Пример #1
0
def FingerprintMol(mol):
  """ generates the EState fingerprints for the molecule

  Concept from the paper: Hall and Kier JCICS _35_ 1039-1045 (1995)

  two numeric arrays are returned:
    The first (of ints) contains the number of times each possible atom type is hit
    The second (of floats) contains the sum of the EState indices for atoms of
      each type.

  """
  if AtomTypes.esPatterns is None:
    AtomTypes.BuildPatts()
  esIndices = EStateIndices(mol)

  nPatts = len(AtomTypes.esPatterns)
  counts = numpy.zeros(nPatts,numpy.int)
  sums = numpy.zeros(nPatts,numpy.float)

  for i,(name,pattern) in enumerate(AtomTypes.esPatterns):
    matches = mol.GetSubstructMatches(pattern,uniquify=1)
    counts[i] = len(matches)
    for match in matches:
      sums[i] += esIndices[match[0]]
  return counts,sums
Пример #2
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def _exampleCode():
  """ Example code for calculating E-state fingerprints """
  from rdkit import Chem
  smis = ['CC', 'CCC', 'c1[nH]cnc1CC(N)C(O)=O', 'NCCc1ccc(O)c(O)c1']
  for smi in smis:
    m = Chem.MolFromSmiles(smi)
    print(smi, Chem.MolToSmiles(m))
    types = AtomTypes.TypeAtoms(m)
    for i in range(m.GetNumAtoms()):
      print('%d %4s: %s' % (i + 1, m.GetAtomWithIdx(i).GetSymbol(), str(types[i])))
    es = EStateIndices(m)
    counts, sums = FingerprintMol(m)
    for i in range(len(AtomTypes.esPatterns)):
      if counts[i]:
        name, _ = AtomTypes.esPatterns[i]
        print('%6s, % 2d, % 5.4f' % (name, counts[i], sums[i]))
    for i in range(len(es)):
      print('% 2d, % 5.4f' % (i + 1, es[i]))
    print('--------')
def finger_print(chunk):
    """
    Create a dictionary with the e-state fingerprint for the molecule in mol (rdkit mol)

    Input:
    mol; rdkit mol object
    name; structure name
    e_opt; energy gap (target)
    """
    if AtomTypes.esPatterns is None:
        AtomTypes.BuildPatts()

    name_list = [name for name, _ in AtomTypes.esPatterns]
    df = pd.DataFrame(columns=['name', 'smiles'] + name_list)

    for row_index, row in chunk.iterrows():
        name = (row["name"])
        smiles = (row["smiles"])

        mol = Chem.MolFromSmiles(smiles)
        try:

            types = AtomTypes.TypeAtoms(mol)
            es = EStateIndices(mol)
            counts, sums = Fingerprinter.FingerprintMol(mol)

            if AtomTypes.esPatterns is None:
                AtomTypes.BuildPatts()

            name_list = [name for name, _ in AtomTypes.esPatterns]

            data = {'name': name, 'smiles': smiles}
            data2 = {k: v for k, v in zip(name_list, sums)}

            data.update(data2)
            df = df.append(data, ignore_index=True)

        except AttributeError:
            print(i, formula)
        continue
    return df
Пример #4
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def finger_print(mol, name, e_opt):
    """ 
    Create a dictionary with the e-state fingerprint for the molecule in mol (rdkit mol)
    
    Input:
    mol; rdkit mol object
    name; structure name
    e_opt; energy gap (target)
    """

    types = AtomTypes.TypeAtoms(mol)
    es = EStateIndices(mol)
    counts, sums = Fingerprinter.FingerprintMol(mol)

    if AtomTypes.esPatterns is None:
        AtomTypes.BuildPatts()

    name_list = [name for name, _ in AtomTypes.esPatterns]

    data = {'name': name, 'E_opt': e_opt}
    data2 = {k: v for k, v in zip(name_list, sums)}

    data.update(data2)
    return data
Пример #5
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  nPatts = len(AtomTypes.esPatterns)
  counts = numpy.zeros(nPatts,numpy.int)
  sums = numpy.zeros(nPatts,numpy.float)

  for i,(name,pattern) in enumerate(AtomTypes.esPatterns):
    matches = mol.GetSubstructMatches(pattern,uniquify=1)
    counts[i] = len(matches)
    for match in matches:
      sums[i] += esIndices[match[0]]
  return counts,sums


if __name__ == '__main__':
  from rdkit import Chem
  smis = ['CC','CCC','c1[nH]cnc1CC(N)C(O)=O','NCCc1ccc(O)c(O)c1']
  for smi in smis:
    m = Chem.MolFromSmiles(smi)
    print smi,Chem.MolToSmiles(m)
    types = AtomTypes.TypeAtoms(m)
    for i in range(m.GetNumAtoms()):
      print '%d %4s: %s'%(i+1,m.GetAtomWithIdx(i).GetSymbol(),str(types[i]))
    es = EStateIndices(m)
    counts,sums = FingerprintMol(m)
    for i in range(len(AtomTypes.esPatterns)):
      if counts[i]:
        name,patt = AtomTypes.esPatterns[i]
        print '%6s, % 2d, % 5.4f'%(name,counts[i],sums[i])
    for i in range(len(es)):
      print '% 2d, % 5.4f'%(i+1,es[i])
    print '--------'
Пример #6
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def getEState(mol):

    return EStateIndices(mol)