def convert_dict_to_mols(tot_dict):
"""
:param tot_dict:
:return:
"""
mol_list = []
for smiles in tot_dict:
# Now generate the molecules for that
mol = RWMol()
atoms = tot_dict[smiles]
print(atoms)
for atom in atoms:
atom = Atom(6)
mol.AddAtom(atom)
# for i in range(len(atoms)-1):
# mol.AddBond(i,i+1)
mol = mol.GetMol()
AllChem.EmbedMolecule(mol)
conf = mol.GetConformer()
for i, atom in enumerate(atoms):
point_3d = Point3D(atom[0], atom[1], atom[2])
conf.SetAtomPosition(i, point_3d)
mol = conf.GetOwningMol()
mol.SetProp("_Name", smiles)
mol_list.append(mol)
return mol_list
def _place_between(self, mol: Chem.RWMol, a: int, b: int, aromatic=True):
oribond = mol.GetBondBetweenAtoms(a, b)
if oribond is None:
print('FAIL')
return None # fail
elif aromatic:
bt = Chem.BondType.AROMATIC
else:
bt = oribond.GetBondType()
idx = mol.AddAtom(Chem.Atom(6))
neoatom = mol.GetAtomWithIdx(idx)
atom_a = mol.GetAtomWithIdx(a)
atom_b = mol.GetAtomWithIdx(b)
if aromatic:
neoatom.SetIsAromatic(True)
atom_a.SetIsAromatic(True)
atom_b.SetIsAromatic(True)
# prevent constraints
neoatom.SetBoolProp('_Novel', True)
atom_a.SetBoolProp('_Novel', True)
atom_b.SetBoolProp('_Novel', True)
# fix position
conf = mol.GetConformer()
pos_A = conf.GetAtomPosition(a)
pos_B = conf.GetAtomPosition(b)
x = pos_A.x / 2 + pos_B.x / 2
y = pos_A.y / 2 + pos_B.y / 2
z = pos_A.z / 2 + pos_B.z / 2
conf.SetAtomPosition(idx, Point3D(x, y, z))
# fix bonds
mol.RemoveBond(a, b)
mol.AddBond(a, idx, bt)
mol.AddBond(b, idx, bt)
def _join_atoms(self,
combo: Chem.RWMol,
anchor_A: int,
anchor_B: int,
distance: float,
linking: bool = True):
"""
extrapolate positions between. by adding linkers if needed.
"""
conf = combo.GetConformer()
pos_A = conf.GetAtomPosition(anchor_A)
pos_B = conf.GetAtomPosition(anchor_B)
n_new = int(round(distance / 1.22) - 1)
xs = np.linspace(pos_A.x, pos_B.x, n_new + 2)[1:-1]
ys = np.linspace(pos_A.y, pos_B.y, n_new + 2)[1:-1]
zs = np.linspace(pos_A.z, pos_B.z, n_new + 2)[1:-1]
# correcting for ring marker atoms
def is_ring_atom(anchor: int) -> bool:
atom = combo.GetAtomWithIdx(anchor)
if atom.HasProp('_ori_i') and atom.GetIntProp('_ori_i') == -1:
return True
else:
return False
if is_ring_atom(anchor_A):
distance -= 1.35 + 0.2 # Arbitrary + 0.2 to compensate for the ring not reaching (out of plane).
n_new -= 1
xs = xs[1:]
ys = ys[1:]
zs = zs[1:]
if is_ring_atom(anchor_B):
distance -= 1.35 + 0.2 # Arbitrary + 0.2 to compensate for the ring not reaching (out of plane).
n_new -= 1
xs = xs[:-1]
ys = ys[:-1]
zs = zs[:-1]
# notify that things could be leary.
if distance < 0:
self.journal.debug(
f'Two ring atoms detected to be close. Joining for now.' +
' They will be bonded/fused/spiro afterwards')
# check if valid.
if distance > self.joining_cutoff:
msg = f'Atoms {anchor_A}+{anchor_B} are {distance} Å away. Cutoff is {self.joining_cutoff}.'
self.journal.warning(msg)
raise ConnectionError(msg)
# place new atoms
self.journal.debug(
f'Molecules will be joined via atoms {anchor_A}+{anchor_B} ({distance} Å) via the addition of {n_new} atoms.'
)
previous = anchor_A
if linking is False and n_new > 0:
self.journal.warning(
f'Was going to bond {anchor_A} and {anchor_B} but reconsidered.'
)
elif linking is True and n_new <= 0:
combo.AddBond(previous, anchor_B, Chem.BondType.SINGLE)
new_bond = combo.GetBondBetweenAtoms(previous, anchor_B)
BondProvenance.set_bond(new_bond, 'main_novel')
elif linking is False and n_new <= 0:
combo.AddBond(previous, anchor_B, Chem.BondType.SINGLE)
new_bond = combo.GetBondBetweenAtoms(previous, anchor_B)
BondProvenance.set_bond(new_bond, 'other_novel')
elif linking is True and n_new > 0:
for i in range(n_new):
# make oxygen the first and last bridging atom.
if i == 0 and combo.GetAtomWithIdx(
anchor_A).GetSymbol() == 'C':
new_atomic = 8
elif i > 2 and i == n_new - 1 and combo.GetAtomWithIdx(
anchor_B).GetSymbol() == 'C':
new_atomic = 8
else:
new_atomic = 6
idx = combo.AddAtom(Chem.Atom(new_atomic))
new = combo.GetAtomWithIdx(idx)
new.SetBoolProp('_Novel', True)
new.SetIntProp('_ori_i', 999)
conf.SetAtomPosition(
idx, Point3D(float(xs[i]), float(ys[i]), float(zs[i])))
combo.AddBond(idx, previous, Chem.BondType.SINGLE)
new_bond = combo.GetBondBetweenAtoms(idx, previous)
BondProvenance.set_bond(new_bond, 'linker')
previous = idx
combo.AddBond(previous, anchor_B, Chem.BondType.SINGLE)
new_bond = combo.GetBondBetweenAtoms(previous, anchor_B)
BondProvenance.set_bond(new_bond, 'linker')
else:
raise ValueError('Impossible')
return combo.GetMol()