Source code for MDAnalysis.converters.OpenMMParser
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"""OpenMM topology parser :mod:`MDAnalysis.converters.OpenMMParser`
===================================================================
.. versionadded:: 2.0.0
Converts an
`OpenMM topology <http://docs.openmm.org/latest/api-python/generated/openmm.app.topology.Topology.html#openmm.app.topology.Topology>`_
:class:`openmm.app.topology.Topology` into a :class:`MDAnalysis.core.Topology`.
Also converts some objects within the
`OpenMM Application layer <http://docs.openmm.org/latest/api-python/app.html>`_
- `openmm.app.pdbfile.PDBFile <http://docs.openmm.org/latest/api-python/generated/openmm.app.pdbfile.PDBFile.html#openmm.app.pdbfile.PDBFile>`_
- `openmm.app.simulation.Simulation <http://docs.openmm.org/latest/api-python/generated/openmm.app.simulation.Simulation.html#openmm.app.simulation.Simulation>`_
- `openmm.app.modeller.Modeller <http://docs.openmm.org/latest/api-python/generated/openmm.app.modeller.Modeller.html#openmm.app.modeller.Modeller>`_
- `openmm.app.pdbxfile.PDBxFile <http://docs.openmm.org/latest/api-python/generated/openmm.app.pdbxfile.PDBxFile.html#openmm.app.pdbxfile.PDBxFile>`_
The :class:`OpenMMTopologyParser` generates a topology from an OpenMM Topology object.
Classes
-------
.. autoclass:: OpenMMTopologyParser
:members:
:inherited-members:
.. autoclass:: OpenMMAppTopologyParser
:members:
:inherited-members:
"""
import numpy as np
import warnings
from ..topology.base import TopologyReaderBase
from ..topology.tables import SYMB2Z
from ..topology.guessers import guess_types, guess_masses
from ..core.topology import Topology
from ..core.topologyattrs import (
Atomids,
Atomnames,
Atomtypes,
Bonds,
ChainIDs,
Elements,
Masses,
Resids,
Resnums,
Resnames,
Segids,
)
[docs]class OpenMMTopologyParser(TopologyReaderBase):
format = "OPENMMTOPOLOGY"
@staticmethod
def _format_hint(thing):
"""Can this Parser read object *thing*?
"""
try:
from openmm import app
except ImportError:
try: # pragma: no cover
from simtk.openmm import app
except ImportError:
return False
else:
return isinstance(thing, app.Topology)
def _mda_topology_from_omm_topology(self, omm_topology):
""" Construct mda topology from omm topology
Can be used for any openmm object that contains a topology object
Parameters
----------
omm_topology: openmm.Topology
Returns
-------
top : MDAnalysis.core.topology.Topology
Note
----
When none of the elements are present in the openmm topolgy, their
atomtypes are guessed using their names and their masses are
then guessed using their atomtypes.
When partial elements are present, values from available elements
are used whereas the absent elements are assigned an empty string
with their atomtype set to 'X' and mass set to 0.0.
For elements with invalid and unreal symbols, the symbol is used
as it is for atomtypes but an empty string is used for elements.
.. versionchanged:: 2.2.0
The parser now works when element attribute is missing in some or
all the atoms.
"""
try:
from openmm.unit import daltons
except ImportError:
try:
from simtk.unit import daltons
except ImportError:
msg = ("OpenMM is required for the OpenMMParser but "
"it's not installed. Try installing it with \n"
"conda install -c conda-forge openmm")
raise ImportError(msg)
atom_resindex = [a.residue.index for a in omm_topology.atoms()]
residue_segindex = [r.chain.index for r in omm_topology.residues()]
atomids = [a.id for a in omm_topology.atoms()]
atomnames = [a.name for a in omm_topology.atoms()]
chainids = [a.residue.chain.id for a in omm_topology.atoms()]
resnames = [r.name for r in omm_topology.residues()]
resids = [r.index + 1 for r in omm_topology.residues()]
resnums = resids.copy()
segids = [str(c.index) for c in omm_topology.chains()]
bonds = [(b.atom1.index, b.atom2.index) for b in omm_topology.bonds()]
bond_orders = [b.order for b in omm_topology.bonds()]
bond_types = [b.type for b in omm_topology.bonds()]
attrs = [
Atomids(np.array(atomids, dtype=np.int32)),
Atomnames(np.array(atomnames, dtype=object)),
Bonds(bonds, types=bond_types, order=bond_orders, guessed=False),
ChainIDs(np.array(chainids, dtype=object)),
Resids(resids),
Resnums(resnums),
Resnames(resnames),
Segids(segids),
]
validated_elements = []
masses = []
atomtypes = []
for a in omm_topology.atoms():
elem = a.element
if elem is not None:
if elem.symbol.capitalize() in SYMB2Z:
validated_elements.append(elem.symbol)
else:
validated_elements.append('')
atomtypes.append(elem.symbol)
masses.append(elem.mass.value_in_unit(daltons))
else:
validated_elements.append('')
masses.append(0.0)
atomtypes.append('X')
if not all(validated_elements):
if any(validated_elements):
warnings.warn("Element information missing for some atoms. "
"These have been given an empty element record ")
if any(i == 'X' for i in atomtypes):
warnings.warn("For absent elements, atomtype has been "
"set to 'X' and mass has been set to 0.0. "
"If needed these can be guessed using "
"MDAnalysis.topology.guessers.")
attrs.append(Elements(np.array(validated_elements,
dtype=object)))
else:
atomtypes = guess_types(atomnames)
masses = guess_masses(atomtypes)
wmsg = ("Element information is missing for all the atoms. "
"Elements attribute will not be populated. "
"Atomtype attribute will be guessed using atom "
"name and mass will be guessed using atomtype."
"See MDAnalysis.topology.guessers.")
warnings.warn(wmsg)
else:
attrs.append(Elements(np.array(validated_elements, dtype=object)))
attrs.append(Atomtypes(np.array(atomtypes, dtype=object)))
attrs.append(Masses(np.array(masses)))
n_atoms = len(atomids)
n_residues = len(resids)
n_segments = len(segids)
top = Topology(
n_atoms,
n_residues,
n_segments,
attrs=attrs,
atom_resindex=atom_resindex,
residue_segindex=residue_segindex,
)
return top
def parse(self, **kwargs):
omm_topology = self.filename
top = self._mda_topology_from_omm_topology(omm_topology)
return top
[docs]class OpenMMAppTopologyParser(OpenMMTopologyParser):
format = "OPENMMAPP"
@staticmethod
def _format_hint(thing):
"""Can this Parser read object *thing*?
"""
try:
from openmm import app
except ImportError:
try: # pragma: no cover
from simtk.openmm import app
except ImportError:
return False
else:
return isinstance(
thing,
(
app.PDBFile, app.Modeller,
app.Simulation, app.PDBxFile
)
)
def parse(self, **kwargs):
try:
omm_topology = self.filename.getTopology()
except AttributeError:
omm_topology = self.filename.topology
top = self._mda_topology_from_omm_topology(omm_topology)
return top