def _make_divertor(self):
if self.divertor_position == "upper":
divertor_height = self._blanket_rear_wall_end_height
elif self.divertor_position == "lower":
divertor_height = -self._blanket_rear_wall_end_height
# # used as an intersect when making the divertor
self._blanket_fw_rear_wall_envelope = paramak.BlanketFP(
plasma=self._plasma,
thickness=self.firstwall_radial_thickness +
self.blanket_radial_thickness +
self.blanket_rear_wall_radial_thickness,
offset_from_plasma=[
self.major_radius - self.minor_radius,
self.plasma_gap_vertical_thickness,
self.outer_plasma_gap_radial_thickness,
self.plasma_gap_vertical_thickness,
# self.inner_plasma_gap_radial_thickness],
self.major_radius - self.minor_radius
],
start_angle=-179,
stop_angle=179,
rotation_angle=self.rotation_angle,
)
self._divertor = paramak.RotateStraightShape(
points=[(self._divertor_start_radius, 0),
(self._divertor_end_radius, 0),
(self._divertor_end_radius, divertor_height),
(self._divertor_start_radius, divertor_height)],
intersect=self._blanket_fw_rear_wall_envelope,
stp_filename="divertor.stp",
stl_filename="divertor.stl",
name="divertor",
material_tag="divertor_mat",
rotation_angle=self.rotation_angle)
self.shapes_and_components.append(self._divertor)
blanket_cutter = paramak.RotateStraightShape(
points=[(self._divertor_start_radius, 0),
(self._divertor_end_radius, 0),
(self._divertor_end_radius, divertor_height),
(self._divertor_start_radius, divertor_height)],
stp_filename="divertor.stp",
stl_filename="divertor.stl",
name="divertor",
material_tag="divertor_mat",
rotation_angle=self.rotation_angle)
self._firstwall.solid = self._firstwall.solid.cut(blanket_cutter.solid)
self._blanket.solid = self._blanket.solid.cut(blanket_cutter.solid)
self._blanket_rear_wall.solid = self._blanket_rear_wall.solid.cut(
blanket_cutter.solid)
self.shapes_and_components.append(self._firstwall)
self.shapes_and_components.append(self._blanket)
self.shapes_and_components.append(self._blanket_rear_wall)
def _make_rear_blanket_wall(self):
self._outboard_rear_blanket_wall_upper = paramak.RotateStraightShape(
points=[
(self._center_column_shield_end_radius,
self._blanket_rear_wall_start_height),
(self._center_column_shield_end_radius,
self._blanket_rear_wall_end_height),
(
max(self._inboard_firstwall.points)[0],
self._blanket_rear_wall_end_height,
),
(
max(self._inboard_firstwall.points)[0],
self._blanket_rear_wall_start_height,
),
],
rotation_angle=self.rotation_angle,
)
self._outboard_rear_blanket_wall_lower = paramak.RotateStraightShape(
points=[
(self._center_column_shield_end_radius,
-self._blanket_rear_wall_start_height),
(self._center_column_shield_end_radius,
-self._blanket_rear_wall_end_height),
(
max(self._inboard_firstwall.points)[0],
-self._blanket_rear_wall_end_height,
),
(
max(self._inboard_firstwall.points)[0],
-self._blanket_rear_wall_start_height,
),
],
rotation_angle=self.rotation_angle,
)
self._outboard_rear_blanket_wall = paramak.BlanketFP(
plasma=self._plasma,
start_angle=90,
stop_angle=-90,
offset_from_plasma=self.outer_plasma_gap_radial_thickness +
self.firstwall_radial_thickness +
self.outboard_blanket_radial_thickness,
thickness=self.blanket_rear_wall_radial_thickness,
rotation_angle=self.rotation_angle,
stp_filename="outboard_rear_blanket_wall.stp",
stl_filename="outboard_rear_blanket_wall.stl",
name="outboard_rear_blanket_wall",
material_tag="blanket_rear_wall_mat",
union=[
self._outboard_rear_blanket_wall_upper,
self._outboard_rear_blanket_wall_lower
],
)
return self._outboard_rear_blanket_wall
def test_compound_in_shapes(self):
shape1 = paramak.RotateStraightShape(points=[(0, 0), (0, 20), (20,
20)])
shape2 = paramak.RotateStraightShape(points=[(0, 0), (0, 20), (20,
20)])
shape3 = paramak.Shape()
shape3.solid = cq.Compound.makeCompound(
[a.val() for a in [shape1.solid, shape2.solid]])
test_reactor = paramak.Reactor([shape3])
assert test_reactor.solid is not None
def test_largest_dimention(self):
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)])
test_shape.rotation_angle = 360
test_reactor = paramak.Reactor([test_shape])
assert pytest.approx(test_reactor.largest_dimension, rel=0.1 == 20)
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (30, 20)])
test_shape.rotation_angle = 360
test_reactor = paramak.Reactor([test_shape])
assert pytest.approx(test_reactor.largest_dimension, rel=0.1 == 30)
def test_stl_filename_duplication_rotate_straight():
"""checks ValueError is raised when RotateStraightShapes with
duplicate stl filenames (defaults) are added"""
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)])
test_shape2 = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)])
test_shape.rotation_angle = 360
test_shape.create_solid()
my_reactor = paramak.Reactor([test_shape, test_shape2])
my_reactor.export_stl()
def simulate_cylinder_cask_cad(self, material, source, height,
outer_radius, thickness, batches,
particles):
"""Makes a CAD cask geometry runs a simulation and returns the result"""
top_cap_cell = paramak.RotateStraightShape(
stp_filename='top_cap_cell.stp',
material_tag='test_mat',
points=[
(outer_radius, height * 0.5),
(outer_radius, (height * 0.5) + thickness),
(0, (height * 0.5) + thickness),
(0, height * 0.5),
],
)
bottom_cap_cell = paramak.RotateStraightShape(
stp_filename='bottom_cap_cell.stp',
material_tag='test_mat',
points=[
(outer_radius, -height * 0.5),
(outer_radius, (-height * 0.5) - thickness),
(0, (-height * 0.5) - thickness),
(0, -height * 0.5),
])
cylinder_cell = paramak.CenterColumnShieldCylinder(
height=height,
inner_radius=outer_radius - thickness,
outer_radius=outer_radius,
material_tag='test_mat',
)
my_geometry = paramak.Reactor(
[cylinder_cell, bottom_cap_cell, top_cap_cell])
my_model = paramak.NeutronicsModel(
geometry=my_geometry,
source=source,
simulation_batches=batches,
simulation_particles_per_batch=particles,
materials={'test_mat': material},
cell_tallies=['heating'])
my_model.simulate(method='pymoab')
# scaled from MeV to eV
return my_model.results['test_mat_heating']['MeV per source particle'][
'result'] * 1e6
def test_shapes_and_components(self):
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)])
def incorrect_shapes_and_components():
paramak.Reactor(test_shape)
self.assertRaises(ValueError, incorrect_shapes_and_components)
def test_moab_instance_creation(self):
"""passes three points on a circle to the function and checks that the
radius and center of the circle is calculated correctly"""
moab_core, moab_tags = define_moab_core_and_tags()
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20), (20, 0)])
test_shape.export_stl('test_file.stl')
new_moab_core = add_stl_to_moab_core(moab_core=moab_core,
surface_id=1,
volume_id=1,
material_name='test_mat',
tags=moab_tags,
stl_filename='test_file.stl')
all_sets = new_moab_core.get_entities_by_handle(0)
file_set = new_moab_core.create_meshset()
new_moab_core.add_entities(file_set, all_sets)
new_moab_core.write_file('test_file.h5m')
assert Path('test_file.stl').exists() is True
assert Path('test_file.h5m').exists() is True
def test_export_h5m(self):
"""creates a Reactor object consisting of two shapes and checks a h5m file of the
reactor can be exported using the export_h5m method"""
os.system('rm small_dagmc.h5m')
os.system('rm small_dagmc_without_graveyard.h5m')
os.system('rm small_dagmc_with_graveyard.h5m')
os.system('rm large_dagmc.h5m')
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0, 20),
(20, 20)],
material_tag='mat1')
test_shape2 = paramak.RotateSplineShape(points=[(0, 0), (0, 20),
(20, 20)],
material_tag='mat2')
test_shape.rotation_angle = 360
test_reactor = paramak.Reactor([test_shape, test_shape2])
test_reactor.export_h5m(filename='small_dagmc.h5m', tolerance=0.01)
test_reactor.export_h5m(filename='small_dagmc_without_graveyard.h5m',
tolerance=0.01,
skip_graveyard=True)
test_reactor.export_h5m(filename='small_dagmc_with_graveyard.h5m',
tolerance=0.01,
skip_graveyard=False)
test_reactor.export_h5m(filename='large_dagmc.h5m', tolerance=0.001)
assert Path("small_dagmc.h5m").exists() is True
assert Path("small_dagmc_with_graveyard.h5m").exists() is True
assert Path("large_dagmc.h5m").exists() is True
assert Path("large_dagmc.h5m").stat().st_size > Path(
"small_dagmc.h5m").stat().st_size
assert Path("small_dagmc_without_graveyard.h5m").stat().st_size < Path(
"small_dagmc.h5m").stat().st_size
def make_cad_model_with_paramak():
"""
Makes a reactor object from two parametric
shapes. Exports the neutronics description
and stp files for the reactor
"""
width = 500
# creates a parametric shape
pf_coil = paramak.RotateStraightShape(points=[(width, width), (550, width),
(550, 550), (500, 550)],
stp_filename='pf_coil.stp',
material_tag='pf_coil_material')
pf_coil.export_html('test.html')
# creates another parametric shape
blanket = paramak.RotateMixedShape(
points=[(538, 305, "straight"), (538, -305, "straight"),
(322, -305, "spline"), (470, 0, "spline"),
(322, 305, "straight")],
rotation_angle=40,
azimuth_placement_angle=[0, 45, 90, 135, 180, 225, 270, 315],
stp_filename='blanket.stp',
material_tag='blanket_material')
blanket.solid
# creates a reactor object from the two components
my_reactor = paramak.Reactor([blanket, pf_coil])
# exports neutronics description and stp files
my_reactor.export_neutronics_description()
my_reactor.export_stp()
def test_tet_meshes_error(self):
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0,
20), (20,
20)])
test_shape.rotation_angle = 360
test_reactor = paramak.Reactor([test_shape])
assert test_reactor.tet_meshes is not None
def _make_supports(self):
blanket_enveloppe = paramak.BlanketFP(
plasma=self._plasma,
start_angle=90,
stop_angle=-90,
offset_from_plasma=self.outer_plasma_gap_radial_thickness +
self.firstwall_radial_thickness,
thickness=self.outboard_blanket_radial_thickness,
rotation_angle=self.rotation_angle,
union=self._inboard_blanket,
)
support_height = self._blanket_rear_wall_end_height
support_height_top = support_height
support_height_bottom = -support_height
if self.support_position == "lower":
support_height_top = 0
elif self.support_position == "upper":
support_height_bottom = 0
self._supports = paramak.RotateStraightShape(
points=[(self._support_start_radius, support_height_bottom),
(self._support_end_radius, support_height_bottom),
(self._support_end_radius, support_height_top),
(self._support_start_radius, support_height_top)],
rotation_angle=self.rotation_angle,
stp_filename="supports.stp",
stl_filename="supports.stl",
name="supports",
material_tag="supports_mat",
intersect=blanket_enveloppe,
)
self._blanket.cut = self._supports
return self._supports
def test_reactor_from_shapes_cell_tallies(self):
"""Makes a reactor from two shapes, then mades a neutronics model
and tests the TBR simulation value"""
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)],
material_tag='mat1',
)
test_shape2 = paramak.RotateSplineShape(
points=[(100, 100), (100, -100), (200, -100), (200, 100)],
material_tag='blanket_mat',
rotation_angle=180
)
test_reactor = paramak.Reactor([test_shape, test_shape2])
neutronics_model = paramak.NeutronicsModel(
geometry=test_reactor,
source=self.source,
materials={
'mat1': 'copper',
'blanket_mat': 'FLiNaK', # used as O18 is not in nndc nuc data
},
cell_tallies=['TBR', 'heating', 'flux'],
simulation_batches=2,
simulation_particles_per_batch=10,
)
# starts the neutronics simulation using trelis
neutronics_model.simulate(verbose=False, method='pymoab')
def test_export_neutronics_description(self):
"""Creates a Reactor object and checks that the neutronics description
is exported to a json file with the correct material_name and
stp_filename."""
os.system("rm manifest_test.json")
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0,
20), (20,
20)])
test_shape.rotation_angle = 360
test_shape.material_tag = "test_material"
test_shape.stp_filename = "test.stp"
test_shape.tet_mesh = "size 60"
test_reactor = paramak.Reactor([test_shape])
returned_filename = test_reactor.export_neutronics_description(
filename="manifest_test.json")
with open("manifest_test.json") as json_file:
neutronics_description = json.load(json_file)
assert returned_filename == "manifest_test.json"
assert Path("manifest_test.json").exists() is True
assert len(neutronics_description) == 2
assert "stp_filename" in neutronics_description[0].keys()
assert "material" in neutronics_description[0].keys()
assert "tet_mesh" in neutronics_description[0].keys()
assert neutronics_description[0]["material"] == "test_material"
assert neutronics_description[0]["stp_filename"] == "test.stp"
assert neutronics_description[0]["tet_mesh"] == "size 60"
assert neutronics_description[1]["material"] == "Graveyard"
assert neutronics_description[1]["stp_filename"] == "Graveyard.stp"
os.system("rm manifest_test.json")
def test_export_neutronics_description_without_plasma(self):
"""Creates a Reactor object and checks that the neutronics description is
exported to a json file with the correct entires, exluding the optional
plasma."""
os.system("rm manifest_test.json")
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)],
rotation_angle=360,
material_tag="test_material",
stp_filename="test.stp",
)
test_shape.tet_mesh = "size 60"
test_plasma = paramak.Plasma(major_radius=500, minor_radius=100)
test_reactor = paramak.Reactor([test_shape, test_plasma])
returned_filename = test_reactor.export_neutronics_description()
with open("manifest.json") as json_file:
neutronics_description = json.load(json_file)
assert returned_filename == "manifest.json"
assert Path("manifest.json").exists() is True
assert len(neutronics_description) == 2
assert "stp_filename" in neutronics_description[0].keys()
assert "material" in neutronics_description[0].keys()
assert "tet_mesh" in neutronics_description[0].keys()
assert neutronics_description[0]["material"] == "test_material"
assert neutronics_description[0]["stp_filename"] == "test.stp"
assert neutronics_description[0]["tet_mesh"] == "size 60"
assert neutronics_description[1]["material"] == "Graveyard"
assert neutronics_description[1]["stp_filename"] == "Graveyard.stp"
os.system("rm manifest.json")
def test_neutronics_description_without_material_tag():
"""Checks ValueError is raised when the neutronics description is
exported without material_tag."""
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)])
test_shape.rotation_angle = 360
test_shape.stp_filename = "test.stp"
test_reactor = paramak.Reactor([test_shape])
test_reactor.neutronics_description()
def test_adding_component_to_reactor(self):
"""creates a Reactor object and checks that shapes can be added to it"""
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)])
test_shape.rotation_angle = 360
test_shape.create_solid()
test_reactor = paramak.Reactor([])
assert len(test_reactor.shapes_and_components) == 0
test_reactor = paramak.Reactor([test_shape])
assert len(test_reactor.shapes_and_components) == 1
def test_adding_shape_with_material_tag_to_reactor(self):
"""adds a shape to the reactor and checks that the material_tag
property works as designed"""
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0, 20),
(20, 20)],
material_tag='mat1')
test_shape.rotation_angle = 360
test_shape.create_solid()
test_reactor = paramak.Reactor([test_shape])
assert len(test_reactor.material_tags) == 1
assert test_reactor.material_tags[0] == 'mat1'
def test_stp_filename_duplication():
"""checks ValueError is raised when an elongation < 0 is specified"""
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)],
stp_filename='filename.stp')
test_shape2 = paramak.RotateSplineShape(
points=[(0, 0), (0, 20), (20, 20)],
stp_filename='filename.stp')
test_shape.rotation_angle = 360
test_shape.create_solid()
test_reactor = paramak.Reactor([test_shape, test_shape2])
def test_adding_shape_with_stp_filename_to_reactor(self):
"""adds a shape to the reactor and checks that the stp_filename
property works as designed"""
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0, 20),
(20, 20)],
stp_filename='filename.stp')
test_shape.rotation_angle = 360
test_shape.create_solid()
test_reactor = paramak.Reactor([test_shape])
assert len(test_reactor.stp_filenames) == 1
assert test_reactor.stp_filenames[0] == 'filename.stp'
def test_adding_shape_with_stp_filename_to_reactor(self):
"""Checks that a shape object can be added to a Reactor object with the
correct stp filename property."""
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0, 20),
(20, 20)],
stp_filename="filename.stp")
test_shape.rotation_angle = 360
test_shape.create_solid()
test_reactor = paramak.Reactor([test_shape])
assert len(test_reactor.stp_filenames) == 1
assert test_reactor.stp_filenames[0] == "filename.stp"
def test_export_html_view_planes(self):
"""Checks a plotly figure of the Shape is exported by the export_html
method with a range of different view_plane options."""
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0, 20),
(20, 20), (20, 0)],
rotation_angle=180)
for view_plane in ['XZ', 'XY', 'YZ', 'YX', 'ZY', 'ZX', 'RZ', 'XYZ']:
os.system("rm *.html")
test_shape.export_html(filename='filename', view_plane=view_plane)
assert Path("filename.html").exists() is True
def test_Graveyard_exists(self):
"""creates a Reactor object with one shape and checks that a graveyard
can be produced using the make_graveyard method"""
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)])
test_shape.rotation_angle = 360
test_shape.create_solid()
test_reactor = paramak.Reactor([test_shape])
test_reactor.make_graveyard()
assert isinstance(test_reactor.graveyard, paramak.Shape)
def test_adding_shape_with_material_tag_to_reactor(self):
"""Checks that a shape object can be added to a Reactor object with
the correct material tag property."""
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0, 20),
(20, 20)],
material_tag="mat1")
test_shape.rotation_angle = 360
test_shape.create_solid()
test_reactor = paramak.Reactor([test_shape])
assert len(test_reactor.material_tags) == 1
assert test_reactor.material_tags[0] == "mat1"
def test_initial_solid_construction(self):
"""Creates a shape and checks that a cadquery solid with a unique hash
value is created when .solid is called."""
test_shape = paramak.RotateStraightShape(points=[(0, 0), (0, 20),
(20, 20), (20, 0)],
rotation_angle=360)
assert test_shape.hash_value is None
assert test_shape.solid is not None
assert type(test_shape.solid).__name__ == "Workplane"
assert test_shape.hash_value is not None
def test_neutronics_description_without_stp_filename():
"""checks that a ValueError is raised when the neutronics description \
is exported without stp_filename"""
test_shape = paramak.RotateStraightShape(points=[(0,
0), (0,
20), (20,
20)])
test_shape.rotation_angle = 360
test_shape.material_tag = "test_material"
test_shape.stp_filename = None
test_reactor = paramak.Reactor([test_shape])
neutronics_description = test_reactor.neutronics_description()
def test_export_3d_image(self):
"""checks that export_3d_image() exports png files with the correct suffix"""
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20), (20, 0)])
test_shape.rotation_angle = 360
os.system("rm filename.png")
test_shape.export_3d_image("filename")
assert Path("filename.png").exists() is True
os.system("rm filename.png")
test_shape.export_3d_image("filename.png")
assert Path("filename.png").exists() is True
os.system("rm filename.png")
def test_EdgeLengthSelector_with_fillet_areas(self):
"""tests the filleting of a RotateStraightShape results in an extra
surface area"""
test_shape = paramak.RotateStraightShape(points=[(1, 1), (2, 1), (2,
2)])
assert len(test_shape.areas) == 3
test_shape.solid = test_shape.solid.edges(
EdgeLengthSelector(6.28)).fillet(0.1)
assert len(test_shape.areas) == 4
def test_stp_filename_duplication():
"""Checks ValueError is raised when shapes with the same stp
filenames are added to a reactor object"""
test_shape_1 = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)],
stp_filename="filename.stp")
test_shape_2 = paramak.RotateSplineShape(
points=[(0, 0), (0, 20), (20, 20)],
stp_filename="filename.stp")
test_shape_1.rotation_angle = 90
my_reactor = paramak.Reactor([test_shape_1, test_shape_2])
my_reactor.export_stp()
def test_stp_filename_None():
"""checks ValueError is raised when RotateStraightShapes with duplicate
stp filenames are added"""
test_shape = paramak.RotateStraightShape(
points=[(0, 0), (0, 20), (20, 20)],
stp_filename="filename.stp")
test_shape2 = paramak.RotateSplineShape(points=[(0, 0), (0, 20),
(20, 20)],
stp_filename=None)
test_shape.create_solid()
my_reactor = paramak.Reactor([test_shape, test_shape2])
my_reactor.export_stp()
