Example #1
0
 def get_angles(self):
     test_conf = Conformer()
     test_conf.rmg_molecule = self.rmg_molecule
     try:
         test_conf._rdkit_molecule = self._pseudo_geometry
     except:
         self.get_rdkit_mol()
         test_conf._rdkit_molecule = self._pseudo_geometry
     test_conf._ase_molecule = self.ase_molecule
     return test_conf.get_angles()
Example #2
0
class TestConformer(unittest.TestCase):
    def setUp(self):
        self.conformer = Conformer(smiles='CC')

    def test_rmg_molecules(self):
        self.assertIsInstance(self.conformer.rmg_molecule, RMGMolecule)

    def test_rdkit_mol(self):
        autotst_rdkit = self.conformer.get_rdkit_mol()
        self.assertIsInstance(autotst_rdkit, Mol)

    def test_ase_mol(self):
        autotst_ase_mol = self.conformer.get_ase_mol()
        self.assertIsInstance(autotst_ase_mol, Atoms)

    def test_get_molecules(self):
        autotst_rdkit, autotst_ase_mol = self.conformer.get_molecules()
        self.assertIsInstance(autotst_rdkit, Mol)
        self.assertIsInstance(autotst_ase_mol, Atoms)

    def test_get_bonds(self):
        bonds = self.conformer.get_bonds()
        self.assertIsInstance(bonds, list)
        self.assertIsInstance(bonds[0], Bond)
        self.assertEquals(len(bonds), 7)

    def test_get_angles(self):
        angles = self.conformer.get_angles()
        self.assertIsInstance(angles, list)
        self.assertIsInstance(angles[0], Angle)
        self.assertEquals(len(angles), 12)

    def test_get_torsions(self):
        torsions = self.conformer.get_torsions()
        self.assertIsInstance(torsions, list)
        self.assertIsInstance(torsions[0], Torsion)
        self.assertEquals(len(torsions), 1)

    def test_get_cistrans(self):
        cistrans = self.conformer.get_cistrans()
        self.assertIsInstance(cistrans, list)
        self.assertEquals(len(cistrans), 0)

    def test_get_chiralcenters(self):
        chiralcenters = self.conformer.get_chiral_centers()
        self.assertIsInstance(chiralcenters, list)
        self.assertEquals(len(chiralcenters), 0)

    def test_get_geometries(self):
        geometries = self.conformer.get_geometries()
        self.assertIsInstance(geometries, tuple)
        self.assertIsInstance(geometries[0], list)
        self.assertIsInstance(geometries[0][0], Bond)
        self.assertIsInstance(geometries[1], list)
        self.assertIsInstance(geometries[1][0], Angle)
        self.assertIsInstance(geometries[2], list)
        self.assertIsInstance(geometries[2][0], Torsion)
        self.assertIsInstance(geometries[3], list)
        self.assertIsInstance(geometries[4], list)

    def test_calculate_symmetry_number(self):
        self.assertEquals(self.conformer.calculate_symmetry_number(), 1)
        os.remove("./CC.symm")
Example #3
0
class TestConformer(unittest.TestCase):
    def setUp(self):
        self.conformer = Conformer(smiles='CC')

    def test_rmg_molecules(self):
        self.assertIsInstance(self.conformer.rmg_molecule, RMGMolecule)

    def test_rdkit_mol(self):
        autotst_rdkit = self.conformer.get_rdkit_mol()
        self.assertIsInstance(autotst_rdkit, Mol)

    def test_ase_mol(self):
        autotst_ase_mol = self.conformer.get_ase_mol()
        self.assertIsInstance(autotst_ase_mol, Atoms)

    def test_get_molecules(self):
        autotst_rdkit, autotst_ase_mol = self.conformer.get_molecules()
        self.assertIsInstance(autotst_rdkit, Mol)
        self.assertIsInstance(autotst_ase_mol, Atoms)

    def test_get_bonds(self):
        bonds = self.conformer.get_bonds()
        self.assertIsInstance(bonds, list)
        self.assertIsInstance(bonds[0], Bond)
        self.assertEquals(len(bonds), 7)

    def test_get_angles(self):
        angles = self.conformer.get_angles()
        self.assertIsInstance(angles, list)
        self.assertIsInstance(angles[0], Angle)
        self.assertEquals(len(angles), 12)

    def test_get_torsions(self):
        torsions = self.conformer.get_torsions()
        self.assertIsInstance(torsions, list)
        self.assertIsInstance(torsions[0], Torsion)
        self.assertEquals(len(torsions), 1)

    def test_get_cistrans(self):
        cistrans = self.conformer.get_cistrans()
        self.assertIsInstance(cistrans, list)
        self.assertEquals(len(cistrans), 0)

    def test_get_chiralcenters(self):
        chiralcenters = self.conformer.get_chiral_centers()
        self.assertIsInstance(chiralcenters, list)
        self.assertEquals(len(chiralcenters), 0)

    def test_get_geometries(self):
        geometries = self.conformer.get_geometries()
        self.assertIsInstance(geometries, tuple)
        self.assertIsInstance(geometries[0], list)
        self.assertIsInstance(geometries[0][0], Bond)
        self.assertIsInstance(geometries[1], list)
        self.assertIsInstance(geometries[1][0], Angle)
        self.assertIsInstance(geometries[2], list)
        self.assertIsInstance(geometries[2][0], Torsion)
        self.assertIsInstance(geometries[3], list)
        self.assertIsInstance(geometries[4], list)

    def test_calculate_symmetry_number(self):
        species_to_test = {
            "CC": 18.0,
        }
        self.assertEquals(self.conformer.calculate_symmetry_number(), 18.0)

    def test_get_xyz_block(self):
        xyz_block = self.conformer.get_xyz_block()
        positions = self.conformer.ase_molecule.arrays["positions"]
        for n in range(len(positions)):
            self.assertTrue((np.array([
                float(x) for x in xyz_block.split('\n')[n].split()[1:]
            ]) == positions[n]).all())