Exemplo n.º 1
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 def setUpClass(cls):
     cls.bcc = CrystalStructure("Fe",
                                bravais_basis="bcc",
                                lattice_constants=[2.7])
     cls.fcc = CrystalStructure("Fe",
                                bravais_basis="fcc",
                                lattice_constants=[3.6])
Exemplo n.º 2
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 def test_get_distances_arbitrary_array(self):
     basis = CrystalStructure("Al",
                              bravais_basis="fcc",
                              lattice_constants=4.2).repeat(3)
     neigh = basis.get_neighbors(cutoff_radius=3.5, num_neighbors=None)
     self.assertEqual(
         len(neigh.get_indices(np.random.random(3), num_neighbors=12)), 12)
     self.assertEqual(
         len(
             neigh.get_distances(np.random.random(3),
                                 num_neighbors=12,
                                 allow_ragged=True)), 12)
     self.assertLessEqual(
         len(
             neigh.get_vectors(np.random.random(3),
                               num_neighbors=12,
                               allow_ragged=True,
                               cutoff_radius=3.5)), 12)
     self.assertTrue(
         neigh.get_vectors(np.random.random((
             2, 3)), num_neighbors=12).shape == (2, 12, 3))
     neigh = basis.get_neighbors(num_neighbors=50)
     self.assertTrue(
         neigh.get_distances(np.random.random(3)).shape == (50, ))
     self.assertTrue(
         neigh.get_indices(np.random.random((2, 3))).shape == (2, 50))
     self.assertTrue(
         neigh.get_vectors(np.random.random((2, 2, 3))).shape == (2, 2, 50,
                                                                  3))
     with warnings.catch_warnings(record=True) as w:
         warnings.simplefilter("always")
         _ = neigh.get_neighborhood(np.random.random(3), num_neighbors=51)
         self.assertEqual(len(w), 1)
         _ = neigh.get_distances(np.random.random(3), num_neighbors=51)
         self.assertEqual(len(w), 2)
Exemplo n.º 3
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 def test_get_local_shells_ragged(self):
     structure = CrystalStructure(elements='Al',
                                  lattice_constants=4,
                                  bravais_basis='fcc').repeat(2)
     del structure[0]
     neigh = structure.get_neighbors(cutoff_radius=3.5, num_neighbors=None)
     self.assertEqual(np.sum(neigh.shells == -1), 12)
     self.assertEqual(
         np.sum(neigh.get_local_shells(cluster_by_distances=True) == -1),
         12)
     self.assertEqual(
         np.sum(neigh.get_local_shells(cluster_by_vecs=True) == -1), 12)
     self.assertEqual(
         np.sum(
             neigh.get_local_shells(cluster_by_distances=True,
                                    cluster_by_vecs=True) == -1), 12)
     neigh.allow_ragged = True
     self.assertEqual(np.sum([len(s) == 11 for s in neigh.shells]), 12)
     self.assertEqual(
         np.sum([
             len(s) == 11
             for s in neigh.get_local_shells(cluster_by_distances=True)
         ]), 12)
     self.assertEqual(
         np.sum([
             len(s) == 11
             for s in neigh.get_local_shells(cluster_by_vecs=True)
         ]), 12)
     self.assertEqual(
         np.sum([
             len(s) == 11
             for s in neigh.get_local_shells(cluster_by_distances=True,
                                             cluster_by_vecs=True)
         ]), 12)
Exemplo n.º 4
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 def test_get_global_shells(self):
     structure = CrystalStructure(elements='Al',
                                  lattice_constants=4,
                                  bravais_basis='fcc').repeat(2)
     neigh = structure.get_neighbors()
     self.assertTrue(np.array_equal(neigh.shells,
                                    neigh.get_global_shells()))
     structure += Atoms(elements='C', positions=[[0, 0, 0.5 * 4]])
     neigh = structure.get_neighbors()
     self.assertFalse(
         np.array_equal(neigh.shells, neigh.get_global_shells()))
     structure = CrystalStructure(elements='Al',
                                  lattice_constants=4,
                                  bravais_basis='fcc').repeat(2)
     neigh = structure.get_neighbors()
     shells = neigh.get_global_shells()
     structure.positions += 0.01 * (np.random.random(
         (len(structure), 3)) - 0.5)
     structure.center_coordinates_in_unit_cell()
     neigh = structure.get_neighbors()
     self.assertTrue(
         np.array_equal(
             shells,
             neigh.get_global_shells(cluster_by_vecs=True,
                                     cluster_by_distances=True)))
     neigh.reset_clusters()
     self.assertTrue(
         np.array_equal(shells,
                        neigh.get_global_shells(cluster_by_vecs=True)))
     self.assertFalse(np.array_equal(shells, neigh.get_global_shells()))
Exemplo n.º 5
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 def test_getters(self):
     struct = CrystalStructure(elements='Al',
                               lattice_constants=4,
                               bravais_basis='fcc')
     neigh = struct.get_neighbors()
     self.assertTrue(np.array_equal(neigh.distances, neigh.get_distances()))
     self.assertTrue(np.array_equal(neigh.vecs, neigh.get_vectors()))
     self.assertTrue(np.array_equal(neigh.indices, neigh.get_indices()))
Exemplo n.º 6
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 def test_fe_small(self):
     struct = CrystalStructure(elements='Fe',
                               lattice_constants=2.85,
                               bravais_basis='bcc')
     neigh = struct.get_neighbors()
     self.assertAlmostEqual(neigh.vecs[neigh.shells == 1].sum(), 0)
     with self.assertRaises(ValueError):
         _ = struct.get_neighbors(num_neighbors=None)
Exemplo n.º 7
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 def test_set_empty_states(self):
     atoms = CrystalStructure("Pt", BravaisBasis="fcc", a=3.98)
     self.job.structure = atoms
     self.job.set_empty_states(n_empty_states=10)
     self.assertEqual(self.job.input.incar["NBANDS"], 15)
     self.job.structure = atoms.repeat([3, 1, 1])
     self.job.set_empty_states(n_empty_states=10)
     self.assertEqual(self.job.input.incar["NBANDS"], 25)
Exemplo n.º 8
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 def test_get_bonds(self):
     basis = CrystalStructure("Al",
                              bravais_basis="fcc",
                              lattice_constants=4.2).repeat(5)
     neigh = basis.get_neighbors(num_neighbors=20)
     bonds = neigh.get_bonds()
     self.assertTrue(
         np.array_equal(np.sort(bonds[0]['Al'][0]),
                        np.sort(neigh.indices[0, neigh.shells[0] == 1])))
Exemplo n.º 9
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 def test_get_layers_across_pbc(self):
     structure = CrystalStructure('Fe',
                                  bravais_basis='bcc',
                                  lattice_constants=2.8).repeat(2)
     layers = structure.analyse.get_layers()
     structure.cell[1, 0] += 0.01
     structure.center_coordinates_in_unit_cell()
     self.assertEqual(
         len(np.unique(layers[structure.analyse.get_layers()[:, 0] == 0,
                              0])), 1)
Exemplo n.º 10
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 def test_get_layers_with_strain(self):
     structure = CrystalStructure('Fe',
                                  bravais_basis='bcc',
                                  lattice_constants=2.8).repeat(2)
     layers = structure.analyse.get_layers().tolist()
     structure.apply_strain(0.1 * (np.random.random((3, 3)) - 0.5))
     self.assertEqual(
         layers,
         structure.analyse.get_layers(
             planes=np.linalg.inv(structure.cell).T).tolist())
Exemplo n.º 11
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 def test_al_large(self):
     struct = CrystalStructure(elements='Al',
                               lattice_constants=4.04,
                               bravais_basis='fcc').repeat(10)
     neigh = struct.get_neighbors()
     self.assertAlmostEqual(
         np.absolute(neigh.distances -
                     np.linalg.norm(neigh.vecs, axis=-1)).max(), 0)
     self.assertAlmostEqual(neigh.vecs[neigh.shells == 1].sum(), 0)
     self.assertAlmostEqual(neigh.vecs[0, neigh.shells[0] == 1].sum(), 0)
Exemplo n.º 12
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 def test_norm_order(self):
     a_0 = 2.8
     basis = CrystalStructure("Fe",
                              bravais_basis="bcc",
                              lattice_constants=a_0).repeat(10)
     neigh = basis.get_neighbors(num_neighbors=None,
                                 norm_order=np.inf,
                                 cutoff_radius=a_0 + 0.01)
     self.assertEqual(len(neigh.indices[0]), 34)
     with self.assertRaises(ValueError):
         neigh.norm_order = 3
Exemplo n.º 13
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 def test_al_small(self):
     struct = CrystalStructure(elements='Al',
                               lattice_constants=4.04,
                               bravais_basis='fcc')
     neigh = struct.get_neighbors()
     self.assertAlmostEqual(
         np.absolute(neigh.distances -
                     np.linalg.norm(neigh.vecs, axis=-1)).max(), 0)
     self.assertAlmostEqual(neigh.vecs[neigh.shells == 1].sum(), 0)
     with self.assertRaises(ValueError):
         struct.get_neighbors(num_neighbors=0)
Exemplo n.º 14
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 def test_get_shell_matrix(self):
     structure = CrystalStructure(elements='Fe',
                                  lattice_constants=2.83,
                                  bravais_basis='bcc').repeat(2)
     structure[0] = 'Ni'
     neigh = structure.get_neighbors(num_neighbors=8)
     mat = neigh.get_shell_matrix()
     self.assertEqual(mat[0].sum(), 8 * len(structure))
     mat = neigh.get_shell_matrix(chemical_pair=['Fe', 'Ni'])
     self.assertEqual(mat[0].sum(), 16)
     mat = neigh.get_shell_matrix(chemical_pair=['Ni', 'Ni'])
     self.assertEqual(mat[0].sum(), 0)
Exemplo n.º 15
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 def test_get_neighborhood_single(self):
     struct = CrystalStructure(elements='Al',
                               lattice_constants=4,
                               bravais_basis='fcc')
     neigh = struct.get_neighborhood(np.random.random(3), cutoff_radius=3)
     distances = neigh.distances.copy()
     neigh.allow_ragged = False
     self.assertTrue(np.array_equal(neigh.distances, distances))
     neigh.allow_ragged = True
     self.assertTrue(np.array_equal(neigh.distances, distances))
     neigh.allow_ragged = False
     self.assertTrue(np.array_equal(neigh.distances, distances))
Exemplo n.º 16
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 def test_getter_and_ragged(self):
     struct = CrystalStructure(elements='Al',
                               lattice_constants=4,
                               bravais_basis='fcc').repeat(2)
     del struct[0]
     neigh = struct.get_neighbors_by_distance(cutoff_radius=3,
                                              mode='filled')
     vecs = neigh.filled.vecs
     distances = neigh.filled.distances
     indices = neigh.filled.indices
     self.assertTrue(np.array_equal(neigh.distances, distances))
     self.assertTrue(np.array_equal(neigh.indices, indices))
     self.assertTrue(np.array_equal(neigh.vecs, vecs))
Exemplo n.º 17
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 def test_getter_and_ragged(self):
     struct = CrystalStructure(elements='Al',
                               lattice_constants=4,
                               bravais_basis='fcc').repeat(2)
     del struct[0]
     neigh = struct.get_neighbors_by_distance(cutoff_radius=3)
     vecs = neigh.get_vectors(allow_ragged=False)
     distances = neigh.get_distances(allow_ragged=False)
     indices = neigh.get_indices(allow_ragged=False)
     neigh.allow_ragged = False
     self.assertTrue(np.array_equal(neigh.distances, distances))
     self.assertTrue(np.array_equal(neigh.indices, indices))
     self.assertTrue(np.array_equal(neigh.vecs, vecs))
Exemplo n.º 18
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 def test_cluster_analysis(self):
     basis = CrystalStructure("Al",
                              bravais_basis="fcc",
                              lattice_constants=4.2).repeat(10)
     neigh = basis.get_neighbors(num_neighbors=100)
     key, counts = neigh.cluster_analysis(id_list=[0, 1],
                                          return_cluster_sizes=True)
     self.assertTrue(np.array_equal(key[1], [0, 1]))
     self.assertEqual(counts[0], 2)
     key, counts = neigh.cluster_analysis(id_list=[0,
                                                   int(len(basis) / 2)],
                                          return_cluster_sizes=True)
     self.assertTrue(np.array_equal(key[1], [0]))
     self.assertEqual(counts[0], 1)
Exemplo n.º 19
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 def test_get_neighbors(self):
     struct = CrystalStructure(elements='Fe',
                               lattice_constants=2.85,
                               bravais_basis='bcc').repeat(10)
     cell = struct.cell.copy()
     cell += np.random.random((3, 3)) - 0.5
     struct.positions += np.random.random((len(struct), 3)) - 0.5
     struct.set_cell(cell, scale_atoms=True)
     neigh = struct.get_neighbors()
     self.assertAlmostEqual(
         np.absolute(neigh.distances -
                     np.linalg.norm(neigh.vecs, axis=-1)).max(), 0)
     myself = np.ones_like(neigh.indices)
     myself = myself * np.arange(len(myself))[:, np.newaxis]
     dist = struct.get_distances(myself.flatten(),
                                 neigh.indices.flatten(),
                                 mic=True)
     self.assertAlmostEqual(
         np.absolute(dist - neigh.distances.flatten()).max(), 0)
     vecs = struct.get_distances(myself.flatten(),
                                 neigh.indices.flatten(),
                                 mic=True,
                                 vector=True)
     self.assertAlmostEqual(
         np.absolute(vecs - neigh.vecs.reshape(-1, 3)).max(), 0)
     dist = struct.get_scaled_positions()
     dist = dist[:, np.newaxis, :] - dist[np.newaxis, :, :]
     dist -= np.rint(dist)
     dist = np.einsum('nmi,ij->nmj', dist, struct.cell)
     dist = np.linalg.norm(dist, axis=-1).flatten()
     dist = dist[dist > 0]
     self.assertAlmostEqual(neigh.distances.min(), dist.min())
Exemplo n.º 20
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 def test_run(self):
     job = self.project.create_job('HessianJob', "job_test")
     basis = CrystalStructure(element="Fe",
                              bravais_basis="bcc",
                              lattice_constant=2.85)
     basis.set_initial_magnetic_moments([2] * len(basis))
     job.set_reference_structure(basis)
     phono = job.create_job("PhonopyJob", "phono")
     structure = phono.list_structures()[0]
     magmoms = structure.get_initial_magnetic_moments()
     self.assertAlmostEqual(sum(magmoms - 2), 0)
     rep = phono._phonopy_supercell_matrix().diagonal().astype(int)
     job._reference_structure.set_repeat(rep)
     job.structure.set_repeat(rep)
     job.set_force_constants(1)
Exemplo n.º 21
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 def setUpClass(cls):
     state.update({
         'resource_paths':
         os.path.join(os.path.dirname(os.path.abspath(__file__)),
                      "../static")
     })
     cls.execution_path = os.path.dirname(os.path.abspath(__file__))
     cls.project = Project(os.path.join(cls.execution_path, "test_vasp"))
     cls.job = cls.project.create_job("Vasp", "trial")
     cls.job_spin = cls.project.create_job("Vasp", "spin")
     cls.job_spin.structure = CrystalStructure("Fe",
                                               BravaisBasis="bcc",
                                               a=2.83)
     cls.job_spin.structure = cls.job_spin.structure.repeat(2)
     cls.job_spin.structure[2] = "Se"
     cls.job_spin.structure[3] = "O"
     cls.job_metadyn = cls.project.create_job("VaspMetadyn",
                                              "trial_metadyn")
     cls.job_complete = Vasp(
         project=ProjectHDFio(project=cls.project,
                              file_name="vasp_complete"),
         job_name="vasp_complete",
     )
     poscar_file = posixpath.join(
         cls.execution_path,
         "../static/vasp_test_files/full_job_sample/POSCAR")
     cls.job_complete.structure = read_atoms(poscar_file,
                                             species_from_potcar=True)
     poscar_file = posixpath.join(
         cls.execution_path,
         "../static/vasp_test_files/poscar_samples/POSCAR_metadyn")
     cls.job_metadyn.structure = read_atoms(poscar_file)
Exemplo n.º 22
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 def setUpClass(cls):
     cls.file_location = os.path.dirname(os.path.abspath(__file__))
     cls.project = Project(os.path.join(cls.file_location, "test_elast"))
     cls.basis = CrystalStructure(element="Fe",
                                  bravais_basis="bcc",
                                  lattice_constant=2.83)
     cls.project.remove_jobs_silently(recursive=True)
Exemplo n.º 23
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 def test_get_voronoi_vertices(self):
     basis = CrystalStructure('Al',
                              bravais_basis='fcc',
                              lattice_constants=4)
     self.assertEqual(len(basis.analyse.get_voronoi_vertices()), 12)
     self.assertEqual(
         len(basis.analyse.get_voronoi_vertices(distance_threshold=2)), 1)
Exemplo n.º 24
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 def setUp(self) -> None:
     self.job = ToyAtomisticJob(
         project=ProjectHDFio(project=self.project, file_name="test_job"),
         job_name="test_job",
     )
     self.job.structure = CrystalStructure(element="Al",
                                           bravais_basis="fcc",
                                           lattice_constants=4).repeat(4)
     self.job.run()
Exemplo n.º 25
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 def setUpClass(cls):
     cls.al_fcc = ase_to_pyiron(bulk("Al", cubic=True))
     cls.fe_bcc = ase_to_pyiron(bulk("Fe", cubic=True))
     cls.ti_hcp = ase_to_pyiron(bulk("Ti", orthorhombic=True))
     cls.si_dia = ase_to_pyiron(bulk("Si", cubic=True))
     cls.al_fcc_4 = CrystalStructure(element="Al",
                                     bravais_basis="fcc",
                                     lattice_constants=4
                                     ).repeat(4)
Exemplo n.º 26
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 def test_pyscal_centro_symmetry(self):
     basis = CrystalStructure('Fe',
                              bravais_basis='bcc',
                              lattice_constants=2.8)
     self.assertTrue(
         all([
             np.isclose(v, 0.0)
             for v in basis.analyse.pyscal_centro_symmetry(num_neighbors=8)
         ]))
Exemplo n.º 27
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 def test_get_neighborhood(self):
     struct = CrystalStructure(elements='Al',
                               lattice_constants=4,
                               bravais_basis='fcc')
     struct.positions += 0.01 * (
         2 * np.random.random(struct.positions.shape) - 1)
     struct = struct.center_coordinates_in_unit_cell()
     positions = np.random.random((2, 3)).dot(struct.cell)
     neigh = struct.get_neighborhood(positions)
     positions = np.random.random((2, 3)).dot(struct.cell)
     new_neigh = neigh.get_neighborhood(positions)
     self.assertTrue(
         np.array_equal(new_neigh.distances,
                        neigh.get_distances(positions)))
     self.assertTrue(
         np.array_equal(new_neigh.vecs, neigh.get_vectors(positions)))
     self.assertTrue(
         np.array_equal(new_neigh.indices, neigh.get_indices(positions)))
Exemplo n.º 28
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 def test_set_structure(self):
     self.assertEqual(self.job.structure, None)
     atoms = CrystalStructure("Pt", BravaisBasis="fcc", a=3.98)
     self.job.structure = atoms
     self.assertEqual(self.job.structure, atoms)
     self.job.structure = None
     self.assertEqual(self.job.structure, None)
     self.job.structure = atoms
     self.assertEqual(self.job.structure, atoms)
Exemplo n.º 29
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 def setUpClass(cls):
     cls.execution_path = os.path.dirname(os.path.abspath(__file__))
     cls.project = Project(os.path.join(cls.execution_path, "test_job"))
     cls.job = AtomisticGenericJob(
         project=ProjectHDFio(project=cls.project, file_name="test_job"),
         job_name="test_job",
     )
     cls.job.structure = CrystalStructure(element="Al",
                                          bravais_basis="fcc",
                                          lattice_constants=4).repeat(4)
Exemplo n.º 30
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 def test_get_local_shells(self):
     structure = CrystalStructure(elements='Al',
                                  lattice_constants=4,
                                  bravais_basis='fcc').repeat(2)
     neigh = structure.get_neighbors()
     shells = neigh.get_local_shells()
     structure.positions += 0.01 * (np.random.random(
         (len(structure), 3)) - 0.5)
     neigh = structure.get_neighbors()
     self.assertTrue(
         np.array_equal(
             shells,
             neigh.get_local_shells(cluster_by_vecs=True,
                                    cluster_by_distances=True)))
     neigh.reset_clusters()
     self.assertTrue(
         np.array_equal(shells,
                        neigh.get_local_shells(cluster_by_vecs=True)))
     self.assertFalse(np.array_equal(shells, neigh.get_local_shells()))