# *************************************************************************** # * Copyright (c) 2018 - FreeCAD Developers * # * Author: 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. * # * * # * FreeCAD 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 FreeCAD; if not, write to the Free Software * # * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * # * USA * # * * # ***************************************************************************/ import FreeCAD import ObjectsFem import unittest from . import testtools # from .testtools import fcc_print class FemObject(unittest.TestCase): def setUp(self): self.doc_name = "TestsFemObject" try: FreeCAD.setActiveDocument(self.doc_name) except: FreeCAD.newDocument(self.doc_name) finally: FreeCAD.setActiveDocument(self.doc_name) self.active_doc = FreeCAD.ActiveDocument def test_femobjects_make(self): doc = self.active_doc analysis = ObjectsFem.makeAnalysis(doc) analysis.addObject(ObjectsFem.makeConstraintBearing(doc)) analysis.addObject(ObjectsFem.makeConstraintBodyHeatSource(doc)) analysis.addObject(ObjectsFem.makeConstraintContact(doc)) analysis.addObject(ObjectsFem.makeConstraintDisplacement(doc)) analysis.addObject(ObjectsFem.makeConstraintElectrostaticPotential(doc)) analysis.addObject(ObjectsFem.makeConstraintFixed(doc)) analysis.addObject(ObjectsFem.makeConstraintFlowVelocity(doc)) analysis.addObject(ObjectsFem.makeConstraintFluidBoundary(doc)) analysis.addObject(ObjectsFem.makeConstraintForce(doc)) analysis.addObject(ObjectsFem.makeConstraintGear(doc)) analysis.addObject(ObjectsFem.makeConstraintHeatflux(doc)) analysis.addObject(ObjectsFem.makeConstraintInitialFlowVelocity(doc)) analysis.addObject(ObjectsFem.makeConstraintInitialTemperature(doc)) analysis.addObject(ObjectsFem.makeConstraintPlaneRotation(doc)) analysis.addObject(ObjectsFem.makeConstraintPressure(doc)) analysis.addObject(ObjectsFem.makeConstraintPulley(doc)) analysis.addObject(ObjectsFem.makeConstraintSelfWeight(doc)) analysis.addObject(ObjectsFem.makeConstraintTemperature(doc)) analysis.addObject(ObjectsFem.makeConstraintTransform(doc)) analysis.addObject(ObjectsFem.makeElementFluid1D(doc)) analysis.addObject(ObjectsFem.makeElementGeometry1D(doc)) analysis.addObject(ObjectsFem.makeElementGeometry2D(doc)) analysis.addObject(ObjectsFem.makeElementRotation1D(doc)) analysis.addObject(ObjectsFem.makeMaterialFluid(doc)) mat = analysis.addObject(ObjectsFem.makeMaterialSolid(doc))[0] analysis.addObject(ObjectsFem.makeMaterialMechanicalNonlinear(doc, mat)) msh = analysis.addObject(ObjectsFem.makeMeshGmsh(doc))[0] analysis.addObject(ObjectsFem.makeMeshBoundaryLayer(doc, msh)) analysis.addObject(ObjectsFem.makeMeshGroup(doc, msh)) analysis.addObject(ObjectsFem.makeMeshRegion(doc, msh)) analysis.addObject(ObjectsFem.makeMeshNetgen(doc)) analysis.addObject(ObjectsFem.makeMeshResult(doc)) analysis.addObject(ObjectsFem.makeResultMechanical(doc)) analysis.addObject(ObjectsFem.makeSolverCalculixCcxTools(doc)) analysis.addObject(ObjectsFem.makeSolverCalculix(doc)) sol = analysis.addObject(ObjectsFem.makeSolverElmer(doc))[0] analysis.addObject(ObjectsFem.makeSolverZ88(doc)) analysis.addObject(ObjectsFem.makeEquationElasticity(doc, sol)) analysis.addObject(ObjectsFem.makeEquationElectrostatic(doc, sol)) analysis.addObject(ObjectsFem.makeEquationFlow(doc, sol)) analysis.addObject(ObjectsFem.makeEquationFluxsolver(doc, sol)) analysis.addObject(ObjectsFem.makeEquationHeat(doc, sol)) # is = 43 (just copy in empty file to test, or run unit test case, it is printed) # TODO if the equations and gmsh mesh childs are added to the analysis, # they show up twice on Tree (on solver resp. gemsh mesh obj and on analysis) # https://forum.freecadweb.org/viewtopic.php?t=25283 doc.recompute() self.assertEqual(len(analysis.Group), testtools.get_defmake_count() - 1) # because of the analysis itself count -1 def test_femobjects_type(self): doc = self.active_doc from femtools.femutils import type_of_obj self.assertEqual('Fem::FemAnalysis', type_of_obj(ObjectsFem.makeAnalysis(doc))) self.assertEqual('Fem::ConstraintBearing', type_of_obj(ObjectsFem.makeConstraintBearing(doc))) self.assertEqual('Fem::ConstraintBodyHeatSource', type_of_obj(ObjectsFem.makeConstraintBodyHeatSource(doc))) self.assertEqual('Fem::ConstraintContact', type_of_obj(ObjectsFem.makeConstraintContact(doc))) self.assertEqual('Fem::ConstraintDisplacement', type_of_obj(ObjectsFem.makeConstraintDisplacement(doc))) self.assertEqual('Fem::ConstraintElectrostaticPotential', type_of_obj(ObjectsFem.makeConstraintElectrostaticPotential(doc))) self.assertEqual('Fem::ConstraintFixed', type_of_obj(ObjectsFem.makeConstraintFixed(doc))) self.assertEqual('Fem::ConstraintFlowVelocity', type_of_obj(ObjectsFem.makeConstraintFlowVelocity(doc))) self.assertEqual('Fem::ConstraintFluidBoundary', type_of_obj(ObjectsFem.makeConstraintFluidBoundary(doc))) self.assertEqual('Fem::ConstraintForce', type_of_obj(ObjectsFem.makeConstraintForce(doc))) self.assertEqual('Fem::ConstraintGear', type_of_obj(ObjectsFem.makeConstraintGear(doc))) self.assertEqual('Fem::ConstraintHeatflux', type_of_obj(ObjectsFem.makeConstraintHeatflux(doc))) self.assertEqual('Fem::ConstraintInitialFlowVelocity', type_of_obj(ObjectsFem.makeConstraintInitialFlowVelocity(doc))) self.assertEqual('Fem::ConstraintInitialTemperature', type_of_obj(ObjectsFem.makeConstraintInitialTemperature(doc))) self.assertEqual('Fem::ConstraintPlaneRotation', type_of_obj(ObjectsFem.makeConstraintPlaneRotation(doc))) self.assertEqual('Fem::ConstraintPressure', type_of_obj(ObjectsFem.makeConstraintPressure(doc))) self.assertEqual('Fem::ConstraintPulley', type_of_obj(ObjectsFem.makeConstraintPulley(doc))) self.assertEqual('Fem::ConstraintSelfWeight', type_of_obj(ObjectsFem.makeConstraintSelfWeight(doc))) self.assertEqual('Fem::ConstraintTemperature', type_of_obj(ObjectsFem.makeConstraintTemperature(doc))) self.assertEqual('Fem::ConstraintTransform', type_of_obj(ObjectsFem.makeConstraintTransform(doc))) self.assertEqual('Fem::FemElementFluid1D', type_of_obj(ObjectsFem.makeElementFluid1D(doc))) self.assertEqual('Fem::FemElementGeometry1D', type_of_obj(ObjectsFem.makeElementGeometry1D(doc))) self.assertEqual('Fem::FemElementGeometry2D', type_of_obj(ObjectsFem.makeElementGeometry2D(doc))) self.assertEqual('Fem::FemElementRotation1D', type_of_obj(ObjectsFem.makeElementRotation1D(doc))) materialsolid = ObjectsFem.makeMaterialSolid(doc) self.assertEqual('Fem::Material', type_of_obj(ObjectsFem.makeMaterialFluid(doc))) self.assertEqual('Fem::Material', type_of_obj(materialsolid)) self.assertEqual('Fem::MaterialMechanicalNonlinear', type_of_obj(ObjectsFem.makeMaterialMechanicalNonlinear(doc, materialsolid))) mesh = ObjectsFem.makeMeshGmsh(doc) self.assertEqual('Fem::FemMeshGmsh', type_of_obj(mesh)) self.assertEqual('Fem::FemMeshBoundaryLayer', type_of_obj(ObjectsFem.makeMeshBoundaryLayer(doc, mesh))) self.assertEqual('Fem::FemMeshGroup', type_of_obj(ObjectsFem.makeMeshGroup(doc, mesh))) self.assertEqual('Fem::FemMeshRegion', type_of_obj(ObjectsFem.makeMeshRegion(doc, mesh))) self.assertEqual('Fem::FemMeshShapeNetgenObject', type_of_obj(ObjectsFem.makeMeshNetgen(doc))) self.assertEqual('Fem::FemMeshResult', type_of_obj(ObjectsFem.makeMeshResult(doc))) self.assertEqual('Fem::FemResultMechanical', type_of_obj(ObjectsFem.makeResultMechanical(doc))) solverelmer = ObjectsFem.makeSolverElmer(doc) self.assertEqual('Fem::FemSolverCalculixCcxTools', type_of_obj(ObjectsFem.makeSolverCalculixCcxTools(doc))) self.assertEqual('Fem::FemSolverObjectCalculix', type_of_obj(ObjectsFem.makeSolverCalculix(doc))) self.assertEqual('Fem::FemSolverObjectElmer', type_of_obj(solverelmer)) self.assertEqual('Fem::FemSolverObjectZ88', type_of_obj(ObjectsFem.makeSolverZ88(doc))) self.assertEqual('Fem::FemEquationElmerElasticity', type_of_obj(ObjectsFem.makeEquationElasticity(doc, solverelmer))) self.assertEqual('Fem::FemEquationElmerElectrostatic', type_of_obj(ObjectsFem.makeEquationElectrostatic(doc, solverelmer))) self.assertEqual('Fem::FemEquationElmerFlow', type_of_obj(ObjectsFem.makeEquationFlow(doc, solverelmer))) self.assertEqual('Fem::FemEquationElmerFluxsolver', type_of_obj(ObjectsFem.makeEquationFluxsolver(doc, solverelmer))) self.assertEqual('Fem::FemEquationElmerHeat', type_of_obj(ObjectsFem.makeEquationHeat(doc, solverelmer))) # is = 43 (just copy in empty file to test) # TODO: vtk post objs # TODO: use different type for fluid and solid material def test_femobjects_isoftypenew(self): doc = self.active_doc from femtools.femutils import isOfTypeNew self.assertTrue(isOfTypeNew(ObjectsFem.makeAnalysis(doc), 'Fem::FemAnalysis')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintBearing(doc), 'Fem::ConstraintBearing')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintBodyHeatSource(doc), 'Fem::ConstraintBodyHeatSource')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintContact(doc), 'Fem::ConstraintContact')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintDisplacement(doc), 'Fem::ConstraintDisplacement')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintElectrostaticPotential(doc), 'Fem::ConstraintElectrostaticPotential')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintFixed(doc), 'Fem::ConstraintFixed')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintFlowVelocity(doc), 'Fem::ConstraintFlowVelocity')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintFluidBoundary(doc), 'Fem::ConstraintFluidBoundary')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintForce(doc), 'Fem::ConstraintForce')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintGear(doc), 'Fem::ConstraintGear')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintHeatflux(doc), 'Fem::ConstraintHeatflux')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintInitialFlowVelocity(doc), 'Fem::ConstraintInitialFlowVelocity')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintInitialTemperature(doc), 'Fem::ConstraintInitialTemperature')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintPlaneRotation(doc), 'Fem::ConstraintPlaneRotation')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintPressure(doc), 'Fem::ConstraintPressure')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintPulley(doc), 'Fem::ConstraintPulley')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintSelfWeight(doc), 'Fem::ConstraintSelfWeight')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintTemperature(doc), 'Fem::ConstraintTemperature')) self.assertTrue(isOfTypeNew(ObjectsFem.makeConstraintTransform(doc), 'Fem::ConstraintTransform')) self.assertTrue(isOfTypeNew(ObjectsFem.makeElementFluid1D(doc), 'Fem::FemElementFluid1D')) self.assertTrue(isOfTypeNew(ObjectsFem.makeElementGeometry1D(doc), 'Fem::FemElementGeometry1D')) self.assertTrue(isOfTypeNew(ObjectsFem.makeElementGeometry2D(doc), 'Fem::FemElementGeometry2D')) self.assertTrue(isOfTypeNew(ObjectsFem.makeElementRotation1D(doc), 'Fem::FemElementRotation1D')) materialsolid = ObjectsFem.makeMaterialSolid(doc) self.assertTrue(isOfTypeNew(ObjectsFem.makeMaterialFluid(doc), 'Fem::Material')) self.assertTrue(isOfTypeNew(materialsolid, 'Fem::Material')) self.assertTrue(isOfTypeNew(ObjectsFem.makeMaterialMechanicalNonlinear(doc, materialsolid), 'Fem::MaterialMechanicalNonlinear')) mesh = ObjectsFem.makeMeshGmsh(doc) self.assertTrue(isOfTypeNew(mesh, 'Fem::FemMeshGmsh')) self.assertTrue(isOfTypeNew(ObjectsFem.makeMeshBoundaryLayer(doc, mesh), 'Fem::FemMeshBoundaryLayer')) self.assertTrue(isOfTypeNew(ObjectsFem.makeMeshGroup(doc, mesh), 'Fem::FemMeshGroup')) self.assertTrue(isOfTypeNew(ObjectsFem.makeMeshRegion(doc, mesh), 'Fem::FemMeshRegion')) self.assertTrue(isOfTypeNew(ObjectsFem.makeMeshNetgen(doc), 'Fem::FemMeshShapeNetgenObject')) self.assertTrue(isOfTypeNew(ObjectsFem.makeMeshResult(doc), 'Fem::FemMeshResult')) self.assertTrue(isOfTypeNew(ObjectsFem.makeResultMechanical(doc), 'Fem::FemResultMechanical')) solverelmer = ObjectsFem.makeSolverElmer(doc) self.assertTrue(isOfTypeNew(ObjectsFem.makeSolverCalculixCcxTools(doc), 'Fem::FemSolverCalculixCcxTools')) self.assertTrue(isOfTypeNew(ObjectsFem.makeSolverCalculix(doc), 'Fem::FemSolverObjectCalculix')) self.assertTrue(isOfTypeNew(solverelmer, 'Fem::FemSolverObjectElmer')) self.assertTrue(isOfTypeNew(ObjectsFem.makeSolverZ88(doc), 'Fem::FemSolverObjectZ88')) self.assertTrue(isOfTypeNew(ObjectsFem.makeEquationElasticity(doc, solverelmer), 'Fem::FemEquationElmerElasticity')) self.assertTrue(isOfTypeNew(ObjectsFem.makeEquationElectrostatic(doc, solverelmer), 'Fem::FemEquationElmerElectrostatic')) self.assertTrue(isOfTypeNew(ObjectsFem.makeEquationFlow(doc, solverelmer), 'Fem::FemEquationElmerFlow')) self.assertTrue(isOfTypeNew(ObjectsFem.makeEquationFluxsolver(doc, solverelmer), 'Fem::FemEquationElmerFluxsolver')) self.assertTrue(isOfTypeNew(ObjectsFem.makeEquationHeat(doc, solverelmer), 'Fem::FemEquationElmerHeat')) # is = 43 (just copy in empty file to test) def test_femobjects_derivedfromfem(self): doc = self.active_doc from femtools.femutils import isDerivedFrom as isDerivedFromFem self.assertTrue(isDerivedFromFem(ObjectsFem.makeAnalysis(doc), 'Fem::FemAnalysis')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintBearing(doc), 'Fem::ConstraintBearing')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintBodyHeatSource(doc), 'Fem::ConstraintBodyHeatSource')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintContact(doc), 'Fem::ConstraintContact')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintDisplacement(doc), 'Fem::ConstraintDisplacement')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintElectrostaticPotential(doc), 'Fem::ConstraintElectrostaticPotential')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintFixed(doc), 'Fem::ConstraintFixed')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintFlowVelocity(doc), 'Fem::ConstraintFlowVelocity')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintFluidBoundary(doc), 'Fem::ConstraintFluidBoundary')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintForce(doc), 'Fem::ConstraintForce')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintGear(doc), 'Fem::ConstraintGear')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintHeatflux(doc), 'Fem::ConstraintHeatflux')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintInitialFlowVelocity(doc), 'Fem::ConstraintInitialFlowVelocity')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintInitialTemperature(doc), 'Fem::ConstraintInitialTemperature')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintPlaneRotation(doc), 'Fem::ConstraintPlaneRotation')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintPressure(doc), 'Fem::ConstraintPressure')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintPulley(doc), 'Fem::ConstraintPulley')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintSelfWeight(doc), 'Fem::ConstraintSelfWeight')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintTemperature(doc), 'Fem::ConstraintTemperature')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeConstraintTransform(doc), 'Fem::ConstraintTransform')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeElementFluid1D(doc), 'Fem::FemElementFluid1D')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeElementGeometry1D(doc), 'Fem::FemElementGeometry1D')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeElementGeometry2D(doc), 'Fem::FemElementGeometry2D')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeElementRotation1D(doc), 'Fem::FemElementRotation1D')) materialsolid = ObjectsFem.makeMaterialSolid(doc) self.assertTrue(isDerivedFromFem(ObjectsFem.makeMaterialFluid(doc), 'Fem::Material')) self.assertTrue(isDerivedFromFem(materialsolid, 'Fem::Material')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeMaterialMechanicalNonlinear(doc, materialsolid), 'Fem::MaterialMechanicalNonlinear')) mesh = ObjectsFem.makeMeshGmsh(doc) self.assertTrue(isDerivedFromFem(mesh, 'Fem::FemMeshGmsh')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeMeshBoundaryLayer(doc, mesh), 'Fem::FemMeshBoundaryLayer')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeMeshGroup(doc, mesh), 'Fem::FemMeshGroup')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeMeshRegion(doc, mesh), 'Fem::FemMeshRegion')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeMeshNetgen(doc), 'Fem::FemMeshShapeNetgenObject')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeMeshResult(doc), 'Fem::FemMeshResult')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeResultMechanical(doc), 'Fem::FemResultMechanical')) solverelmer = ObjectsFem.makeSolverElmer(doc) self.assertTrue(isDerivedFromFem(ObjectsFem.makeSolverCalculixCcxTools(doc), 'Fem::FemSolverCalculixCcxTools')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeSolverCalculix(doc), 'Fem::FemSolverObjectCalculix')) self.assertTrue(isDerivedFromFem(solverelmer, 'Fem::FemSolverObjectElmer')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeSolverZ88(doc), 'Fem::FemSolverObjectZ88')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeEquationElasticity(doc, solverelmer), 'Fem::FemEquationElmerElasticity')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeEquationElectrostatic(doc, solverelmer), 'Fem::FemEquationElmerElectrostatic')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeEquationFlow(doc, solverelmer), 'Fem::FemEquationElmerFlow')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeEquationFluxsolver(doc, solverelmer), 'Fem::FemEquationElmerFluxsolver')) self.assertTrue(isDerivedFromFem(ObjectsFem.makeEquationHeat(doc, solverelmer), 'Fem::FemEquationElmerHeat')) # is = 43 (just copy in empty file to test) def test_femobjects_derivedfromstd(self): doc = self.active_doc self.assertTrue(ObjectsFem.makeAnalysis(doc).isDerivedFrom('Fem::FemAnalysis')) self.assertTrue(ObjectsFem.makeConstraintBearing(doc).isDerivedFrom('Fem::ConstraintBearing')) self.assertTrue(ObjectsFem.makeConstraintBodyHeatSource(doc).isDerivedFrom('Fem::ConstraintPython')) self.assertTrue(ObjectsFem.makeConstraintContact(doc).isDerivedFrom('Fem::ConstraintContact')) self.assertTrue(ObjectsFem.makeConstraintDisplacement(doc).isDerivedFrom('Fem::ConstraintDisplacement')) self.assertTrue(ObjectsFem.makeConstraintElectrostaticPotential(doc).isDerivedFrom('Fem::ConstraintPython')) self.assertTrue(ObjectsFem.makeConstraintFixed(doc).isDerivedFrom('Fem::ConstraintFixed')) self.assertTrue(ObjectsFem.makeConstraintFlowVelocity(doc).isDerivedFrom('Fem::ConstraintPython')) self.assertTrue(ObjectsFem.makeConstraintFluidBoundary(doc).isDerivedFrom('Fem::ConstraintFluidBoundary')) self.assertTrue(ObjectsFem.makeConstraintForce(doc).isDerivedFrom('Fem::ConstraintForce')) self.assertTrue(ObjectsFem.makeConstraintGear(doc).isDerivedFrom('Fem::ConstraintGear')) self.assertTrue(ObjectsFem.makeConstraintHeatflux(doc).isDerivedFrom('Fem::ConstraintHeatflux')) self.assertTrue(ObjectsFem.makeConstraintInitialFlowVelocity(doc).isDerivedFrom('Fem::ConstraintPython')) self.assertTrue(ObjectsFem.makeConstraintInitialTemperature(doc).isDerivedFrom('Fem::ConstraintInitialTemperature')) self.assertTrue(ObjectsFem.makeConstraintPlaneRotation(doc).isDerivedFrom('Fem::ConstraintPlaneRotation')) self.assertTrue(ObjectsFem.makeConstraintPressure(doc).isDerivedFrom('Fem::ConstraintPressure')) self.assertTrue(ObjectsFem.makeConstraintPulley(doc).isDerivedFrom('Fem::ConstraintPulley')) self.assertTrue(ObjectsFem.makeConstraintSelfWeight(doc).isDerivedFrom('Fem::ConstraintPython')) self.assertTrue(ObjectsFem.makeConstraintTemperature(doc).isDerivedFrom('Fem::ConstraintTemperature')) self.assertTrue(ObjectsFem.makeConstraintTransform(doc).isDerivedFrom('Fem::ConstraintTransform')) self.assertTrue(ObjectsFem.makeElementFluid1D(doc).isDerivedFrom('Fem::FeaturePython')) self.assertTrue(ObjectsFem.makeElementGeometry1D(doc).isDerivedFrom('Fem::FeaturePython')) self.assertTrue(ObjectsFem.makeElementGeometry2D(doc).isDerivedFrom('Fem::FeaturePython')) self.assertTrue(ObjectsFem.makeElementRotation1D(doc).isDerivedFrom('Fem::FeaturePython')) materialsolid = ObjectsFem.makeMaterialSolid(doc) self.assertTrue(ObjectsFem.makeMaterialFluid(doc).isDerivedFrom('App::MaterialObjectPython')) self.assertTrue(materialsolid.isDerivedFrom('App::MaterialObjectPython')) self.assertTrue(ObjectsFem.makeMaterialMechanicalNonlinear(doc, materialsolid).isDerivedFrom('Fem::FeaturePython')) mesh = ObjectsFem.makeMeshGmsh(doc) self.assertTrue(mesh.isDerivedFrom('Fem::FemMeshObjectPython')) self.assertTrue(ObjectsFem.makeMeshBoundaryLayer(doc, mesh).isDerivedFrom('Fem::FeaturePython')) self.assertTrue(ObjectsFem.makeMeshGroup(doc, mesh).isDerivedFrom('Fem::FeaturePython')) self.assertTrue(ObjectsFem.makeMeshRegion(doc, mesh).isDerivedFrom('Fem::FeaturePython')) self.assertTrue(ObjectsFem.makeMeshNetgen(doc).isDerivedFrom('Fem::FemMeshShapeNetgenObject')) self.assertTrue(ObjectsFem.makeMeshResult(doc).isDerivedFrom('Fem::FemMeshObjectPython')) self.assertTrue(ObjectsFem.makeResultMechanical(doc).isDerivedFrom('Fem::FemResultObjectPython')) solverelmer = ObjectsFem.makeSolverElmer(doc) self.assertTrue(ObjectsFem.makeSolverCalculixCcxTools(doc).isDerivedFrom('Fem::FemSolverObjectPython')) self.assertTrue(ObjectsFem.makeSolverCalculix(doc).isDerivedFrom('Fem::FemSolverObjectPython')) self.assertTrue(solverelmer.isDerivedFrom('Fem::FemSolverObjectPython')) self.assertTrue(ObjectsFem.makeSolverZ88(doc).isDerivedFrom('Fem::FemSolverObjectPython')) self.assertTrue(ObjectsFem.makeEquationElasticity(doc, solverelmer).isDerivedFrom('App::FeaturePython')) self.assertTrue(ObjectsFem.makeEquationElectrostatic(doc, solverelmer).isDerivedFrom('App::FeaturePython')) self.assertTrue(ObjectsFem.makeEquationFlow(doc, solverelmer).isDerivedFrom('App::FeaturePython')) self.assertTrue(ObjectsFem.makeEquationFluxsolver(doc, solverelmer).isDerivedFrom('App::FeaturePython')) self.assertTrue(ObjectsFem.makeEquationHeat(doc, solverelmer).isDerivedFrom('App::FeaturePython')) # is = 43 (just copy in empty file to test) def tearDown(self): FreeCAD.closeDocument(self.doc_name) pass