moledit-benchmark / code /mol_ops.py
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"""
Core molecular editing operations using RDKit's RWMol API.
Each operation takes an RWMol and parameters, returns the modified RWMol.
Each has a forward (corruption) and inverse (correction) form.
"""
import copy
from rdkit import Chem
from rdkit.Chem import AllChem, rdmolops
BOND_TYPE_MAP = {
"SINGLE": Chem.BondType.SINGLE,
"DOUBLE": Chem.BondType.DOUBLE,
"TRIPLE": Chem.BondType.TRIPLE,
"AROMATIC": Chem.BondType.AROMATIC,
}
BOND_TYPE_NAME = {v: k for k, v in BOND_TYPE_MAP.items()}
ELEM_TO_NUM = {
"C": 6, "N": 7, "O": 8, "S": 16, "P": 15, "F": 9,
"Cl": 17, "Br": 35, "I": 53, "B": 5, "Si": 14, "Se": 34,
}
NUM_TO_ELEM = {v: k for k, v in ELEM_TO_NUM.items()}
FUNCTIONAL_GROUPS = {
"OH": "[OH]",
"NH2": "[NH2]",
"F": "[F]",
"Cl": "[Cl]",
"Br": "[Br]",
"CH3": "[CH3]",
"NO2": "[N+](=O)[O-]",
"COOH": "C(=O)[OH]",
"CHO": "[CH]=O",
}
def validate_mol(mol):
if mol is None:
return False
try:
Chem.SanitizeMol(mol)
return True
except Exception:
return False
def safe_apply(func):
"""Decorator: returns None if the operation produces an invalid molecule."""
def wrapper(mol, **kwargs):
rw = copy.deepcopy(mol)
try:
result = func(rw, **kwargs)
if result is None:
return None
if not validate_mol(result):
return None
return result
except Exception:
return None
return wrapper
# ---------------------------------------------------------------------------
# 1. change_atom_element
# ---------------------------------------------------------------------------
@safe_apply
def change_atom_element(mol, atom_idx, to_elem):
atom = mol.GetAtomWithIdx(atom_idx)
atom.SetAtomicNum(ELEM_TO_NUM[to_elem])
atom.SetNoImplicit(False)
atom.UpdatePropertyCache(strict=False)
return mol
# ---------------------------------------------------------------------------
# 2. add_atom — adds a new atom bonded to anchor
# ---------------------------------------------------------------------------
@safe_apply
def add_atom(mol, anchor_idx, new_elem, bond_type="SINGLE"):
new_idx = mol.AddAtom(Chem.Atom(ELEM_TO_NUM[new_elem]))
mol.AddBond(anchor_idx, new_idx, BOND_TYPE_MAP[bond_type])
return mol
# ---------------------------------------------------------------------------
# 3. remove_atom
# ---------------------------------------------------------------------------
@safe_apply
def remove_atom(mol, atom_idx):
mol.RemoveAtom(atom_idx)
return mol
# ---------------------------------------------------------------------------
# 4. change_charge
# ---------------------------------------------------------------------------
@safe_apply
def change_charge(mol, atom_idx, to_charge):
atom = mol.GetAtomWithIdx(atom_idx)
atom.SetFormalCharge(to_charge)
atom.UpdatePropertyCache(strict=False)
return mol
# ---------------------------------------------------------------------------
# 5. change_bond_order
# ---------------------------------------------------------------------------
@safe_apply
def change_bond_order(mol, atom_idx1, atom_idx2, to_order):
bond = mol.GetBondBetweenAtoms(atom_idx1, atom_idx2)
if bond is None:
return None
bond.SetBondType(BOND_TYPE_MAP[to_order])
return mol
# ---------------------------------------------------------------------------
# 6. add_bond
# ---------------------------------------------------------------------------
@safe_apply
def add_bond(mol, atom_idx1, atom_idx2, bond_type="SINGLE"):
existing = mol.GetBondBetweenAtoms(atom_idx1, atom_idx2)
if existing is not None:
return None
mol.AddBond(atom_idx1, atom_idx2, BOND_TYPE_MAP[bond_type])
return mol
# ---------------------------------------------------------------------------
# 7. remove_bond
# ---------------------------------------------------------------------------
@safe_apply
def remove_bond(mol, atom_idx1, atom_idx2):
bond = mol.GetBondBetweenAtoms(atom_idx1, atom_idx2)
if bond is None:
return None
mol.RemoveBond(atom_idx1, atom_idx2)
return mol
# ---------------------------------------------------------------------------
# 8. add_functional_group
# ---------------------------------------------------------------------------
@safe_apply
def add_functional_group(mol, anchor_idx, group_name):
group_smi = FUNCTIONAL_GROUPS.get(group_name)
if group_smi is None:
return None
group_mol = Chem.MolFromSmiles(group_smi)
if group_mol is None:
return None
combo = Chem.RWMol(rdmolops.CombineMols(mol, group_mol))
old_n = mol.GetNumAtoms()
anchor = combo.GetAtomWithIdx(anchor_idx)
anchor.SetNumExplicitHs(0)
anchor.SetNoImplicit(False)
anchor.SetNumRadicalElectrons(0)
combo.AddBond(anchor_idx, old_n, Chem.BondType.SINGLE)
return combo
# ---------------------------------------------------------------------------
# 9. remove_functional_group (removes a terminal substituent at anchor)
# ---------------------------------------------------------------------------
def remove_functional_group(mol, anchor_idx, group_name):
"""Remove atoms belonging to a terminal functional group attached at anchor_idx.
Returns (new_mol, removed_atom_indices) or (None, [])."""
rw = copy.deepcopy(mol)
anchor = rw.GetAtomWithIdx(anchor_idx)
neighbors = [n for n in anchor.GetNeighbors()]
if group_name in ("F", "Cl", "Br"):
target_num = ELEM_TO_NUM.get(group_name)
for n in neighbors:
if n.GetAtomicNum() == target_num and n.GetDegree() == 1:
idx = n.GetIdx()
rw.RemoveAtom(idx)
try:
Chem.SanitizeMol(rw)
return rw, [idx]
except Exception:
return None, []
return None, []
if group_name == "OH":
for n in neighbors:
if n.GetAtomicNum() == 8 and n.GetDegree() == 1:
bond = rw.GetBondBetweenAtoms(anchor_idx, n.GetIdx())
if bond and bond.GetBondType() == Chem.BondType.SINGLE:
idx = n.GetIdx()
rw.RemoveAtom(idx)
try:
Chem.SanitizeMol(rw)
return rw, [idx]
except Exception:
return None, []
return None, []
if group_name == "NH2":
for n in neighbors:
if n.GetAtomicNum() == 7 and n.GetDegree() == 1:
idx = n.GetIdx()
rw.RemoveAtom(idx)
try:
Chem.SanitizeMol(rw)
return rw, [idx]
except Exception:
return None, []
return None, []
if group_name == "CH3":
for n in neighbors:
if n.GetAtomicNum() == 6 and n.GetDegree() == 1 and n.GetTotalNumHs() == 3:
idx = n.GetIdx()
rw.RemoveAtom(idx)
try:
Chem.SanitizeMol(rw)
return rw, [idx]
except Exception:
return None, []
return None, []
return None, []
# ---------------------------------------------------------------------------
# 10. flip_chirality
# ---------------------------------------------------------------------------
@safe_apply
def flip_chirality(mol, atom_idx):
atom = mol.GetAtomWithIdx(atom_idx)
chi = atom.GetChiralTag()
if chi == Chem.ChiralType.CHI_TETRAHEDRAL_CW:
atom.SetChiralTag(Chem.ChiralType.CHI_TETRAHEDRAL_CCW)
elif chi == Chem.ChiralType.CHI_TETRAHEDRAL_CCW:
atom.SetChiralTag(Chem.ChiralType.CHI_TETRAHEDRAL_CW)
else:
return None
return mol
# ---------------------------------------------------------------------------
# 11. flip_ez — flip E/Z via SMILES-level slash inversion
# ---------------------------------------------------------------------------
def flip_ez(smiles):
"""Flip E/Z by inverting the first /-slash in the SMILES.
Works at the SMILES string level since RDKit mol-level stereo
doesn't round-trip reliably through MolToSmiles."""
if "/" not in smiles and "\\" not in smiles:
return None
chars = list(smiles)
for i, c in enumerate(chars):
if c == "/":
chars[i] = "\\"
break
elif c == "\\":
chars[i] = "/"
break
new_smi = "".join(chars)
mol = Chem.MolFromSmiles(new_smi)
if mol is None:
return None
return Chem.MolToSmiles(mol, isomericSmiles=True)
# ---------------------------------------------------------------------------
# Registry: maps operation type name → apply function
# ---------------------------------------------------------------------------
OP_REGISTRY = {
"change_atom_element": change_atom_element,
"add_atom": add_atom,
"remove_atom": remove_atom,
"change_charge": change_charge,
"change_bond_order": change_bond_order,
"add_bond": add_bond,
"remove_bond": remove_bond,
"add_functional_group": add_functional_group,
"remove_functional_group": lambda mol, **kw: remove_functional_group(mol, **kw)[0],
"flip_chirality": flip_chirality,
"flip_ez": flip_ez,
}