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Python ObjectsFem.makeSolverCalculix方法代码示例

本文整理汇总了Python中ObjectsFem.makeSolverCalculix方法的典型用法代码示例。如果您正苦于以下问题:Python ObjectsFem.makeSolverCalculix方法的具体用法?Python ObjectsFem.makeSolverCalculix怎么用?Python ObjectsFem.makeSolverCalculix使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在ObjectsFem的用法示例。


在下文中一共展示了ObjectsFem.makeSolverCalculix方法的8个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: test_femobjects_make

# 需要导入模块: import ObjectsFem [as 别名]
# 或者: from ObjectsFem import makeSolverCalculix [as 别名]
    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
开发者ID:DevJohan,项目名称:FreeCAD_sf_master,代码行数:61,代码来源:testcommon.py

示例2: test_femobjects_derivedfromstd

# 需要导入模块: import ObjectsFem [as 别名]
# 或者: from ObjectsFem import makeSolverCalculix [as 别名]
    def test_femobjects_derivedfromstd(self):
        # only the last True type is used
        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'))
开发者ID:KimK,项目名称:FreeCAD,代码行数:52,代码来源:testobject.py

示例3: test_femobjects_isoftype

# 需要导入模块: import ObjectsFem [as 别名]
# 或者: from ObjectsFem import makeSolverCalculix [as 别名]
    def test_femobjects_isoftype(self):
        doc = self.active_doc

        from femtools.femutils import is_of_type
        self.assertTrue(is_of_type(ObjectsFem.makeAnalysis(doc), 'Fem::FemAnalysis'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintBearing(doc), 'Fem::ConstraintBearing'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintBodyHeatSource(doc), 'Fem::ConstraintBodyHeatSource'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintContact(doc), 'Fem::ConstraintContact'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintDisplacement(doc), 'Fem::ConstraintDisplacement'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintElectrostaticPotential(doc), 'Fem::ConstraintElectrostaticPotential'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintFixed(doc), 'Fem::ConstraintFixed'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintFlowVelocity(doc), 'Fem::ConstraintFlowVelocity'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintFluidBoundary(doc), 'Fem::ConstraintFluidBoundary'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintForce(doc), 'Fem::ConstraintForce'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintGear(doc), 'Fem::ConstraintGear'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintHeatflux(doc), 'Fem::ConstraintHeatflux'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintInitialFlowVelocity(doc), 'Fem::ConstraintInitialFlowVelocity'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintInitialTemperature(doc), 'Fem::ConstraintInitialTemperature'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintPlaneRotation(doc), 'Fem::ConstraintPlaneRotation'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintPressure(doc), 'Fem::ConstraintPressure'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintPulley(doc), 'Fem::ConstraintPulley'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintSelfWeight(doc), 'Fem::ConstraintSelfWeight'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintTemperature(doc), 'Fem::ConstraintTemperature'))
        self.assertTrue(is_of_type(ObjectsFem.makeConstraintTransform(doc), 'Fem::ConstraintTransform'))
        self.assertTrue(is_of_type(ObjectsFem.makeElementFluid1D(doc), 'Fem::FemElementFluid1D'))
        self.assertTrue(is_of_type(ObjectsFem.makeElementGeometry1D(doc), 'Fem::FemElementGeometry1D'))
        self.assertTrue(is_of_type(ObjectsFem.makeElementGeometry2D(doc), 'Fem::FemElementGeometry2D'))
        self.assertTrue(is_of_type(ObjectsFem.makeElementRotation1D(doc), 'Fem::FemElementRotation1D'))
        materialsolid = ObjectsFem.makeMaterialSolid(doc)
        self.assertTrue(is_of_type(ObjectsFem.makeMaterialFluid(doc), 'Fem::Material'))
        self.assertTrue(is_of_type(materialsolid, 'Fem::Material'))
        self.assertTrue(is_of_type(ObjectsFem.makeMaterialMechanicalNonlinear(doc, materialsolid), 'Fem::MaterialMechanicalNonlinear'))
        mesh = ObjectsFem.makeMeshGmsh(doc)
        self.assertTrue(is_of_type(mesh, 'Fem::FemMeshGmsh'))
        self.assertTrue(is_of_type(ObjectsFem.makeMeshBoundaryLayer(doc, mesh), 'Fem::FemMeshBoundaryLayer'))
        self.assertTrue(is_of_type(ObjectsFem.makeMeshGroup(doc, mesh), 'Fem::FemMeshGroup'))
        self.assertTrue(is_of_type(ObjectsFem.makeMeshRegion(doc, mesh), 'Fem::FemMeshRegion'))
        self.assertTrue(is_of_type(ObjectsFem.makeMeshNetgen(doc), 'Fem::FemMeshShapeNetgenObject'))
        self.assertTrue(is_of_type(ObjectsFem.makeMeshResult(doc), 'Fem::FemMeshResult'))
        self.assertTrue(is_of_type(ObjectsFem.makeResultMechanical(doc), 'Fem::FemResultMechanical'))
        solverelmer = ObjectsFem.makeSolverElmer(doc)
        self.assertTrue(is_of_type(ObjectsFem.makeSolverCalculixCcxTools(doc), 'Fem::FemSolverCalculixCcxTools'))
        self.assertTrue(is_of_type(ObjectsFem.makeSolverCalculix(doc), 'Fem::FemSolverObjectCalculix'))
        self.assertTrue(is_of_type(solverelmer, 'Fem::FemSolverObjectElmer'))
        self.assertTrue(is_of_type(ObjectsFem.makeSolverZ88(doc), 'Fem::FemSolverObjectZ88'))
        self.assertTrue(is_of_type(ObjectsFem.makeEquationElasticity(doc, solverelmer), 'Fem::FemEquationElmerElasticity'))
        self.assertTrue(is_of_type(ObjectsFem.makeEquationElectrostatic(doc, solverelmer), 'Fem::FemEquationElmerElectrostatic'))
        self.assertTrue(is_of_type(ObjectsFem.makeEquationFlow(doc, solverelmer), 'Fem::FemEquationElmerFlow'))
        self.assertTrue(is_of_type(ObjectsFem.makeEquationFluxsolver(doc, solverelmer), 'Fem::FemEquationElmerFluxsolver'))
        self.assertTrue(is_of_type(ObjectsFem.makeEquationHeat(doc, solverelmer), 'Fem::FemEquationElmerHeat'))
开发者ID:KimK,项目名称:FreeCAD,代码行数:52,代码来源:testobject.py

示例4: test_femobjects_derivedfromfem

# 需要导入模块: import ObjectsFem [as 别名]
# 或者: from ObjectsFem import makeSolverCalculix [as 别名]

#.........这里部分代码省略.........
        self.assertTrue(is_derived_from(ObjectsFem.makeConstraintTemperature(doc), 'Fem::Constraint'))
        self.assertTrue(is_derived_from(ObjectsFem.makeConstraintTemperature(doc), 'Fem::ConstraintTemperature'))

        self.assertTrue(is_derived_from(ObjectsFem.makeConstraintTransform(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeConstraintTransform(doc), 'Fem::ConstraintTransform'))

        self.assertTrue(is_derived_from(ObjectsFem.makeElementFluid1D(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeElementFluid1D(doc), 'Fem::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeElementFluid1D(doc), 'Fem::FemElementFluid1D'))

        self.assertTrue(is_derived_from(ObjectsFem.makeElementGeometry1D(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeElementGeometry1D(doc), 'Fem::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeElementGeometry1D(doc), 'Fem::FemElementGeometry1D'))

        self.assertTrue(is_derived_from(ObjectsFem.makeElementGeometry2D(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeElementGeometry2D(doc), 'Fem::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeElementGeometry2D(doc), 'Fem::FemElementGeometry2D'))

        self.assertTrue(is_derived_from(ObjectsFem.makeElementRotation1D(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeElementRotation1D(doc), 'Fem::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeElementRotation1D(doc), 'Fem::FemElementRotation1D'))

        self.assertTrue(is_derived_from(ObjectsFem.makeMaterialFluid(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMaterialFluid(doc), 'App::MaterialObjectPython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMaterialFluid(doc), 'Fem::Material'))

        self.assertTrue(is_derived_from(materialsolid, 'App::DocumentObject'))
        self.assertTrue(is_derived_from(materialsolid, 'App::MaterialObjectPython'))
        self.assertTrue(is_derived_from(materialsolid, 'Fem::Material'))

        self.assertTrue(is_derived_from(ObjectsFem.makeMaterialMechanicalNonlinear(doc, materialsolid), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMaterialMechanicalNonlinear(doc, materialsolid), 'Fem::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMaterialMechanicalNonlinear(doc, materialsolid), 'Fem::MaterialMechanicalNonlinear'))

        self.assertTrue(is_derived_from(mesh, 'App::DocumentObject'))
        self.assertTrue(is_derived_from(mesh, 'Fem::FemMeshObjectPython'))
        self.assertTrue(is_derived_from(mesh, 'Fem::FemMeshGmsh'))

        self.assertTrue(is_derived_from(ObjectsFem.makeMeshBoundaryLayer(doc, mesh), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshBoundaryLayer(doc, mesh), 'Fem::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshBoundaryLayer(doc, mesh), 'Fem::FemMeshBoundaryLayer'))

        self.assertTrue(is_derived_from(ObjectsFem.makeMeshGroup(doc, mesh), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshGroup(doc, mesh), 'Fem::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshGroup(doc, mesh), 'Fem::FemMeshGroup'))

        self.assertTrue(is_derived_from(ObjectsFem.makeMeshRegion(doc, mesh), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshRegion(doc, mesh), 'Fem::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshRegion(doc, mesh), 'Fem::FemMeshRegion'))

        self.assertTrue(is_derived_from(ObjectsFem.makeMeshNetgen(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshNetgen(doc), 'Fem::FemMeshShapeNetgenObject'))

        self.assertTrue(is_derived_from(ObjectsFem.makeMeshResult(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshResult(doc), 'Fem::FemMeshObjectPython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeMeshResult(doc), 'Fem::FemMeshResult'))

        self.assertTrue(is_derived_from(ObjectsFem.makeResultMechanical(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeResultMechanical(doc), 'Fem::FemResultObjectPython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeResultMechanical(doc), 'Fem::FemResultMechanical'))

        self.assertTrue(is_derived_from(ObjectsFem.makeSolverCalculixCcxTools(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverCalculixCcxTools(doc), 'Fem::FemSolverObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverCalculixCcxTools(doc), 'Fem::FemSolverObjectPython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverCalculixCcxTools(doc), 'Fem::FemSolverCalculixCcxTools'))

        self.assertTrue(is_derived_from(ObjectsFem.makeSolverCalculix(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverCalculix(doc), 'Fem::FemSolverObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverCalculix(doc), 'Fem::FemSolverObjectPython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverCalculix(doc), 'Fem::FemSolverObjectCalculix'))

        self.assertTrue(is_derived_from(solverelmer, 'App::DocumentObject'))
        self.assertTrue(is_derived_from(solverelmer, 'Fem::FemSolverObject'))
        self.assertTrue(is_derived_from(solverelmer, 'Fem::FemSolverObjectPython'))
        self.assertTrue(is_derived_from(solverelmer, 'Fem::FemSolverObjectElmer'))

        self.assertTrue(is_derived_from(ObjectsFem.makeSolverZ88(doc), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverZ88(doc), 'Fem::FemSolverObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverZ88(doc), 'Fem::FemSolverObjectPython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeSolverZ88(doc), 'Fem::FemSolverObjectZ88'))

        self.assertTrue(is_derived_from(ObjectsFem.makeEquationElasticity(doc, solverelmer), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationElasticity(doc, solverelmer), 'App::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationElasticity(doc, solverelmer), 'Fem::FemEquationElmerElasticity'))

        self.assertTrue(is_derived_from(ObjectsFem.makeEquationElectrostatic(doc, solverelmer), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationElectrostatic(doc, solverelmer), 'App::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationElectrostatic(doc, solverelmer), 'Fem::FemEquationElmerElectrostatic'))

        self.assertTrue(is_derived_from(ObjectsFem.makeEquationFlow(doc, solverelmer), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationFlow(doc, solverelmer), 'App::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationFlow(doc, solverelmer), 'Fem::FemEquationElmerFlow'))

        self.assertTrue(is_derived_from(ObjectsFem.makeEquationFluxsolver(doc, solverelmer), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationFluxsolver(doc, solverelmer), 'App::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationFluxsolver(doc, solverelmer), 'Fem::FemEquationElmerFluxsolver'))

        self.assertTrue(is_derived_from(ObjectsFem.makeEquationHeat(doc, solverelmer), 'App::DocumentObject'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationHeat(doc, solverelmer), 'App::FeaturePython'))
        self.assertTrue(is_derived_from(ObjectsFem.makeEquationHeat(doc, solverelmer), 'Fem::FemEquationElmerHeat'))
开发者ID:KimK,项目名称:FreeCAD,代码行数:104,代码来源:testobject.py

示例5: test_solver_framework

# 需要导入模块: import ObjectsFem [as 别名]
# 或者: from ObjectsFem import makeSolverCalculix [as 别名]
    def test_solver_framework(self):
        fcc_print('\n--------------- Start of FEM tests  solver frame work ---------------')
        box = self.active_doc.addObject("Part::Box", "Box")
        fcc_print('Checking FEM new analysis...')
        analysis = ObjectsFem.makeAnalysis(self.active_doc, 'Analysis')
        self.assertTrue(analysis, "FemTest of new analysis failed")

        fcc_print('Checking FEM new material...')
        material_object = ObjectsFem.makeMaterialSolid(self.active_doc, 'MechanicalMaterial')
        mat = material_object.Material
        mat['Name'] = "Steel-Generic"
        mat['YoungsModulus'] = "200000 MPa"
        mat['PoissonRatio'] = "0.30"
        mat['Density'] = "7900 kg/m^3"
        material_object.Material = mat
        self.assertTrue(material_object, "FemTest of new material failed")
        analysis.addObject(material_object)

        fcc_print('Checking FEM new fixed constraint...')
        fixed_constraint = self.active_doc.addObject("Fem::ConstraintFixed", "FemConstraintFixed")
        fixed_constraint.References = [(box, "Face1")]
        self.assertTrue(fixed_constraint, "FemTest of new fixed constraint failed")
        analysis.addObject(fixed_constraint)

        fcc_print('Checking FEM new force constraint...')
        force_constraint = self.active_doc.addObject("Fem::ConstraintForce", "FemConstraintForce")
        force_constraint.References = [(box, "Face6")]
        force_constraint.Force = 40000.0
        force_constraint.Direction = (box, ["Edge5"])
        self.active_doc.recompute()
        force_constraint.Reversed = True
        self.active_doc.recompute()
        self.assertTrue(force_constraint, "FemTest of new force constraint failed")
        analysis.addObject(force_constraint)

        fcc_print('Checking FEM new pressure constraint...')
        pressure_constraint = self.active_doc.addObject("Fem::ConstraintPressure", "FemConstraintPressure")
        pressure_constraint.References = [(box, "Face2")]
        pressure_constraint.Pressure = 1000.0
        pressure_constraint.Reversed = False
        self.assertTrue(pressure_constraint, "FemTest of new pressure constraint failed")
        analysis.addObject(pressure_constraint)

        fcc_print('Checking FEM new mesh...')
        from .testfiles.ccx.cube_mesh import create_nodes_cube
        from .testfiles.ccx.cube_mesh import create_elements_cube
        mesh = Fem.FemMesh()
        ret = create_nodes_cube(mesh)
        self.assertTrue(ret, "Import of mesh nodes failed")
        ret = create_elements_cube(mesh)
        self.assertTrue(ret, "Import of mesh volumes failed")
        mesh_object = self.active_doc.addObject('Fem::FemMeshObject', self.mesh_name)
        mesh_object.FemMesh = mesh
        self.assertTrue(mesh, "FemTest of new mesh failed")
        analysis.addObject(mesh_object)

        self.active_doc.recompute()

        # solver frame work ccx solver
        fcc_print('\nChecking FEM CalculiX solver for solver frame work...')
        solver_ccx_object = ObjectsFem.makeSolverCalculix(self.active_doc, 'SolverCalculiX')
        solver_ccx_object.AnalysisType = 'static'
        solver_ccx_object.GeometricalNonlinearity = 'linear'
        solver_ccx_object.ThermoMechSteadyState = False
        solver_ccx_object.MatrixSolverType = 'default'
        solver_ccx_object.IterationsControlParameterTimeUse = False
        solver_ccx_object.EigenmodesCount = 10
        solver_ccx_object.EigenmodeHighLimit = 1000000.0
        solver_ccx_object.EigenmodeLowLimit = 0.0
        self.assertTrue(solver_ccx_object, "FemTest of new ccx solver failed")
        analysis.addObject(solver_ccx_object)

        static_base_name = 'cube_static'
        solverframework_analysis_dir = testtools.get_unit_test_tmp_dir(testtools.get_fem_test_tmp_dir(), 'FEM_solverframework/')
        fcc_print('Checking FEM Elmer solver for solver frame work......')
        fcc_print('machine_ccx')
        machine_ccx = solver_ccx_object.Proxy.createMachine(solver_ccx_object, solverframework_analysis_dir)
        fcc_print('Machine testmode: ' + str(machine_ccx.testmode))
        machine_ccx.target = femsolver.run.PREPARE
        machine_ccx.start()
        machine_ccx.join()  # wait for the machine to finish.
        static_analysis_inp_file = testtools.get_fem_test_home_dir() + 'ccx/' + static_base_name + '.inp'
        fcc_print('Comparing {} to {}/{}.inp'.format(static_analysis_inp_file, solverframework_analysis_dir, self.mesh_name))
        ret = testtools.compare_inp_files(static_analysis_inp_file, solverframework_analysis_dir + self.mesh_name + '.inp')
        self.assertFalse(ret, "ccxtools write_inp_file test failed.\n{}".format(ret))

        # use solver frame work elmer solver
        solver_elmer_object = ObjectsFem.makeSolverElmer(self.active_doc, 'SolverElmer')
        self.assertTrue(solver_elmer_object, "FemTest of elmer solver failed")
        analysis.addObject(solver_elmer_object)
        solver_elmer_eqobj = ObjectsFem.makeEquationElasticity(self.active_doc, solver_elmer_object)
        self.assertTrue(solver_elmer_eqobj, "FemTest of elmer elasticity equation failed")

        # set ThermalExpansionCoefficient, current elmer seems to need it even on simple elasticity analysis
        mat = material_object.Material
        mat['ThermalExpansionCoefficient'] = "0 um/m/K"  # FIXME elmer elasticity needs the dictionary key, otherwise it fails
        material_object.Material = mat

        mesh_gmsh = ObjectsFem.makeMeshGmsh(self.active_doc)
        mesh_gmsh.CharacteristicLengthMin = "9 mm"
#.........这里部分代码省略.........
开发者ID:AjinkyaDahale,项目名称:FreeCAD,代码行数:103,代码来源:testsolverframework.py

示例6: setup_cantileverbase

# 需要导入模块: import ObjectsFem [as 别名]
# 或者: from ObjectsFem import makeSolverCalculix [as 别名]
def setup_cantileverbase(doc=None, solver='ccxtools'):
    # setup CalculiX cantilever base model

    if doc is None:
        doc = init_doc()

    # part
    box_obj = doc.addObject('Part::Box', 'Box')
    box_obj.Height = box_obj.Width = 1000
    box_obj.Length = 8000

    # analysis
    analysis = ObjectsFem.makeAnalysis(doc, 'Analysis')

    solver
    # TODO How to pass multiple solver for one analysis in one doc
    if solver is None:
        pass  # no solver is added
    elif solver is 'calculix':
        solver_object = analysis.addObject(ObjectsFem.makeSolverCalculix(doc, 'SolverCalculiX'))[0]
        solver_object.AnalysisType = 'static'
        solver_object.GeometricalNonlinearity = 'linear'
        solver_object.ThermoMechSteadyState = False
        solver_object.MatrixSolverType = 'default'
        solver_object.IterationsControlParameterTimeUse = False
    elif solver is 'ccxtools':
        solver_object = analysis.addObject(ObjectsFem.makeSolverCalculixCcxTools(doc, 'CalculiXccxTools'))[0]
        solver_object.AnalysisType = 'static'
        solver_object.GeometricalNonlinearity = 'linear'
        solver_object.ThermoMechSteadyState = False
        solver_object.MatrixSolverType = 'default'
        solver_object.IterationsControlParameterTimeUse = False
        solver_object.WorkingDir = u''
    elif solver is 'elmer':
        analysis.addObject(ObjectsFem.makeSolverElmer(doc, 'SolverElmer'))
    elif solver is 'z88':
        analysis.addObject(ObjectsFem.makeSolverZ88(doc, 'SolverZ88'))

    # material
    material_object = analysis.addObject(ObjectsFem.makeMaterialSolid(doc, 'FemMaterial'))[0]
    mat = material_object.Material
    mat['Name'] = "CalculiX-Steel"
    mat['YoungsModulus'] = "210000 MPa"
    mat['PoissonRatio'] = "0.30"
    mat['Density'] = "7900 kg/m^3"
    mat['ThermalExpansionCoefficient'] = "0.012 mm/m/K"
    material_object.Material = mat

    # fixed_constraint
    fixed_constraint = analysis.addObject(ObjectsFem.makeConstraintFixed(doc, name="ConstraintFixed"))[0]
    fixed_constraint.References = [(doc.Box, "Face1")]

    # mesh
    from femexamples.meshes.mesh_canticcx_tetra10 import create_nodes, create_elements
    fem_mesh = Fem.FemMesh()
    control = create_nodes(fem_mesh)
    if not control:
        print('ERROR on creating nodes')
    control = create_elements(fem_mesh)
    if not control:
        print('ERROR on creating elements')
    femmesh_obj = analysis.addObject(doc.addObject('Fem::FemMeshObject', mesh_name))[0]
    femmesh_obj.FemMesh = fem_mesh

    doc.recompute()
    return doc
开发者ID:tomate44,项目名称:FreeCAD,代码行数:68,代码来源:ccx_cantilever_std.py

示例7: test_thermomech_analysis

# 需要导入模块: import ObjectsFem [as 别名]
# 或者: from ObjectsFem import makeSolverCalculix [as 别名]
    def test_thermomech_analysis(self):
        fcc_print('--------------- Start of FEM tests ---------------')
        box = self.active_doc.addObject("Part::Box", "Box")
        box.Height = 25.4
        box.Width = 25.4
        box.Length = 203.2
        fcc_print('Checking FEM new analysis...')
        analysis = ObjectsFem.makeAnalysis('Analysis')
        self.assertTrue(analysis, "FemTest of new analysis failed")

        fcc_print('Checking FEM new solver...')
        solver_object = ObjectsFem.makeSolverCalculix('CalculiX')
        solver_object.AnalysisType = 'thermomech'
        solver_object.GeometricalNonlinearity = 'linear'
        solver_object.ThermoMechSteadyState = True
        solver_object.MatrixSolverType = 'default'
        solver_object.IterationsThermoMechMaximum = 2000
        solver_object.IterationsControlParameterTimeUse = True
        self.assertTrue(solver_object, "FemTest of new solver failed")
        analysis.Member = analysis.Member + [solver_object]

        fcc_print('Checking FEM new material...')
        new_material_object = ObjectsFem.makeMaterialSolid('MechanicalMaterial')
        mat = new_material_object.Material
        mat['Name'] = "Steel-Generic"
        mat['YoungsModulus'] = "200000 MPa"
        mat['PoissonRatio'] = "0.30"
        mat['Density'] = "7900 kg/m^3"
        mat['ThermalConductivity'] = "43.27 W/m/K"  # SvdW: Change to Ansys model values
        mat['ThermalExpansionCoefficient'] = "12 um/m/K"
        mat['SpecificHeat'] = "500 J/kg/K"  # SvdW: Change to Ansys model values
        new_material_object.Material = mat
        self.assertTrue(new_material_object, "FemTest of new material failed")
        analysis.Member = analysis.Member + [new_material_object]

        fcc_print('Checking FEM new fixed constraint...')
        fixed_constraint = self.active_doc.addObject("Fem::ConstraintFixed", "FemConstraintFixed")
        fixed_constraint.References = [(box, "Face1")]
        self.assertTrue(fixed_constraint, "FemTest of new fixed constraint failed")
        analysis.Member = analysis.Member + [fixed_constraint]

        fcc_print('Checking FEM new initial temperature constraint...')
        initialtemperature_constraint = self.active_doc.addObject("Fem::ConstraintInitialTemperature", "FemConstraintInitialTemperature")
        initialtemperature_constraint.initialTemperature = 300.0
        self.assertTrue(initialtemperature_constraint, "FemTest of new initial temperature constraint failed")
        analysis.Member = analysis.Member + [initialtemperature_constraint]

        fcc_print('Checking FEM new temperature constraint...')
        temperature_constraint = self.active_doc.addObject("Fem::ConstraintTemperature", "FemConstraintTemperature")
        temperature_constraint.References = [(box, "Face1")]
        temperature_constraint.Temperature = 310.93
        self.assertTrue(temperature_constraint, "FemTest of new temperature constraint failed")
        analysis.Member = analysis.Member + [temperature_constraint]

        fcc_print('Checking FEM new heatflux constraint...')
        heatflux_constraint = self.active_doc.addObject("Fem::ConstraintHeatflux", "FemConstraintHeatflux")
        heatflux_constraint.References = [(box, "Face3"), (box, "Face4"), (box, "Face5"), (box, "Face6")]
        heatflux_constraint.AmbientTemp = 255.3722
        heatflux_constraint.FilmCoef = 5.678
        self.assertTrue(heatflux_constraint, "FemTest of new heatflux constraint failed")
        analysis.Member = analysis.Member + [heatflux_constraint]

        fcc_print('Checking FEM new mesh...')
        mesh = import_csv_mesh(spine_points_file, spine_volumes_file)
        mesh_object = self.active_doc.addObject('Fem::FemMeshObject', mesh_name)
        mesh_object.FemMesh = mesh
        self.assertTrue(mesh, "FemTest of new mesh failed")
        analysis.Member = analysis.Member + [mesh_object]

        self.active_doc.recompute()

        fea = FemToolsCcx.FemToolsCcx(analysis, test_mode=True)
        fcc_print('Setting up working directory {}'.format(thermomech_analysis_dir))
        fea.setup_working_dir(thermomech_analysis_dir)
        self.assertTrue(True if fea.working_dir == thermomech_analysis_dir else False,
                        "Setting working directory {} failed".format(thermomech_analysis_dir))

        fcc_print('Setting analysis type to \'thermomech\"')
        fea.set_analysis_type("thermomech")
        self.assertTrue(True if fea.analysis_type == 'thermomech' else False, "Setting anlysis type to \'thermomech\' failed")

        fcc_print('Checking FEM inp file prerequisites for thermo-mechanical analysis...')
        error = fea.check_prerequisites()
        self.assertFalse(error, "FemToolsCcx check_prerequisites returned error message: {}".format(error))

        fcc_print('Checking FEM inp file write...')

        fcc_print('Writing {}/{}.inp for thermomech analysis'.format(thermomech_analysis_dir, mesh_name))
        error = fea.write_inp_file()
        self.assertFalse(error, "Writing failed")

        fcc_print('Comparing {} to {}/{}.inp'.format(thermomech_analysis_inp_file, thermomech_analysis_dir, mesh_name))
        ret = compare_inp_files(thermomech_analysis_inp_file, thermomech_analysis_dir + "/" + mesh_name + '.inp')
        self.assertFalse(ret, "FemToolsCcx write_inp_file test failed.\n{}".format(ret))

        fcc_print('Setting up working directory to {} in order to read simulated calculations'.format(test_file_dir))
        fea.setup_working_dir(test_file_dir)
        self.assertTrue(True if fea.working_dir == test_file_dir else False,
                        "Setting working directory {} failed".format(test_file_dir))

#.........这里部分代码省略.........
开发者ID:crobarcro,项目名称:FreeCAD,代码行数:103,代码来源:TestFem.py

示例8: test_static_freq_analysis

# 需要导入模块: import ObjectsFem [as 别名]
# 或者: from ObjectsFem import makeSolverCalculix [as 别名]
    def test_static_freq_analysis(self):
        # static
        fcc_print('--------------- Start of FEM tests ---------------')
        box = self.active_doc.addObject("Part::Box", "Box")
        fcc_print('Checking FEM new analysis...')
        analysis = ObjectsFem.makeAnalysis('Analysis')
        self.assertTrue(analysis, "FemTest of new analysis failed")

        fcc_print('Checking FEM new solver...')
        solver_object = ObjectsFem.makeSolverCalculix('CalculiX')
        solver_object.GeometricalNonlinearity = 'linear'
        solver_object.ThermoMechSteadyState = False
        solver_object.MatrixSolverType = 'default'
        solver_object.IterationsControlParameterTimeUse = False
        solver_object.EigenmodesCount = 10
        solver_object.EigenmodeHighLimit = 1000000.0
        solver_object.EigenmodeLowLimit = 0.0
        self.assertTrue(solver_object, "FemTest of new solver failed")
        analysis.Member = analysis.Member + [solver_object]

        fcc_print('Checking FEM new material...')
        new_material_object = ObjectsFem.makeMaterialSolid('MechanicalMaterial')
        mat = new_material_object.Material
        mat['Name'] = "Steel-Generic"
        mat['YoungsModulus'] = "200000 MPa"
        mat['PoissonRatio'] = "0.30"
        mat['Density'] = "7900 kg/m^3"
        new_material_object.Material = mat
        self.assertTrue(new_material_object, "FemTest of new material failed")
        analysis.Member = analysis.Member + [new_material_object]

        fcc_print('Checking FEM new fixed constraint...')
        fixed_constraint = self.active_doc.addObject("Fem::ConstraintFixed", "FemConstraintFixed")
        fixed_constraint.References = [(box, "Face1")]
        self.assertTrue(fixed_constraint, "FemTest of new fixed constraint failed")
        analysis.Member = analysis.Member + [fixed_constraint]

        fcc_print('Checking FEM new force constraint...')
        force_constraint = self.active_doc.addObject("Fem::ConstraintForce", "FemConstraintForce")
        force_constraint.References = [(box, "Face6")]
        force_constraint.Force = 40000.0
        force_constraint.Direction = (box, ["Edge5"])
        self.active_doc.recompute()
        force_constraint.Reversed = True
        self.active_doc.recompute()
        self.assertTrue(force_constraint, "FemTest of new force constraint failed")
        analysis.Member = analysis.Member + [force_constraint]

        fcc_print('Checking FEM new pressure constraint...')
        pressure_constraint = self.active_doc.addObject("Fem::ConstraintPressure", "FemConstraintPressure")
        pressure_constraint.References = [(box, "Face2")]
        pressure_constraint.Pressure = 1000.0
        pressure_constraint.Reversed = False
        self.assertTrue(pressure_constraint, "FemTest of new pressure constraint failed")
        analysis.Member = analysis.Member + [pressure_constraint]

        fcc_print('Checking FEM new mesh...')
        mesh = import_csv_mesh(mesh_points_file, mesh_volumes_file)
        mesh_object = self.active_doc.addObject('Fem::FemMeshObject', mesh_name)
        mesh_object.FemMesh = mesh
        self.assertTrue(mesh, "FemTest of new mesh failed")
        analysis.Member = analysis.Member + [mesh_object]

        self.active_doc.recompute()

        fea = FemToolsCcx.FemToolsCcx(analysis, solver_object, test_mode=True)
        fcc_print('Setting up working directory {}'.format(static_analysis_dir))
        fea.setup_working_dir(static_analysis_dir)
        self.assertTrue(True if fea.working_dir == static_analysis_dir else False,
                        "Setting working directory {} failed".format(static_analysis_dir))

        fcc_print('Checking FEM inp file prerequisites for static analysis...')
        error = fea.check_prerequisites()
        self.assertFalse(error, "FemToolsCcx check_prerequisites returned error message: {}".format(error))

        fcc_print('Checking FEM inp file write...')

        fcc_print('Setting analysis type to \'static\"')
        fea.set_analysis_type("static")
        self.assertTrue(True if fea.analysis_type == 'static' else False, "Setting anlysis type to \'static\' failed")

        fcc_print('Writing {}/{}.inp for static analysis'.format(static_analysis_dir, mesh_name))
        error = fea.write_inp_file()
        self.assertFalse(error, "Writing failed")

        fcc_print('Comparing {} to {}/{}.inp'.format(static_analysis_inp_file, static_analysis_dir, mesh_name))
        ret = compare_inp_files(static_analysis_inp_file, static_analysis_dir + "/" + mesh_name + '.inp')
        self.assertFalse(ret, "FemToolsCcx write_inp_file test failed.\n{}".format(ret))

        fcc_print('Setting up working directory to {} in order to read simulated calculations'.format(test_file_dir))
        fea.setup_working_dir(test_file_dir)
        self.assertTrue(True if fea.working_dir == test_file_dir else False,
                        "Setting working directory {} failed".format(test_file_dir))

        fcc_print('Setting base name to read test {}.frd file...'.format('cube_static'))
        fea.set_base_name(static_base_name)
        self.assertTrue(True if fea.base_name == static_base_name else False,
                        "Setting base name to {} failed".format(static_base_name))

        fcc_print('Setting inp file name to read test {}.frd file...'.format('cube_static'))
#.........这里部分代码省略.........
开发者ID:crobarcro,项目名称:FreeCAD,代码行数:103,代码来源:TestFem.py


注:本文中的ObjectsFem.makeSolverCalculix方法示例由纯净天空整理自Github/MSDocs等开源代码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。