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# MDAnalysis --- https://www.mdanalysis.org
# Copyright (c) 2006-2017 The MDAnalysis Development Team and contributors
# (see the file AUTHORS for the full list of names)
#
# Released under the GNU Public Licence, v2 or any higher version
#
# Please cite your use of MDAnalysis in published work:
#
# R. J. Gowers, M. Linke, J. Barnoud, T. J. E. Reddy, M. N. Melo, S. L. Seyler,
# D. L. Dotson, J. Domanski, S. Buchoux, I. M. Kenney, and O. Beckstein.
# MDAnalysis: A Python package for the rapid analysis of molecular dynamics
# simulations. In S. Benthall and S. Rostrup editors, Proceedings of the 15th
# Python in Science Conference, pages 102-109, Austin, TX, 2016. SciPy.
# doi: 10.25080/majora-629e541a-00e
#
# N. Michaud-Agrawal, E. J. Denning, T. B. Woolf, and O. Beckstein.
# MDAnalysis: A Toolkit for the Analysis of Molecular Dynamics Simulations.
# J. Comput. Chem. 32 (2011), 2319--2327, doi:10.1002/jcc.21787
#
"""ParmEd structure I/O --- :mod:`MDAnalysis.converters.ParmEd`
================================================================
Read coordinates data from a `ParmEd <https://parmed.github.io/ParmEd/html>`_ :class:`parmed.structure.Structure`
with :class:`ParmEdReader` into a MDAnalysis Universe. Convert it back to a
:class:`parmed.structure.Structure` with :class:`ParmEdConverter`.
Example
-------
ParmEd has some neat functions. One such is `HMassRepartition`_.
This function changes the mass of the hydrogens in your system to your desired
value. It then adjusts the mass of the atom to which it is bonded by the same
amount, so that the total mass is unchanged. ::
>>> import MDAnalysis as mda
>>> from MDAnalysis.tests.datafiles import PRM
>>> u = mda.Universe(PRM)
>>> u.atoms.masses[:10]
array([14.01 , 1.008, 1.008, 1.008, 12.01 , 1.008, 12.01 , 1.008,
1.008, 1.008])
We can convert our universe to a ParmEd structure to change our hydrogen
masses. ::
>>> import parmed.tools as pmt
>>> parm = u.atoms.convert_to('PARMED')
>>> hmass = pmt.HMassRepartition(parm, 5) # convert to 5 daltons
>>> hmass.execute()
We can then convert it back to an MDAnalysis Universe for further analysis. ::
>>> u2 = mda.Universe(parm)
>>> u2.atoms.masses[:10]
array([2.03399992, 5. , 5. , 5. , 8.01799965,
5. , 0.034 , 5. , 5. , 5. ])
.. _`HMassRepartition`: http://parmed.github.io/ParmEd/html/parmed.html#hmassrepartition
Classes
-------
.. autoclass:: ParmEdReader
:members:
.. autoclass:: ParmEdConverter
:members:
.. versionchanged:: 2.0.0
The ParmEdReader and ParmEdConverter classes were moved from :mod:`~MDAnalysis.coordinates`
to :mod:`~MDAnalysis.converters`
"""
import functools
import itertools
import warnings
from ..coordinates import base
from ..topology.tables import SYMB2Z
from ..core.universe import Universe
from ..exceptions import NoDataError
[docs]class ParmEdReader(base.SingleFrameReaderBase):
"""Coordinate reader for ParmEd."""
format = 'PARMED'
# Structure.coordinates always in Angstrom
units = {'time': None, 'length': 'Angstrom'}
@staticmethod
def _format_hint(thing):
"""Can this reader read *thing*?
.. versionadded:: 1.0.0
"""
try:
import parmed as pmd
except ImportError:
# if we can't import parmed, it's probably not parmed
return False
else:
return isinstance(thing, pmd.Structure)
def _read_first_frame(self):
self.n_atoms = len(self.filename.atoms)
self.ts = ts = self._Timestep(self.n_atoms,
**self._ts_kwargs)
if self.filename.coordinates is not None:
ts._pos = self.filename.coordinates
# optional field
ts.dimensions = self.filename.box
ts.frame = 0
return ts
MDA2PMD = {
'tempfactor': 'bfactor',
'gbscreen': 'screen',
'altLoc': 'altloc',
'nbindex': 'nb_idx',
'solventradius': 'solvent_radius',
'id': 'number'
}
def get_indices_from_subset(i, atomgroup=None, universe=None):
return atomgroup[universe.atoms[i]]
[docs]class ParmEdConverter(base.ConverterBase):
"""Convert MDAnalysis AtomGroup or Universe to ParmEd :class:`~parmed.structure.Structure`.
Example
-------
.. code-block:: python
import parmed as pmd
import MDAnalysis as mda
from MDAnalysis.tests.datafiles import GRO
pgro = pmd.load_file(GRO)
mgro = mda.Universe(pgro)
parmed_subset = mgro.select_atoms('resname SOL').convert_to('PARMED')
"""
lib = 'PARMED'
units = {'time': None, 'length': 'Angstrom'}
[docs] def convert(self, obj):
"""Write selection at current trajectory frame to :class:`~parmed.structure.Structure`.
Parameters
-----------
obj : AtomGroup or Universe or :class:`Timestep`
"""
try:
import parmed as pmd
except ImportError:
raise ImportError('ParmEd is required for ParmEdConverter but '
'is not installed. Try installing it with \n'
'pip install parmed')
try:
# make sure to use atoms (Issue 46)
ag_or_ts = obj.atoms
except AttributeError:
raise TypeError("No atoms found in obj argument") from None
# Check for topology information
missing_topology = []
try:
names = ag_or_ts.names
except (AttributeError, NoDataError):
names = itertools.cycle(('X',))
missing_topology.append('names')
try:
resnames = ag_or_ts.resnames
except (AttributeError, NoDataError):
resnames = itertools.cycle(('UNK',))
missing_topology.append('resnames')
if missing_topology:
warnings.warn(
"Supplied AtomGroup was missing the following attributes: "
"{miss}. These will be written with default values. "
"Alternatively these can be supplied as keyword arguments."
"".format(miss=', '.join(missing_topology)))
try:
positions = ag_or_ts.positions
except (AttributeError, NoDataError):
positions = [None]*ag_or_ts.n_atoms
try:
velocities = ag_or_ts.velocities
except (AttributeError, NoDataError):
velocities = [None]*ag_or_ts.n_atoms
atom_kwargs = []
for atom, name, resname, xyz, vel in zip(ag_or_ts, names, resnames,
positions, velocities):
akwargs = {'name': name}
chain_seg = {'segid': atom.segid}
for attrname in ('mass', 'charge', 'type',
'altLoc', 'tempfactor',
'occupancy', 'gbscreen', 'solventradius',
'nbindex', 'rmin', 'epsilon', 'rmin14',
'epsilon14', 'id'):
try:
akwargs[MDA2PMD.get(attrname, attrname)] = getattr(atom, attrname)
except AttributeError:
pass
try:
el = atom.element.lower().capitalize()
akwargs['atomic_number'] = SYMB2Z[el]
except (KeyError, AttributeError):
try:
tp = atom.type.lower().capitalize()
akwargs['atomic_number'] = SYMB2Z[tp]
except (KeyError, AttributeError):
pass
try:
chain_seg['chain'] = atom.chainID
except AttributeError:
pass
try:
chain_seg['inscode'] = atom.icode
except AttributeError:
pass
atom_kwargs.append((akwargs, resname, atom.resid, chain_seg, xyz, vel))
struct = pmd.Structure()
for akwarg, resname, resid, kw, xyz, vel in atom_kwargs:
atom = pmd.Atom(**akwarg)
if xyz is not None:
atom.xx, atom.xy, atom.xz = xyz
if vel is not None:
atom.vx, atom.vy, atom.vz = vel
atom.atom_type = pmd.AtomType(akwarg['name'], None,
akwarg['mass'],
atomic_number=akwargs.get('atomic_number'))
struct.add_atom(atom, resname, resid, **kw)
try:
struct.box = ag_or_ts.dimensions
except AttributeError:
struct.box = None
if hasattr(ag_or_ts, 'universe'):
atomgroup = {atom: index for index,
atom in enumerate(list(ag_or_ts))}
get_atom_indices = functools.partial(get_indices_from_subset,
atomgroup=atomgroup,
universe=ag_or_ts.universe)
else:
get_atom_indices = lambda x: x
# bonds
try:
params = ag_or_ts.intra_bonds
except AttributeError:
pass
else:
for p in params:
atoms = [struct.atoms[i] for i in map(get_atom_indices,
p.indices)]
try:
for obj in p.type:
bond = pmd.Bond(*atoms, type=obj.type, order=obj.order)
struct.bonds.append(bond)
if isinstance(obj.type, pmd.BondType):
struct.bond_types.append(bond.type)
bond.type.list = struct.bond_types
except (TypeError, AttributeError):
order = p.order if p.order is not None else 1
btype = getattr(p.type, 'type', None)
bond = pmd.Bond(*atoms, type=btype, order=order)
struct.bonds.append(bond)
if isinstance(bond.type, pmd.BondType):
struct.bond_types.append(bond.type)
bond.type.list = struct.bond_types
# dihedrals
try:
params = ag_or_ts.dihedrals.atomgroup_intersection(ag_or_ts,
strict=True)
except AttributeError:
pass
else:
for p in params:
atoms = [struct.atoms[i] for i in map(get_atom_indices,
p.indices)]
try:
for obj in p.type:
imp = getattr(obj, 'improper', False)
ign = getattr(obj, 'ignore_end', False)
dih = pmd.Dihedral(*atoms, type=obj.type,
ignore_end=ign, improper=imp)
struct.dihedrals.append(dih)
if isinstance(dih.type, pmd.DihedralType):
struct.dihedral_types.append(dih.type)
dih.type.list = struct.dihedral_types
except (TypeError, AttributeError):
btype = getattr(p.type, 'type', None)
imp = getattr(p.type, 'improper', False)
ign = getattr(p.type, 'ignore_end', False)
dih = pmd.Dihedral(*atoms, type=btype,
improper=imp, ignore_end=ign)
struct.dihedrals.append(dih)
if isinstance(dih.type, pmd.DihedralType):
struct.dihedral_types.append(dih.type)
dih.type.list = struct.dihedral_types
for param, pmdtype, trackedlist, typelist, clstype in (
('ureybradleys', pmd.UreyBradley, struct.urey_bradleys, struct.urey_bradley_types, pmd.BondType),
('angles', pmd.Angle, struct.angles, struct.angle_types, pmd.AngleType),
('impropers', pmd.Improper, struct.impropers, struct.improper_types, pmd.ImproperType),
('cmaps', pmd.Cmap, struct.cmaps, struct.cmap_types, pmd.CmapType)
):
try:
params = getattr(ag_or_ts, param)
values = params.atomgroup_intersection(ag_or_ts, strict=True)
except AttributeError:
pass
else:
for v in values:
atoms = [struct.atoms[i] for i in map(get_atom_indices,
v.indices)]
try:
for parmed_obj in v.type:
p = pmdtype(*atoms, type=parmed_obj.type)
trackedlist.append(p)
if isinstance(p.type, clstype):
typelist.append(p.type)
p.type.list = typelist
except (TypeError, AttributeError):
vtype = getattr(v.type, 'type', None)
p = pmdtype(*atoms, type=vtype)
trackedlist.append(p)
if isinstance(p.type, clstype):
typelist.append(p.type)
p.type.list = typelist
return struct