# -*- Mode: python; tab-width: 4; indent-tabs-mode:nil; coding:utf-8 -*-
# vim: tabstop=4 expandtab shiftwidth=4 softtabstop=4 fileencoding=utf-8
#
# MDAnalysis --- http://www.MDAnalysis.org
# Copyright (c) 2006-2015 Naveen Michaud-Agrawal, Elizabeth J. Denning, Oliver Beckstein
# and contributors (see AUTHORS for the full list)
#
# Released under the GNU Public Licence, v2 or any higher version
#
# Please cite your use of MDAnalysis in published work:
#
# 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
#
"""
DESRES file format --- :mod:`MDAnalysis.coordinates.DMS`
========================================================
Classes to read DESRES_ Molecular Structure file format (DMS_)
coordinate files (as used by the Desmond_ MD package).
.. _DESRES: http://www.deshawresearch.com
.. _Desmond: http://www.deshawresearch.com/resources_desmond.html
.. _DMS: http://www.deshawresearch.com/Desmond_Users_Guide-0.7.pdf
"""
import os
import errno
import warnings
import numpy
import sqlite3
import MDAnalysis
import base
import MDAnalysis.core.util as util
from MDAnalysis.coordinates.core import triclinic_box, triclinic_vectors
from copy import deepcopy
class Timestep(base.Timestep):
def _init_unitcell(self):
return {'x': numpy.zeros(3),
'y': numpy.zeros(3),
'z': numpy.zeros(3)}
@property
def dimensions(self):
"""unitcell dimensions (A, B, C, alpha, beta, gamma)"""
x = self._unitcell['x']
y = self._unitcell['y']
z = self._unitcell['z']
return triclinic_box(x, y, z)
@dimensions.setter
def dimensions(self, box):
x, y, z = triclinic_vectors(box)
cell = {'x': x, 'y': y, 'z': z}
self._unitcell = cell
[docs]class DMSReader(base.Reader):
"""
Reads both coordinates and velocities.
"""
format = 'DMS'
units = {'time': None, 'length': 'A', 'velocity': 'A/ps'}
_Timestep = Timestep
def get_coordinates(self, cur):
cur.execute('SELECT * FROM particle')
particles = cur.fetchall()
return [(p['x'], p['y'], p['z']) for p in particles]
def get_particle_by_columns(self, cur, columns=['x', 'y', 'z']):
cur.execute('SELECT * FROM particle')
particles = cur.fetchall()
return [tuple([p[c] for c in columns]) for p in particles]
def get_global_cell(self, cur):
cur.execute('SELECT * FROM global_cell')
rows = cur.fetchall()
assert len(rows) == 3
x = [row["x"] for row in rows]
y = [row["y"] for row in rows]
z = [row["z"] for row in rows]
return {'x': x, 'y': y, 'z': z}
def __init__(self, filename, convert_units=None, **kwargs):
if convert_units is None:
convert_units = MDAnalysis.core.flags['convert_lengths']
self.convert_units = convert_units # convert length and time to base units
coords_list = None
velocities_list = None
con = sqlite3.connect(filename)
def dict_factory(cursor, row):
d = {}
for idx, col in enumerate(cursor.description):
d[col[0]] = row[idx]
return d
with con:
# This will return dictionaries instead of tuples, when calling cur.fetch() or fetchall()
con.row_factory = dict_factory
cur = con.cursor()
coords_list = self.get_coordinates(cur)
velocities_list = self.get_particle_by_columns(cur, columns=['vx', 'vy', 'vz'])
unitcell = self.get_global_cell(cur)
assert coords_list
self.numatoms = len(coords_list)
coords_list = numpy.array(coords_list)
self.ts = self._Timestep(coords_list)
self.ts.frame = 1 # 1-based frame number
if velocities_list: # perform this operation only if velocities are present in coord file
# TODO: use a Timestep that knows about velocities such as TRR.Timestep or better, TRJ.Timestep
velocities_arr = numpy.array(velocities_list, dtype=numpy.float32)
if numpy.any(velocities_arr):
self.ts._velocities = velocities_arr
self.convert_velocities_from_native(self.ts._velocities) # converts nm/ps to A/ps units
# ts._unitcell layout is format dependent; Timestep.dimensions does the conversion
self.ts._unitcell = unitcell
if self.convert_units:
self.convert_pos_from_native(self.ts._pos) # in-place !
self.convert_pos_from_native(self.ts._unitcell) # in-place ! (all are lengths)
self.numframes = 1
self.fixed = 0
self.skip = 1
self.periodic = False
self.delta = 0
self.skip_timestep = 1
def Writer(self, filename, **kwargs):
raise NotImplementedError
def __iter__(self):
yield self.ts # Just a single frame
raise StopIteration
def _read_frame(self, frame):
if frame != 0:
raise IndexError("DMSReader only handles a single frame at frame index 0")
return self.ts
def _read_next_timestep(self):
# CRD files only contain a single frame
raise IOError