Source code for MDAnalysis.coordinates.XTC
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"""
XTC trajectory files --- :mod:`MDAnalysis.coordinates.XTC`
==========================================================
Read and write GROMACS XTC trajectories.
See Also
--------
MDAnalysis.coordinates.TRR: Read and write GROMACS TRR trajectory files.
MDAnalysis.coordinates.XDR: BaseReader/Writer for XDR based formats
"""
from __future__ import absolute_import
from . import base
from .XDR import XDRBaseReader, XDRBaseWriter
from ..lib.formats.libmdaxdr import XTCFile
from ..lib.mdamath import triclinic_vectors, triclinic_box
[docs]class XTCWriter(XDRBaseWriter):
"""Writer for the Gromacs XTC trajectory format.
XTC is a compressed trajectory format from Gromacs. The trajectory is saved
with reduced precision (3 decimal places by default) compared to other
lossless formarts like TRR and DCD. The main advantage of XTC files is that
they require significantly less disk space and the loss of precision is
usually not a problem.
"""
format = 'XTC'
multiframe = True
units = {'time': 'ps', 'length': 'nm'}
_file = XTCFile
def __init__(self, filename, n_atoms, convert_units=True,
precision=3, **kwargs):
"""
Parameters
----------
filename : str
filename of the trajectory
n_atoms : int
number of atoms to write
convert_units : bool (optional)
convert into MDAnalysis units
precision : float (optional)
set precision of saved trjactory to this number of decimal places.
"""
super(XTCWriter, self).__init__(filename, n_atoms, convert_units,
**kwargs)
self.precision = precision
def _write_next_frame(self, ag):
"""Write information associated with ``ag`` at current frame into trajectory
Parameters
----------
ag : AtomGroup or Universe
See Also
--------
<FormatWriter>.write(AtomGroup/Universe)
The normal write() method takes a more general input
.. deprecated:: 1.0.0
Deprecated using Timestep. To be removed in version 2.0.
.. versionchanged:: 1.0.0
Added ability to use either AtomGroup or Universe.
"""
if isinstance(ag, base.Timestep):
ts = ag
else:
try:
# Atomgroup?
ts = ag.ts
except AttributeError:
try:
# Universe?
ts = ag.trajectory.ts
except AttributeError:
raise TypeError("No Timestep found in ag argument")
xyz = ts.positions.copy()
time = ts.time
step = ts.frame
dimensions = ts.dimensions
if self._convert_units:
xyz = self.convert_pos_to_native(xyz, inplace=False)
dimensions = self.convert_dimensions_to_unitcell(ts, inplace=False)
box = triclinic_vectors(dimensions)
# libmdaxdr will multiply the coordinates by precision. This means for
# a precision of 3 decimal places we need to pass 1000.0 to the xdr
# library.
precision = 10.0 ** self.precision
self._xdr.write(xyz, box, step, time, precision)
[docs]class XTCReader(XDRBaseReader):
"""Reader for the Gromacs XTC trajectory format.
XTC is a compressed trajectory format from Gromacs. The trajectory is saved
with reduced precision (3 decimal places) compared to other lossless
formarts like TRR and DCD. The main advantage of XTC files is that they
require significantly less disk space and the loss of precision is usually
not a problem.
Notes
-----
See :ref:`Notes on offsets <offsets-label>` for more information about
offsets.
"""
format = 'XTC'
units = {'time': 'ps', 'length': 'nm'}
_writer = XTCWriter
_file = XTCFile
def _frame_to_ts(self, frame, ts):
"""convert a xtc-frame to a mda TimeStep"""
ts.frame = self._frame
ts.time = frame.time
ts.data['step'] = frame.step
ts.dimensions = triclinic_box(*frame.box)
if self._sub is not None:
ts.positions = frame.x[self._sub]
else:
ts.positions = frame.x
if self.convert_units:
self.convert_pos_from_native(ts.positions)
self.convert_pos_from_native(ts.dimensions[:3])
return ts