(self): """Load results of ccx calculations from .frd file. """ import feminout.importCcxFrdResults as importCcxFrdResults frd_result_file = os.path.splitext(self.inp_file_name)[0] + ".frd" if os.path.isfile(frd_result_file): importCcxFrdResults.importFrd(frd_result_file, self.analysis, "CCX_") for m in self.analysis.Group: if m.isDerivedFrom("Fem::FemResultObject"): self.results_present = True break else: if self.solver.AnalysisType == "check": for m in self.analysis.Group: if m.isDerivedFrom("Fem::FemMeshObjectPython"): # we have no result object but a mesh object # this happens in NOANALYSIS mode break else: FreeCAD.Console.PrintError("FEM: No result object in active Analysis.\n") else: raise Exception("FEM: No results found at {}!".format(frd_result_file)) def load_results_ccxdat(self): """Load results of ccx calculations from .dat file. """ import feminout.importCcxDatResults as importCcxDatResults dat_result_file = os.path.splitext(self.inp_file_name)[0] + ".dat" if os.path.isfile(dat_result_file): mode_frequencies = importCcxDatResults.import_dat(dat_result_file, self.analysis) else: raise Exception("FEM: No .dat results found at {}!".format(dat_result_file)) if mode_frequencies: # print(mode_frequencies) for m in self.analysis.Group: if m.isDerivedFrom("Fem::FemResultObject") and m.Eigenmode > 0: for mf in mode_frequencies: if m.Eigenmode == mf["eigenmode"]: m.EigenmodeFrequency = mf["frequency"] class CcxTools(FemToolsCcx): def __init__(self, solver=None): FemToolsCcx.__init__(self, None, solver) ## @}