コード例 #1
0
    def structure(self) -> mtr.Structure:
        coords = self.cclib_out.atomcoords[-1, :, :] * mtr.angstrom
        zs = self.cclib_out.atomnos

        atoms = (mtr.Atom(element=Z, position=p) for Z, p in zip(zs, coords))

        return mtr.Structure(*atoms)
コード例 #2
0
ファイル: structure.py プロジェクト: kijanac/materia
def _structure_from_pubchem_compound(compound: pcp.Compound) -> mtr.Structure:
    # FIXME: assumes the pubchem distance unit is angstrom - is this correct??
    atom_generator = ((a.element, (a.x, a.y, a.z) * mtr.angstrom)
                      for a in compound.atoms)
    atoms = (mtr.Atom(element=symb, position=pos)
             for symb, pos in atom_generator)

    return mtr.Structure(*atoms)
コード例 #3
0
ファイル: structure.py プロジェクト: kijanac/materia
def _structure_from_identifier(smiles: Optional[str] = None,
                               inchi: Optional[str] = None,
                               num_conformers: int = 25) -> mtr.Structure:
    # for motivation on generating 25 (as opposed to, say, 10 or 100) conformers, see:
    # https://github.com/rdkit/UGM_2015/blob/master/Presentations/ETKDG.SereinaRiniker.pdf
    rdkit.RDLogger.DisableLog("rdApp.*")
    if smiles is not None:
        mol = rdkit.Chem.MolFromSmiles(smiles, sanitize=False)
    elif inchi is not None:
        mol = rdkit.Chem.MolFromInchi(inchi, sanitize=False)
    else:
        raise ValueError(
            "Either SMILES or InChi required to generate structure.")

    # sanitize
    try:
        mol.UpdatePropertyCache(False)
        mol = rdkit.Chem.Mol(mol.ToBinary())
        rdkit.Chem.SanitizeMol(mol)
    except ValueError:
        raise ValueError("Cannot sanitize RDKit molecule.")

    # hydrogenate
    mol = rdkit.Chem.AddHs(mol)

    # embed to generate 3D coords
    embedding_parameters = rdkit.Chem.AllChem.ETKDG()
    embed_return_code = rdkit.Chem.AllChem.EmbedMolecule(
        mol=mol, params=embedding_parameters)

    if embed_return_code == -1:
        embedding_parameters.useRandomCoords = True
        rdkit.Chem.AllChem.EmbedMolecule(mol=mol, params=embedding_parameters)

    # embed multiple conformers and find one with lowest energy
    rdkit.Chem.AllChem.EmbedMultipleConfs(mol,
                                          numConfs=num_conformers,
                                          params=embedding_parameters)

    # MMFF seems to give slightly better geometries, so it is preferred if possible
    if rdkit.Chem.AllChem.MMFFHasAllMoleculeParams(mol=mol):
        mmff_props = rdkit.Chem.AllChem.MMFFGetMoleculeProperties(mol=mol)
        rdkit.Chem.AllChem.MMFFSanitizeMolecule(mol=mol)

        def energy(conformer):
            return rdkit.Chem.AllChem.MMFFGetMoleculeForceField(
                mol=conformer.GetOwningMol(),
                pyMMFFMolProperties=mmff_props,
                confId=conformer.GetId(),
            ).CalcEnergy()

    else:

        def energy(conformer):
            return rdkit.Chem.AllChem.UFFGetMoleculeForceField(
                mol=conformer.GetOwningMol(),
                confId=conformer.GetId()).CalcEnergy()

    energies = {
        conformer: energy(conformer)
        for conformer in mol.GetConformers()
    }

    conformer = min(energies, key=energies.get)

    # convert to Structure
    symbols = (a.GetSymbol() for a in conformer.GetOwningMol().GetAtoms())

    # FIXME: assumes the RDKIT distance unit is angstrom - is this correct??
    # NOTE: using conformer.GetPositions sometimes causes
    # a seg fault (RDKit) - use GetAtomPosition instead
    atoms = (mtr.Atom(
        element=symbol,
        position=conformer.GetAtomPosition(i) * mtr.angstrom,
    ) for i, symbol in enumerate(symbols))

    return mtr.Structure(*atoms)
コード例 #4
0
ファイル: structure.py プロジェクト: kijanac/materia
 def __add__(self, other: mtr.Structure) -> mtr.Structure:
     return mtr.Structure((*self.atoms, *other.atoms))
コード例 #5
0
ファイル: ex2.py プロジェクト: kijanac/materia
import materia as mtr

amm = mtr.Structure.read("~/ammonia.xyz")
basis = ase.Atoms(amm.atomic_symbols, amm.atomic_positions.T)

ase_crystal = ase.spacegroup.crystal(
    basis=basis,
    spacegroup=198,
    cellpar=[
        4.9621636999999996, 4.9621636999999996, 4.9621636999999996, 90, 90, 90
    ],
    size=(3, 3, 3),
)
ase.io.write("~/ammonia_crystal.xyz", ase_crystal)

crystal = mtr.Structure.read("~/ammonia_crystal.xyz")

atoms = tuple(crystal.atoms[k] for k, v in crystal.perceive_bonds().items()
              if (crystal.atoms[k].Z == 7 and len(v) == 3) or (
                  crystal.atoms[k].Z == 1 and len(v) == 1))
bonds = crystal.perceive_bonds()
while len(bonds) > len(atoms):
    bonds = crystal.perceive_bonds()
    atoms = tuple(crystal.atoms[k]
                  for k, v in crystal.perceive_bonds().items()
                  if (crystal.atoms[k].Z == 7 and len(v) == 3) or (
                      crystal.atoms[k].Z == 1 and len(v) == 1))
    crystal = mtr.Structure(atoms)

crystal.write("~/good_ammonia_crystal.xyz", overwrite=True)