Esempi in Python per fit_view

Esempio n. 1

File: variable_topology_generation.py Progetto: zhixiu0223/elmerfem

def test_all():
    n1, n2, T_BC = get_test_params(6)
    box_size=10.
    airgap=5.
    depth=25.
    model_parameters = {}
    model_parameters['n1']=n1
    model_parameters['n2']=n2
    model_parameters['box_size']=box_size
    model_parameters['airgap']=airgap
    model_parameters['T_BC']=T_BC
    model_parameters['x'] =n1*box_size+(n1+1)*airgap
    model_parameters['y'] =depth
    model_parameters['z'] =n2*box_size+(n2+1)*airgap
    model_parameters['default_mesh_size'] = 10  #If default mesh size is smaller than given mesh sizes, fallback value is used.
    model_parameters['bar_mesh_sizes'] = 2
    model_parameters['air_mesh_sizes'] = 2
 
    default_mesh_size = model_parameters['default_mesh_size']

    entities_dict = create_solids(model_parameters)
    solid_objects = get_solids_from_entities_dict(entities_dict)

    fit_view()

    mesh_object, compound_filter = create_mesh_object_and_compound_filter(solid_objects, default_mesh_size, doc)

    find_boundaries_with_entities_dict(mesh_object, compound_filter, entities_dict, doc)
    find_bodies_with_entities_dict(mesh_object, compound_filter, entities_dict, doc)

    define_mesh_sizes(mesh_object, compound_filter, entities_dict, doc)
    create_mesh(mesh_object)
    export_path=PWD+u"/variable_topology.unv"
    run_elmergrid(export_path, mesh_object)
    create_sif(model_parameters)

Esempio n. 2

File: massive_generation.py Progetto: zxp-proteus/elmerfem

def test_all():
    model_parameters = {}
    model_parameters['coil_inner_radius'] = 0.11 / 2
    model_parameters['coil_outer_radius'] = 0.11 / 2 + 0.1
    model_parameters['coil_height'] = 0.1
    model_parameters['z'] = .0
    model_parameters['core_height'] = .31
    model_parameters['core_diameter'] = .32
    model_parameters['core_center_length'] = .11
    model_parameters['core_center_diameter'] = .1
    model_parameters['airgap'] = .005
    model_parameters[
        'default_mesh_size'] = 0.04  #If default mesh size is smaller than given mesh sizes, fallback value is used.
    model_parameters['coil_mesh_sizes'] = {'L1': 0.02, 'alpha0': 0.01}
    model_parameters['core_mesh_sizes'] = {'core': 0.04}
    model_parameters['air_mesh_sizes'] = {'air': 0.009}

    default_mesh_size = model_parameters['default_mesh_size']

    entities_dict = create_solids(model_parameters)
    solid_objects = get_solids_from_entities_dict(entities_dict)

    mesh_object, compound_filter = create_mesh_object_and_compound_filter(
        solid_objects, default_mesh_size, doc)
    find_boundaries_with_entities_dict(mesh_object, compound_filter,
                                       entities_dict, doc)
    find_bodies_with_entities_dict(mesh_object, compound_filter, entities_dict,
                                   doc)
    define_mesh_sizes(mesh_object, compound_filter, entities_dict, doc)
    fit_view()
    create_mesh(mesh_object)
    export_path = PWD + "/circuits_harmonic_massive/1962.unv"
    run_elmergrid(export_path, mesh_object)

Esempio n. 3

File: massive_generation.py Progetto: zxp-proteus/elmerfem

def create_core(h, w, a, b, name, mesh_sizes=None):

    core = doc.addObject('PartDesign::Body', name + '_obj')
    sketch = core.newObject('Sketcher::SketchObject', name + ' sketch')
    #sketch.Support = (doc.XY_Plane, [''])
    sketch.MapMode = 'FlatFace'

    sketch.addGeometry(
        Part.LineSegment(App.Vector(0, -h / 2, 0), App.Vector(0, h / 2, 0)),
        False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(0, h / 2, 0), App.Vector(w / 2, h / 2, 0)),
        False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(w / 2, h / 2, 0),
                         App.Vector(w / 2, a / 2, 0)), False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(w / 2, a / 2, 0),
                         App.Vector(b / 2, a / 2, 0)), False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(b / 2, a / 2, 0),
                         App.Vector(b / 2, -a / 2, 0)), False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(b / 2, -a / 2, 0),
                         App.Vector(w / 2, -a / 2, 0)), False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(w / 2, -a / 2, 0),
                         App.Vector(w / 2, -h / 2, 0)), False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(w / 2, -h / 2, 0),
                         App.Vector(0, -h / 2, 0)), False)

    doc.recompute()
    fit_view()

    rev = core.newObject("PartDesign::Revolution", name + " rev")
    rev.Profile = sketch
    rev.ReferenceAxis = (sketch, ['V_Axis'])
    rev.Angle = 180
    rev.Reversed = 1
    doc.recompute()
    #    #fit_view()

    # Here we define the entities dictionary.
    face_picks = [('infinity_xz0', 6), ('infinity_xz1', 0),
                  ('cylinder_lateral_surface', 1),
                  ('cylinder_lateral_surface', 5), ('xy0', 7), ('xy0', 8)]
    faces = pick_faces_from_geometry(core, face_picks)

    solids = []
    add_entity_in_list(solids, name, core, mesh_sizes=mesh_sizes)

    entities_out = create_entities_dict(name, faces, solids, main_object=core)
    return entities_out

Esempio n. 4

File: massive_generation.py Progetto: zxp-proteus/elmerfem

def create_coil(r, R, h, z, name, face_entities=True, mesh_sizes=None):
    coil = doc.addObject('PartDesign::Body', name + '_obj')
    sketch = coil.newObject('Sketcher::SketchObject', name + ' sketch')
    #sketch.Support = (doc.XY_Plane, [''])
    sketch.MapMode = 'FlatFace'

    sketch.addGeometry(
        Part.LineSegment(App.Vector(r, -h / 2 + z, 0),
                         App.Vector(r, h / 2 + z, 0)), False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(r, h / 2 + z, 0),
                         App.Vector(R, h / 2 + z, 0)), False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(R, h / 2 + z, 0),
                         App.Vector(R, -h / 2 + z, 0)), False)
    sketch.addGeometry(
        Part.LineSegment(App.Vector(R, -h / 2 + z, 0),
                         App.Vector(r, -h / 2 + z, 0)), False)
    doc.recompute()
    fit_view()

    rev = coil.newObject("PartDesign::Revolution", name + " rev")
    rev.Profile = sketch
    rev.ReferenceAxis = (sketch, ['V_Axis'])
    rev.Angle = 180
    rev.Reversed = 1
    doc.recompute()

    coil_faces = coil.Shape.Faces

    # Here we define the entities dictionary. Note that each coil contain the same
    # names for each geometric entity. That is why the 'name' key is required
    # in the dictionary.

    # Naming of the faces can be avoided by giving face_entities=False as argument
    faces = []
    if (face_entities):
        face_picks = [('gamma0', 4), ('gamma1', 5)]

        faces = pick_faces_from_geometry(coil, face_picks)

    solids = []
    add_entity_in_list(solids, name, coil, mesh_sizes=mesh_sizes)

    entities_out = create_entities_dict(name, faces, solids, main_object=coil)

    return entities_out