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pubchempy.py
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pubchempy.py
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# -*- coding: utf-8 -*-
"""
PubChemPy
Python interface for the PubChem PUG REST service.
https://github.com/mcs07/PubChemPy
"""
from __future__ import print_function
from __future__ import unicode_literals
from __future__ import division
import functools
import json
import logging
import os
import sys
import time
import warnings
import binascii
try:
from urllib.error import HTTPError
from urllib.parse import quote, urlencode
from urllib.request import urlopen
except ImportError:
from urllib import urlencode
from urllib2 import quote, urlopen, HTTPError
try:
from itertools import zip_longest
except ImportError:
from itertools import izip_longest as zip_longest
__author__ = 'Matt Swain'
__email__ = '[email protected]'
__version__ = '1.0.4'
__license__ = 'MIT'
API_BASE = 'https://pubchem.ncbi.nlm.nih.gov/rest/pug'
log = logging.getLogger('pubchempy')
log.addHandler(logging.NullHandler())
if sys.version_info[0] == 3:
text_types = str, bytes
else:
text_types = basestring,
class CompoundIdType(object):
""""""
#: Original Deposited Compound
DEPOSITED = 0
#: Standardized Form of the Deposited Compound
STANDARDIZED = 1
#: Component of the Standardized Form
COMPONENT = 2
#: Neutralized Form of the Standardized Form
NEUTRALIZED = 3
#: Deposited Mixture Component
MIXTURE = 4
#: Alternate Tautomer Form of the Standardized Form
TAUTOMER = 5
#: Ionized pKa Form of the Standardized Form
IONIZED = 6
#: Unspecified or Unknown Compound Type
UNKNOWN = 255
class BondType(object):
SINGLE = 1
DOUBLE = 2
TRIPLE = 3
QUADRUPLE = 4
DATIVE = 5
COMPLEX = 6
IONIC = 7
UNKNOWN = 255
class CoordinateType(object):
TWO_D = 1
THREE_D = 2
SUBMITTED = 3
EXPERIMENTAL = 4
COMPUTED = 5
STANDARDIZED = 6
AUGMENTED = 7
ALIGNED = 8
COMPACT = 9
UNITS_ANGSTROMS = 10
UNITS_NANOMETERS = 11
UNITS_PIXEL = 12
UNITS_POINTS = 13
UNITS_STDBONDS = 14
UNITS_UNKNOWN = 255
class ProjectCategory(object):
MLSCN = 1
MPLCN = 2
MLSCN_AP = 3
MPLCN_AP = 4
JOURNAL_ARTICLE = 5
ASSAY_VENDOR = 6
LITERATURE_EXTRACTED = 7
LITERATURE_AUTHOR = 8
LITERATURE_PUBLISHER = 9
RNAIGI = 10
OTHER = 255
ELEMENTS = {
1: 'H',
2: 'He',
3: 'Li',
4: 'Be',
5: 'B',
6: 'C',
7: 'N',
8: 'O',
9: 'F',
10: 'Ne',
11: 'Na',
12: 'Mg',
13: 'Al',
14: 'Si',
15: 'P',
16: 'S',
17: 'Cl',
18: 'Ar',
19: 'K',
20: 'Ca',
21: 'Sc',
22: 'Ti',
23: 'V',
24: 'Cr',
25: 'Mn',
26: 'Fe',
27: 'Co',
28: 'Ni',
29: 'Cu',
30: 'Zn',
31: 'Ga',
32: 'Ge',
33: 'As',
34: 'Se',
35: 'Br',
36: 'Kr',
37: 'Rb',
38: 'Sr',
39: 'Y',
40: 'Zr',
41: 'Nb',
42: 'Mo',
43: 'Tc',
44: 'Ru',
45: 'Rh',
46: 'Pd',
47: 'Ag',
48: 'Cd',
49: 'In',
50: 'Sn',
51: 'Sb',
52: 'Te',
53: 'I',
54: 'Xe',
55: 'Cs',
56: 'Ba',
57: 'La',
58: 'Ce',
59: 'Pr',
60: 'Nd',
61: 'Pm',
62: 'Sm',
63: 'Eu',
64: 'Gd',
65: 'Tb',
66: 'Dy',
67: 'Ho',
68: 'Er',
69: 'Tm',
70: 'Yb',
71: 'Lu',
72: 'Hf',
73: 'Ta',
74: 'W',
75: 'Re',
76: 'Os',
77: 'Ir',
78: 'Pt',
79: 'Au',
80: 'Hg',
81: 'Tl',
82: 'Pb',
83: 'Bi',
84: 'Po',
85: 'At',
86: 'Rn',
87: 'Fr',
88: 'Ra',
89: 'Ac',
90: 'Th',
91: 'Pa',
92: 'U',
93: 'Np',
94: 'Pu',
95: 'Am',
96: 'Cm',
97: 'Bk',
98: 'Cf',
99: 'Es',
100: 'Fm',
101: 'Md',
102: 'No',
103: 'Lr',
104: 'Rf',
105: 'Db',
106: 'Sg',
107: 'Bh',
108: 'Hs',
109: 'Mt',
110: 'Ds',
111: 'Rg',
112: 'Cp',
113: 'ut',
114: 'uq',
115: 'up',
116: 'uh',
117: 'us',
118: 'uo',
}
def request(identifier, namespace='cid', domain='compound', operation=None, output='JSON', searchtype=None, **kwargs):
"""
Construct API request from parameters and return the response.
Full specification at http://pubchem.ncbi.nlm.nih.gov/pug_rest/PUG_REST.html
"""
if not identifier:
raise ValueError('identifier/cid cannot be None')
# If identifier is a list, join with commas into string
if isinstance(identifier, int):
identifier = str(identifier)
if not isinstance(identifier, text_types):
identifier = ','.join(str(x) for x in identifier)
# Filter None values from kwargs
kwargs = dict((k, v) for k, v in kwargs.items() if v is not None)
# Build API URL
urlid, postdata = None, None
if namespace == 'sourceid':
identifier = identifier.replace('/', '.')
if namespace in ['listkey', 'formula', 'sourceid'] \
or searchtype == 'xref' \
or (searchtype and namespace == 'cid') or domain == 'sources':
urlid = quote(identifier.encode('utf8'))
else:
postdata = urlencode([(namespace, identifier)]).encode('utf8')
comps = filter(None, [API_BASE, domain, searchtype, namespace, urlid, operation, output])
apiurl = '/'.join(comps)
if kwargs:
apiurl += '?%s' % urlencode(kwargs)
# Make request
try:
log.debug('Request URL: %s', apiurl)
log.debug('Request data: %s', postdata)
response = urlopen(apiurl, postdata)
return response
except HTTPError as e:
raise PubChemHTTPError(e)
def get(identifier, namespace='cid', domain='compound', operation=None, output='JSON', searchtype=None, **kwargs):
"""Request wrapper that automatically handles async requests."""
if (searchtype and searchtype != 'xref') or namespace in ['formula']:
response = request(identifier, namespace, domain, None, 'JSON', searchtype, **kwargs).read()
status = json.loads(response.decode())
if 'Waiting' in status and 'ListKey' in status['Waiting']:
identifier = status['Waiting']['ListKey']
namespace = 'listkey'
while 'Waiting' in status and 'ListKey' in status['Waiting']:
time.sleep(2)
response = request(identifier, namespace, domain, operation, 'JSON', **kwargs).read()
status = json.loads(response.decode())
if not output == 'JSON':
response = request(identifier, namespace, domain, operation, output, searchtype, **kwargs).read()
else:
response = request(identifier, namespace, domain, operation, output, searchtype, **kwargs).read()
return response
def get_json(identifier, namespace='cid', domain='compound', operation=None, searchtype=None, **kwargs):
"""Request wrapper that automatically parses JSON response and supresses NotFoundError."""
try:
return json.loads(get(identifier, namespace, domain, operation, 'JSON', searchtype, **kwargs).decode())
except NotFoundError as e:
log.info(e)
return None
def get_sdf(identifier, namespace='cid', domain='compound',operation=None, searchtype=None, **kwargs):
"""Request wrapper that automatically parses SDF response and supresses NotFoundError."""
try:
return get(identifier, namespace, domain, operation, 'SDF', searchtype, **kwargs).decode()
except NotFoundError as e:
log.info(e)
return None
def get_compounds(identifier, namespace='cid', searchtype=None, as_dataframe=False, **kwargs):
"""Retrieve the specified compound records from PubChem.
:param identifier: The compound identifier to use as a search query.
:param namespace: (optional) The identifier type, one of cid, name, smiles, sdf, inchi, inchikey or formula.
:param searchtype: (optional) The advanced search type, one of substructure, superstructure or similarity.
:param as_dataframe: (optional) Automatically extract the :class:`~pubchempy.Compound` properties into a pandas
:class:`~pandas.DataFrame` and return that.
"""
results = get_json(identifier, namespace, searchtype=searchtype, **kwargs)
compounds = [Compound(r) for r in results['PC_Compounds']] if results else []
if as_dataframe:
return compounds_to_frame(compounds)
return compounds
def get_substances(identifier, namespace='sid', as_dataframe=False, **kwargs):
"""Retrieve the specified substance records from PubChem.
:param identifier: The substance identifier to use as a search query.
:param namespace: (optional) The identifier type, one of sid, name or sourceid/<source name>.
:param as_dataframe: (optional) Automatically extract the :class:`~pubchempy.Substance` properties into a pandas
:class:`~pandas.DataFrame` and return that.
"""
results = get_json(identifier, namespace, 'substance', **kwargs)
substances = [Substance(r) for r in results['PC_Substances']] if results else []
if as_dataframe:
return substances_to_frame(substances)
return substances
def get_assays(identifier, namespace='aid', **kwargs):
"""Retrieve the specified assay records from PubChem.
:param identifier: The assay identifier to use as a search query.
:param namespace: (optional) The identifier type.
"""
results = get_json(identifier, namespace, 'assay', 'description', **kwargs)
return [Assay(r) for r in results['PC_AssayContainer']] if results else []
# Allows properties to optionally be specified as underscore_separated, consistent with Compound attributes
PROPERTY_MAP = {
'molecular_formula': 'MolecularFormula',
'molecular_weight': 'MolecularWeight',
'canonical_smiles': 'CanonicalSMILES',
'isomeric_smiles': 'IsomericSMILES',
'inchi': 'InChI',
'inchikey': 'InChIKey',
'iupac_name': 'IUPACName',
'xlogp': 'XLogP',
'exact_mass': 'ExactMass',
'monoisotopic_mass': 'MonoisotopicMass',
'tpsa': 'TPSA',
'complexity': 'Complexity',
'charge': 'Charge',
'h_bond_donor_count': 'HBondDonorCount',
'h_bond_acceptor_count': 'HBondAcceptorCount',
'rotatable_bond_count': 'RotatableBondCount',
'heavy_atom_count': 'HeavyAtomCount',
'isotope_atom_count': 'IsotopeAtomCount',
'atom_stereo_count': 'AtomStereoCount',
'defined_atom_stereo_count': 'DefinedAtomStereoCount',
'undefined_atom_stereo_count': 'UndefinedAtomStereoCount',
'bond_stereo_count': 'BondStereoCount',
'defined_bond_stereo_count': 'DefinedBondStereoCount',
'undefined_bond_stereo_count': 'UndefinedBondStereoCount',
'covalent_unit_count': 'CovalentUnitCount',
'volume_3d': 'Volume3D',
'conformer_rmsd_3d': 'ConformerModelRMSD3D',
'conformer_model_rmsd_3d': 'ConformerModelRMSD3D',
'x_steric_quadrupole_3d': 'XStericQuadrupole3D',
'y_steric_quadrupole_3d': 'YStericQuadrupole3D',
'z_steric_quadrupole_3d': 'ZStericQuadrupole3D',
'feature_count_3d': 'FeatureCount3D',
'feature_acceptor_count_3d': 'FeatureAcceptorCount3D',
'feature_donor_count_3d': 'FeatureDonorCount3D',
'feature_anion_count_3d': 'FeatureAnionCount3D',
'feature_cation_count_3d': 'FeatureCationCount3D',
'feature_ring_count_3d': 'FeatureRingCount3D',
'feature_hydrophobe_count_3d': 'FeatureHydrophobeCount3D',
'effective_rotor_count_3d': 'EffectiveRotorCount3D',
'conformer_count_3d': 'ConformerCount3D',
}
def get_properties(properties, identifier, namespace='cid', searchtype=None, as_dataframe=False, **kwargs):
"""Retrieve the specified properties from PubChem.
:param identifier: The compound, substance or assay identifier to use as a search query.
:param namespace: (optional) The identifier type.
:param searchtype: (optional) The advanced search type, one of substructure, superstructure or similarity.
:param as_dataframe: (optional) Automatically extract the properties into a pandas :class:`~pandas.DataFrame`.
"""
if isinstance(properties, text_types):
properties = properties.split(',')
properties = ','.join([PROPERTY_MAP.get(p, p) for p in properties])
properties = 'property/%s' % properties
results = get_json(identifier, namespace, 'compound', properties, searchtype=searchtype, **kwargs)
results = results['PropertyTable']['Properties'] if results else []
if as_dataframe:
import pandas as pd
return pd.DataFrame.from_records(results, index='CID')
return results
def get_synonyms(identifier, namespace='cid', domain='compound', searchtype=None, **kwargs):
results = get_json(identifier, namespace, domain, 'synonyms', searchtype=searchtype, **kwargs)
return results['InformationList']['Information'] if results else []
def get_cids(identifier, namespace='name', domain='compound', searchtype=None, **kwargs):
results = get_json(identifier, namespace, domain, 'cids', searchtype=searchtype, **kwargs)
if not results:
return []
elif 'IdentifierList' in results:
return results['IdentifierList']['CID']
elif 'InformationList' in results:
return results['InformationList']['Information']
def get_sids(identifier, namespace='cid', domain='compound', searchtype=None, **kwargs):
results = get_json(identifier, namespace, domain, 'sids', searchtype=searchtype, **kwargs)
if not results:
return []
elif 'IdentifierList' in results:
return results['IdentifierList']['SID']
elif 'InformationList' in results:
return results['InformationList']['Information']
def get_aids(identifier, namespace='cid', domain='compound', searchtype=None, **kwargs):
results = get_json(identifier, namespace, domain, 'aids', searchtype=searchtype, **kwargs)
if not results:
return []
elif 'IdentifierList' in results:
return results['IdentifierList']['AID']
elif 'InformationList' in results:
return results['InformationList']['Information']
def get_all_sources(domain='substance'):
"""Return a list of all current depositors of substances or assays."""
results = json.loads(get(domain, None, 'sources').decode())
return results['InformationList']['SourceName']
def download(outformat, path, identifier, namespace='cid', domain='compound', operation=None, searchtype=None,
overwrite=False, **kwargs):
"""Format can be XML, ASNT/B, JSON, SDF, CSV, PNG, TXT."""
response = get(identifier, namespace, domain, operation, outformat, searchtype, **kwargs)
if not overwrite and os.path.isfile(path):
raise IOError("%s already exists. Use 'overwrite=True' to overwrite it." % path)
with open(path, 'wb') as f:
f.write(response)
def memoized_property(fget):
"""Decorator to create memoized properties.
Used to cache :class:`~pubchempy.Compound` and :class:`~pubchempy.Substance` properties that require an additional
request.
"""
attr_name = '_{0}'.format(fget.__name__)
@functools.wraps(fget)
def fget_memoized(self):
if not hasattr(self, attr_name):
setattr(self, attr_name, fget(self))
return getattr(self, attr_name)
return property(fget_memoized)
def deprecated(message=None):
"""Decorator to mark functions as deprecated. A warning will be emitted when the function is used."""
def deco(func):
@functools.wraps(func)
def wrapped(*args, **kwargs):
warnings.warn(
message or 'Call to deprecated function {}'.format(func.__name__),
category=PubChemPyDeprecationWarning,
stacklevel=2
)
return func(*args, **kwargs)
return wrapped
return deco
class Atom(object):
"""Class to represent an atom in a :class:`~pubchempy.Compound`."""
def __init__(self, aid, number, x=None, y=None, z=None, charge=0):
"""Initialize with an atom ID, atomic number, coordinates and optional change.
:param int aid: Atom ID
:param int number: Atomic number
:param float x: X coordinate.
:param float y: Y coordinate.
:param float z: (optional) Z coordinate.
:param int charge: (optional) Formal charge on atom.
"""
self.aid = aid
"""The atom ID within the owning Compound."""
self.number = number
"""The atomic number for this atom."""
self.x = x
"""The x coordinate for this atom."""
self.y = y
"""The y coordinate for this atom."""
self.z = z
"""The z coordinate for this atom. Will be ``None`` in 2D Compound records."""
self.charge = charge
"""The formal charge on this atom."""
def __repr__(self):
return 'Atom(%s, %s)' % (self.aid, self.element)
def __eq__(self, other):
return (isinstance(other, type(self)) and self.aid == other.aid and self.element == other.element and
self.x == other.x and self.y == other.y and self.z == other.z and self.charge == other.charge)
@deprecated('Dictionary style access to Atom attributes is deprecated')
def __getitem__(self, prop):
"""Allow dict-style access to attributes to ease transition from when atoms were dicts."""
if prop in {'element', 'x', 'y', 'z', 'charge'}:
return getattr(self, prop)
raise KeyError(prop)
@deprecated('Dictionary style access to Atom attributes is deprecated')
def __setitem__(self, prop, val):
"""Allow dict-style setting of attributes to ease transition from when atoms were dicts."""
setattr(self, prop, val)
@deprecated('Dictionary style access to Atom attributes is deprecated')
def __contains__(self, prop):
"""Allow dict-style checking of attributes to ease transition from when atoms were dicts."""
if prop in {'element', 'x', 'y', 'z', 'charge'}:
return getattr(self, prop) is not None
return False
@property
def element(self):
"""The element symbol for this atom."""
return ELEMENTS.get(self.number, None)
def to_dict(self):
"""Return a dictionary containing Atom data."""
data = {'aid': self.aid, 'number': self.number, 'element': self.element}
for coord in {'x', 'y', 'z'}:
if getattr(self, coord) is not None:
data[coord] = getattr(self, coord)
if self.charge is not 0:
data['charge'] = self.charge
return data
def set_coordinates(self, x, y, z=None):
"""Set all coordinate dimensions at once."""
self.x = x
self.y = y
self.z = z
@property
def coordinate_type(self):
"""Whether this atom has 2D or 3D coordinates."""
return '2d' if self.z is None else '3d'
class Bond(object):
"""Class to represent a bond between two atoms in a :class:`~pubchempy.Compound`."""
def __init__(self, aid1, aid2, order=BondType.SINGLE, style=None):
"""Initialize with begin and end atom IDs, bond order and bond style.
:param int aid1: Begin atom ID.
:param int aid2: End atom ID.
:param int order: Bond order.
"""
self.aid1 = aid1
"""ID of the begin atom of this bond."""
self.aid2 = aid2
"""ID of the end atom of this bond."""
self.order = order
"""Bond order."""
self.style = style
"""Bond style annotation."""
def __repr__(self):
return 'Bond(%s, %s, %s)' % (self.aid1, self.aid2, self.order)
def __eq__(self, other):
return (isinstance(other, type(self)) and self.aid1 == other.aid1 and self.aid2 == other.aid2 and
self.order == other.order and self.style == other.style)
@deprecated('Dictionary style access to Bond attributes is deprecated')
def __getitem__(self, prop):
"""Allow dict-style access to attributes to ease transition from when bonds were dicts."""
if prop in {'order', 'style'}:
return getattr(self, prop)
raise KeyError(prop)
@deprecated('Dictionary style access to Bond attributes is deprecated')
def __setitem__(self, prop, val):
"""Allow dict-style setting of attributes to ease transition from when bonds were dicts."""
setattr(self, prop, val)
@deprecated('Dictionary style access to Atom attributes is deprecated')
def __contains__(self, prop):
"""Allow dict-style checking of attributes to ease transition from when bonds were dicts."""
if prop in {'order', 'style'}:
return getattr(self, prop) is not None
return False
@deprecated('Dictionary style access to Atom attributes is deprecated')
def __delitem__(self, prop):
"""Delete the property prop from the wrapped object."""
if not hasattr(self.__wrapped, prop):
raise KeyError(prop)
delattr(self.__wrapped, prop)
def to_dict(self):
"""Return a dictionary containing Bond data."""
data = {'aid1': self.aid1, 'aid2': self.aid2, 'order': self.order}
if self.style is not None:
data['style'] = self.style
return data
class Compound(object):
"""Corresponds to a single record from the PubChem Compound database.
The PubChem Compound database is constructed from the Substance database using a standardization and deduplication
process. Each Compound is uniquely identified by a CID.
"""
def __init__(self, record):
"""Initialize with a record dict from the PubChem PUG REST service.
For most users, the ``from_cid()`` class method is probably a better way of creating Compounds.
:param dict record: A compound record returned by the PubChem PUG REST service.
"""
self._record = None
self._atoms = {}
self._bonds = {}
self.record = record
@property
def record(self):
"""The raw compound record returned by the PubChem PUG REST service."""
return self._record
@record.setter
def record(self, record):
self._record = record
log.debug('Created %s' % self)
self._setup_atoms()
self._setup_bonds()
def _setup_atoms(self):
"""Derive Atom objects from the record."""
# Delete existing atoms
self._atoms = {}
# Create atoms
aids = self.record['atoms']['aid']
elements = self.record['atoms']['element']
if not len(aids) == len(elements):
raise ResponseParseError('Error parsing atom elements')
for aid, element in zip(aids, elements):
self._atoms[aid] = Atom(aid=aid, number=element)
# Add coordinates
if 'coords' in self.record:
coord_ids = self.record['coords'][0]['aid']
xs = self.record['coords'][0]['conformers'][0]['x']
ys = self.record['coords'][0]['conformers'][0]['y']
zs = self.record['coords'][0]['conformers'][0].get('z', [])
if not len(coord_ids) == len(xs) == len(ys) == len(self._atoms) or (zs and not len(zs) == len(coord_ids)):
raise ResponseParseError('Error parsing atom coordinates')
for aid, x, y, z in zip_longest(coord_ids, xs, ys, zs):
self._atoms[aid].set_coordinates(x, y, z)
# Add charges
if 'charge' in self.record['atoms']:
for charge in self.record['atoms']['charge']:
self._atoms[charge['aid']].charge = charge['value']
def _setup_bonds(self):
"""Derive Bond objects from the record."""
self._bonds = {}
if 'bonds' not in self.record:
return
# Create bonds
aid1s = self.record['bonds']['aid1']
aid2s = self.record['bonds']['aid2']
orders = self.record['bonds']['order']
if not len(aid1s) == len(aid2s) == len(orders):
raise ResponseParseError('Error parsing bonds')
for aid1, aid2, order in zip(aid1s, aid2s, orders):
self._bonds[frozenset((aid1, aid2))] = Bond(aid1=aid1, aid2=aid2, order=order)
# Add styles
if 'coords' in self.record and 'style' in self.record['coords'][0]['conformers'][0]:
aid1s = self.record['coords'][0]['conformers'][0]['style']['aid1']
aid2s = self.record['coords'][0]['conformers'][0]['style']['aid2']
styles = self.record['coords'][0]['conformers'][0]['style']['annotation']
for aid1, aid2, style in zip(aid1s, aid2s, styles):
self._bonds[frozenset((aid1, aid2))].style = style
@classmethod
def from_cid(cls, cid, **kwargs):
"""Retrieve the Compound record for the specified CID.
Usage::
c = Compound.from_cid(6819)
:param int cid: The PubChem Compound Identifier (CID).
"""
record = json.loads(request(cid, **kwargs).read().decode())['PC_Compounds'][0]
return cls(record)
def __repr__(self):
return 'Compound(%s)' % self.cid if self.cid else 'Compound()'
def __eq__(self, other):
return isinstance(other, type(self)) and self.record == other.record
def to_dict(self, properties=None):
"""Return a dictionary containing Compound data. Optionally specify a list of the desired properties.
synonyms, aids and sids are not included unless explicitly specified using the properties parameter. This is
because they each require an extra request.
"""
if not properties:
skip = {'aids', 'sids', 'synonyms'}
properties = [p for p in dir(Compound) if isinstance(getattr(Compound, p), property) and p not in skip]
return {p: [i.to_dict() for i in getattr(self, p)] if p in {'atoms', 'bonds'} else getattr(self, p) for p in properties}
def to_series(self, properties=None):
"""Return a pandas :class:`~pandas.Series` containing Compound data. Optionally specify a list of the desired
properties.
synonyms, aids and sids are not included unless explicitly specified using the properties parameter. This is
because they each require an extra request.
"""
import pandas as pd
return pd.Series(self.to_dict(properties))
@property
def cid(self):
"""The PubChem Compound Identifier (CID).
.. note::
When searching using a SMILES or InChI query that is not present in the PubChem Compound database, an
automatically generated record may be returned that contains properties that have been calculated on the
fly. These records will not have a CID property.
"""
if 'id' in self.record and 'id' in self.record['id'] and 'cid' in self.record['id']['id']:
return self.record['id']['id']['cid']
@property
def elements(self):
"""List of element symbols for atoms in this Compound."""
return [a.element for a in self.atoms]
@property
def atoms(self):
"""List of :class:`Atoms <pubchempy.Atom>` in this Compound."""
return sorted(self._atoms.values(), key=lambda x: x.aid)
@property
def bonds(self):
"""List of :class:`Bonds <pubchempy.Bond>` between :class:`Atoms <pubchempy.Atom>` in this Compound."""
return sorted(self._bonds.values(), key=lambda x: (x.aid1, x.aid2))
@memoized_property
def synonyms(self):
"""A ranked list of all the names associated with this Compound.
Requires an extra request. Result is cached.
"""
if self.cid:
results = get_json(self.cid, operation='synonyms')
return results['InformationList']['Information'][0]['Synonym'] if results else []
@memoized_property
def sids(self):
"""Requires an extra request. Result is cached."""
if self.cid:
results = get_json(self.cid, operation='sids')
return results['InformationList']['Information'][0]['SID'] if results else []
@memoized_property
def aids(self):
"""Requires an extra request. Result is cached."""
if self.cid:
results = get_json(self.cid, operation='aids')
return results['InformationList']['Information'][0]['AID'] if results else []
@property
def coordinate_type(self):
if CoordinateType.TWO_D in self.record['coords'][0]['type']:
return '2d'
elif CoordinateType.THREE_D in self.record['coords'][0]['type']:
return '3d'
@property
def charge(self):
"""Formal charge on this Compound."""
return self.record['charge'] if 'charge' in self.record else 0
@property
def molecular_formula(self):
"""Molecular formula."""
return _parse_prop({'label': 'Molecular Formula'}, self.record['props'])
@property
def molecular_weight(self):
"""Molecular Weight."""
return _parse_prop({'label': 'Molecular Weight'}, self.record['props'])
@property
def canonical_smiles(self):
"""Canonical SMILES, with no stereochemistry information."""
return _parse_prop({'label': 'SMILES', 'name': 'Canonical'}, self.record['props'])
@property
def isomeric_smiles(self):
"""Isomeric SMILES."""
return _parse_prop({'label': 'SMILES', 'name': 'Isomeric'}, self.record['props'])
@property
def inchi(self):
"""InChI string."""
return _parse_prop({'label': 'InChI', 'name': 'Standard'}, self.record['props'])
@property
def inchikey(self):
"""InChIKey."""
return _parse_prop({'label': 'InChIKey', 'name': 'Standard'}, self.record['props'])
@property
def iupac_name(self):
"""Preferred IUPAC name."""
# Note: Allowed, CAS-like Style, Preferred, Systematic, Traditional are available in full record
return _parse_prop({'label': 'IUPAC Name', 'name': 'Preferred'}, self.record['props'])
@property
def xlogp(self):
"""XLogP."""
return _parse_prop({'label': 'Log P'}, self.record['props'])
@property
def exact_mass(self):
"""Exact mass."""
return _parse_prop({'label': 'Mass', 'name': 'Exact'}, self.record['props'])
@property
def monoisotopic_mass(self):
"""Monoisotopic mass."""
return _parse_prop({'label': 'Weight', 'name': 'MonoIsotopic'}, self.record['props'])
@property
def tpsa(self):
"""Topological Polar Surface Area."""
return _parse_prop({'implementation': 'E_TPSA'}, self.record['props'])
@property
def complexity(self):
"""Complexity."""
return _parse_prop({'implementation': 'E_COMPLEXITY'}, self.record['props'])
@property
def h_bond_donor_count(self):
"""Hydrogen bond donor count."""
return _parse_prop({'implementation': 'E_NHDONORS'}, self.record['props'])
@property
def h_bond_acceptor_count(self):
"""Hydrogen bond acceptor count."""
return _parse_prop({'implementation': 'E_NHACCEPTORS'}, self.record['props'])
@property
def rotatable_bond_count(self):
"""Rotatable bond count."""
return _parse_prop({'implementation': 'E_NROTBONDS'}, self.record['props'])
@property
def fingerprint(self):
"""Raw padded and hex-encoded fingerprint, as returned by the PUG REST API."""
return _parse_prop({'implementation': 'E_SCREEN'}, self.record['props'])
@property
def cactvs_fingerprint(self):
"""PubChem CACTVS fingerprint.
Each bit in the fingerprint represents the presence or absence of one of 881 chemical substructures.
More information at ftp://ftp.ncbi.nlm.nih.gov/pubchem/specifications/pubchem_fingerprints.txt
"""
# Skip first 4 bytes (contain length of fingerprint) and last 7 bits (padding) then re-pad to 881 bits
return '{0:020b}'.format(int(self.fingerprint[8:], 16))[:-7].zfill(881)
@property
def heavy_atom_count(self):
"""Heavy atom count."""
if 'count' in self.record and 'heavy_atom' in self.record['count']:
return self.record['count']['heavy_atom']
@property
def isotope_atom_count(self):
"""Isotope atom count."""
if 'count' in self.record and 'isotope_atom' in self.record['count']:
return self.record['count']['isotope_atom']
@property
def atom_stereo_count(self):
"""Atom stereocenter count."""
if 'count' in self.record and 'atom_chiral' in self.record['count']:
return self.record['count']['atom_chiral']
@property
def defined_atom_stereo_count(self):
"""Defined atom stereocenter count."""
if 'count' in self.record and 'atom_chiral_def' in self.record['count']:
return self.record['count']['atom_chiral_def']
@property
def undefined_atom_stereo_count(self):
"""Undefined atom stereocenter count."""
if 'count' in self.record and 'atom_chiral_undef' in self.record['count']:
return self.record['count']['atom_chiral_undef']
@property
def bond_stereo_count(self):
"""Bond stereocenter count."""
if 'count' in self.record and 'bond_chiral' in self.record['count']:
return self.record['count']['bond_chiral']
@property
def defined_bond_stereo_count(self):
"""Defined bond stereocenter count."""
if 'count' in self.record and 'bond_chiral_def' in self.record['count']:
return self.record['count']['bond_chiral_def']
@property
def undefined_bond_stereo_count(self):
"""Undefined bond stereocenter count."""
if 'count' in self.record and 'bond_chiral_undef' in self.record['count']:
return self.record['count']['bond_chiral_undef']
@property
def covalent_unit_count(self):
"""Covalently-bonded unit count."""
if 'count' in self.record and 'covalent_unit' in self.record['count']:
return self.record['count']['covalent_unit']
@property
def volume_3d(self):
conf = self.record['coords'][0]['conformers'][0]
if 'data' in conf:
return _parse_prop({'label': 'Shape', 'name': 'Volume'}, conf['data'])
@property
def multipoles_3d(self):
conf = self.record['coords'][0]['conformers'][0]
if 'data' in conf:
return _parse_prop({'label': 'Shape', 'name': 'Multipoles'}, conf['data'])
@property
def conformer_rmsd_3d(self):
coords = self.record['coords'][0]
if 'data' in coords:
return _parse_prop({'label': 'Conformer', 'name': 'RMSD'}, coords['data'])
@property
def effective_rotor_count_3d(self):
return _parse_prop({'label': 'Count', 'name': 'Effective Rotor'}, self.record['props'])
@property
def pharmacophore_features_3d(self):
return _parse_prop({'label': 'Features', 'name': 'Pharmacophore'}, self.record['props'])
@property
def mmff94_partial_charges_3d(self):
return _parse_prop({'label': 'Charge', 'name': 'MMFF94 Partial'}, self.record['props'])
@property
def mmff94_energy_3d(self):
conf = self.record['coords'][0]['conformers'][0]
if 'data' in conf:
return _parse_prop({'label': 'Energy', 'name': 'MMFF94 NoEstat'}, conf['data'])