Source code for MDAnalysis.coordinates.PQR
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"""
PQR file format --- :mod:`MDAnalysis.coordinates.PQR`
=====================================================
Read atoms with charges from a PQR_ file (as written by PDB2PQR_). The
following is adopted from the description of the PQR_ format as used by APBS_:
*MDAnalysis* reads very loosely-formatted PQR files: all fields are
**whitespace-delimited** rather than the strict column formatting mandated
by the PDB_ format. This more liberal formatting allows coordinates
which are larger/smaller than ±999 Å.
MDAnalysis reads data on a per-line basis from PQR files using the following format::
recordName serial atomName residueName chainID residueNumber X Y Z charge radius
If this fails it is assumed that the *chainID* was omitted and the shorter
format is read::
recordName serial atomName residueName residueNumber X Y Z charge radius
Anything else will raise a :exc:`ValueError`.
The whitespace is the most important feature of this format: fields
*must* be separated by at least one space or tab character. The fields
are:
*recordName*
A string which specifies the type of PQR entry and should either be ATOM or
HETATM.
*serial*
An integer which provides the atom index (but note that MDAnalysis renumbers
atoms so one cannot rely on the *serial*)
*atomName*
A string which provides the atom name.
*residueName*
A string which provides the residue name.
*chainID*
An optional string which provides the chain ID of the atom.
*residueNumber*
An integer which provides the residue index.
*X Y Z*
Three floats which provide the atomic coordiantes.
*charge*
A float which provides the atomic charge (in electrons).
*radius*
A float which provides the atomic radius (in Å).
Clearly, this format can deviate wildly from PDB_ due to the use of whitespaces
rather than specific column widths and alignments. This deviation can be
particularly significant when large coordinate values are used.
Output should look like this (although the only real requirement is
*whitespace* separation between *all* entries). The chainID is optional
and can be omitted::
ATOM 1 N MET 1 -11.921 26.307 10.410 -0.3000 1.8500
ATOM 36 NH1 ARG 2 -6.545 25.499 3.854 -0.8000 1.8500
ATOM 37 HH11 ARG 2 -6.042 25.480 4.723 0.4600 0.2245
.. Warning:: Fields *must be white-space separated* or data are read
incorrectly. PDB formatted files are *not* guaranteed to be
white-space separated so extra care should be taken when quickly
converting PDB files into PQR files using simple scripts.
For example, PQR files created with PDB2PQR_ and the `--whitespace`
option are guaranteed to conform to the above format::
pdb2pqr --ff=charmm --whitespace 4ake.pdb 4ake.pqr
Notes
-----
The PQR format does not provide a means by which to provide box information.
In all cases the `dimensions` attribute will be set to `None`.
.. _PQR: https://apbs-pdb2pqr.readthedocs.io/en/latest/formats/pqr.html
.. _APBS: https://apbs-pdb2pqr.readthedocs.io/en/latest/apbs/index.html
.. _PDB2PQR: https://apbs-pdb2pqr.readthedocs.io/en/latest/pdb2pqr/index.html
.. _PDB: http://www.wwpdb.org/documentation/file-format
"""
import itertools
import numpy as np
import warnings
from ..lib import util
from . import base
[docs]class PQRReader(base.SingleFrameReaderBase):
"""Read a PQR_ file into MDAnalysis.
.. _PQR:
https://apbs-pdb2pqr.readthedocs.io/en/latest/formats/pqr.html
.. versionchanged:: 0.11.0
Frames now 0-based instead of 1-based
"""
format = 'PQR'
units = {'time': None, 'length': 'Angstrom'}
# how to slice fields[x:y] to grab coordinates
_SLICE_INDICES = {
'ORIGINAL': (-5, -2),
'NO_CHAINID': (-5, -2),
'GROMACS': (-6, -3),
}
def _read_first_frame(self):
from ..topology.PQRParser import PQRParser
flavour = None
coords = []
with util.openany(self.filename) as pqrfile:
for line in pqrfile:
if line.startswith(('ATOM', 'HETATM')):
if flavour is None:
flavour = PQRParser.guess_flavour(line)
x, y = self._SLICE_INDICES[flavour]
fields = line.split()
# convert all entries at the end once for optimal speed
coords.append(fields[x:y])
self.n_atoms = len(coords)
self.ts = self._Timestep.from_coordinates(
coords, **self._ts_kwargs)
self.ts.frame = 0 # 0-based frame number
if self.convert_units:
# in-place !
self.convert_pos_from_native(self.ts._pos)
[docs] def Writer(self, filename, **kwargs):
"""Returns a PQRWriter for *filename*.
Parameters
----------
filename : str
filename of the output PQR file
Returns
-------
:class:`PQRWriter`
"""
return PQRWriter(filename, **kwargs)
[docs]class PQRWriter(base.WriterBase):
"""Write a single coordinate frame in whitespace-separated PQR format.
Charges ("Q") are taken from the
:attr:`MDAnalysis.core.groups.Atom.charge` attribute while
radii are obtaine from the
:attr:`MDAnalysis.core.groups.Atom.radius` attribute.
* If the segid is 'SYSTEM' then it will be set to the empty
string. Otherwise the first letter will be used as the chain ID.
* The serial number always starts at 1 and increments sequentially
for the atoms.
The output format is similar to ``pdb2pqr --whitespace``.
.. versionadded:: 0.9.0
.. versionchanged:: 2.6.0
Files are now written in `wt` mode, and keep extensions, allowing
for files to be written under compressed formats
"""
format = 'PQR'
units = {'time': None, 'length': 'Angstrom'}
# serial, atomName, residueName, chainID, residueNumber, XYZ, charge, radius
fmt_ATOM = ("ATOM {serial:6d} {name:<4} {resname:<3} {chainid:1.1}"
" {resid:4d} {pos[0]:-8.3f} {pos[1]:-8.3f}"
" {pos[2]:-8.3f} {charge:-7.4f} {radius:6.4f}\n")
fmt_remark = "REMARK {0} {1}\n"
def __init__(self, filename, convert_units=True, **kwargs):
"""Set up a PQRWriter with full whitespace separation.
Parameters
----------
filename : str
output filename
convert_units: bool (optional)
units are converted to the MDAnalysis base format; [``True``]
remarks : str (optional)
remark lines (list of strings) or single string to be added to the
top of the PQR file
"""
self.filename = util.filename(filename, ext='pqr', keep=True)
self.convert_units = convert_units # convert length and time to base units
self.remarks = kwargs.pop('remarks', "PQR file written by MDAnalysis")
[docs] def write(self, selection, frame=None):
"""Write selection at current trajectory frame to file.
Parameters
----------
selection : AtomGroup or Universe
MDAnalysis AtomGroup or Universe
frame : int (optional)
optionally move to frame index `frame`; by default, write the
current frame
.. versionchanged:: 0.11.0
Frames now 0-based instead of 1-based
"""
# write() method that complies with the Trajectory API
try:
u = selection.universe
except AttributeError:
errmsg = "Input obj is neither an AtomGroup or Universe"
raise TypeError(errmsg) from None
if frame is not None:
u.trajectory[frame] # advance to frame
else:
try:
frame = u.trajectory.ts.frame
except AttributeError:
frame = 0 # should catch cases when we are analyzing a single frame(?)
atoms = selection.atoms # make sure to use atoms (Issue 46)
coordinates = atoms.positions # can write from selection == Universe (Issue 49)
if self.convert_units:
self.convert_pos_to_native(coordinates) # inplace because coordinates is already a copy
# Check atom attributes
# required:
# - name
# - resname
# - chainid
# - resid
# - position
# - charge
# - radius
attrs = {}
missing_topology = []
for attr, dflt in (
('names', itertools.cycle(('X',))),
('resnames', itertools.cycle(('UNK',))),
('resids', itertools.cycle((1,))),
('charges', itertools.cycle((0.0,))),
('radii', itertools.cycle((1.0,))),
):
try:
attrs[attr] = getattr(atoms, attr)
except AttributeError:
attrs[attr] = dflt
missing_topology.append(attr)
# chainids require special handling
# try chainids, then segids
# if neither, use ' '
# if 'SYSTEM', use ' '
try:
attrs['chainids'] = atoms.chainids
except AttributeError:
try:
attrs['chainids'] = atoms.segids
except AttributeError:
pass
if not 'chainids' in attrs or all(attrs['chainids'] == 'SYSTEM'):
attrs['chainids'] = itertools.cycle((' ',))
if 'charges' in missing_topology:
total_charge = 0.0
else:
total_charge = atoms.total_charge()
if missing_topology:
warnings.warn(
"Supplied AtomGroup was missing the following attributes: "
"{miss}. These will be written with default values. "
"".format(miss=', '.join(missing_topology)))
with util.openany(self.filename, 'wt') as pqrfile:
# Header / Remarks
# The *remarknumber* is typically 1 but :program:`pdb2pgr`
# also uses 6 for the total charge and 5 for warnings.
for rem in util.asiterable(self.remarks):
pqrfile.write(self.fmt_remark.format(rem, 1))
pqrfile.write(self.fmt_remark.format(
"Input: frame {0} of {1}".format(frame, u.trajectory.filename),
5))
pqrfile.write(self.fmt_remark.format(
"total charge: {0:+8.4f} e".format(total_charge), 6))
# Atom descriptions and coords
for atom_index, (pos, name, resname, chainid, resid, charge, radius) in enumerate(zip(
coordinates, attrs['names'], attrs['resnames'], attrs['chainids'],
attrs['resids'], attrs['charges'], attrs['radii']), start=1):
# pad so that only 4-letter atoms are left-aligned
name = " " + name if len(name) < 4 else name
pqrfile.write(self.fmt_ATOM.format(
serial=atom_index, name=name, resname=resname,
chainid=chainid, resid=resid, pos=pos, charge=charge,
radius=radius))