Source code for MDAnalysis.coordinates.TRR
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"""
TRR trajectory files --- :mod:`MDAnalysis.coordinates.TRR`
==========================================================
Read and write GROMACS TRR trajectories.
See Also
--------
MDAnalysis.coordinates.XTC: Read and write GROMACS XTC trajectory files.
MDAnalysis.coordinates.XDR: BaseReader/Writer for XDR based formats
"""
import errno
from . import base
from .XDR import XDRBaseReader, XDRBaseWriter
from ..lib.formats.libmdaxdr import TRRFile
from ..lib.mdamath import triclinic_vectors, triclinic_box
[docs]class TRRWriter(XDRBaseWriter):
"""Writer for the Gromacs TRR format.
The Gromacs TRR trajectory format is a lossless format. The TRR format can
store *velocities* and *forces* in addition to the coordinates. It is also
used by other Gromacs tools to store and process other data such as modes
from a principal component analysis.
If the data dictionary of a :class:`Timestep` contains the key
'lambda' the corresponding value will be used as the lambda value
for written TRR file. If ``None`` is found the lambda is set to 0.
If the data dictionary of a :class:`Timestep` contains the key
'step' the corresponding value will be used as the step value for
the written TRR file. If the dictionary does not contain 'step', then
the step is set to the :class:`Timestep` frame attribute.
"""
format = 'TRR'
multiframe = True
units = {'time': 'ps', 'length': 'nm', 'velocity': 'nm/ps',
'force': 'kJ/(mol*nm)'}
_file = TRRFile
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/TimeStep)
The normal write() method takes a more general input
.. versionchanged:: 1.0.0
Renamed from `write_next_timestep` to `_write_next_frame`.
.. versionchanged:: 2.0.0
Deprecated support for Timestep argument has now been removed.
Use AtomGroup or Universe as an input instead.
.. versionchanged:: 2.1.0
When possible, TRRWriter assigns `ts.data['step']` to `step` rather
than `ts.frame`.
"""
try:
ts = ag.ts
except AttributeError:
try:
# special case: can supply a Universe, too...
ts = ag.trajectory.ts
except AttributeError:
errmsg = "Input obj is neither an AtomGroup or Universe"
raise TypeError(errmsg) from None
xyz = None
if ts.has_positions:
xyz = ts.positions.copy()
if self._convert_units:
self.convert_pos_to_native(xyz)
velo = None
if ts.has_velocities:
velo = ts.velocities.copy()
if self._convert_units:
self.convert_velocities_to_native(velo)
forces = None
if ts.has_forces:
forces = ts.forces.copy()
if self._convert_units:
self.convert_forces_to_native(forces)
time = ts.time
step = ts.data.get('step', ts.frame)
if self._convert_units:
dimensions = self.convert_dimensions_to_unitcell(ts, inplace=False)
box = triclinic_vectors(dimensions)
lmbda = 0
if 'lambda' in ts.data:
lmbda = ts.data['lambda']
self._xdr.write(xyz, velo, forces, box, step, time, lmbda,
self.n_atoms)
[docs]class TRRReader(XDRBaseReader):
"""Reader for the Gromacs TRR format.
The Gromacs TRR trajectory format is a lossless format. The TRR format can
store *velocities* and *forces* in addition to the coordinates. It is also
used by other Gromacs tools to store and process other data such as modes
from a principal component analysis.
The lambda value is written in the data dictionary of the returned
:class:`Timestep`
Notes
-----
See :ref:`Notes on offsets <offsets-label>` for more information about
offsets.
"""
format = 'TRR'
units = {'time': 'ps', 'length': 'nm', 'velocity': 'nm/ps',
'force': 'kJ/(mol*nm)'}
_writer = TRRWriter
_file = TRRFile
def _read_next_timestep(self, ts=None):
"""copy next frame into timestep
versionadded:: 2.4.0
TRRReader implements this method so that it can use
read_direct_xvf to read the data directly into the timestep
rather than copying it from a temporary array.
"""
if self._frame == self.n_frames - 1:
raise IOError(errno.EIO, 'trying to go over trajectory limit')
if ts is None:
ts = self.ts
# allocate arrays to read into, will set to proper values
# in _frame_to_ts
ts.has_positions = True
ts.has_velocities = True
ts.has_forces = True
frame = self._xdr.read_direct_xvf(ts.positions, ts.velocities, ts.forces)
self._frame += 1
self._frame_to_ts(frame, ts)
return ts
def _frame_to_ts(self, frame, ts):
"""convert a trr-frame to a mda TimeStep"""
ts.time = frame.time
ts.frame = self._frame
ts.data['step'] = frame.step
ts.has_positions = frame.hasx
ts.has_velocities = frame.hasv
ts.has_forces = frame.hasf
ts.dimensions = triclinic_box(*frame.box)
if self.convert_units:
if ts.dimensions is not None:
self.convert_pos_from_native(ts.dimensions[:3])
if ts.has_positions:
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)
if ts.has_velocities:
if self._sub is not None:
ts.velocities = frame.v[self._sub]
else:
ts.velocities = frame.v
if self.convert_units:
self.convert_velocities_from_native(ts.velocities)
if ts.has_forces:
if self._sub is not None:
ts.forces = frame.f[self._sub]
else:
ts.forces = frame.f
if self.convert_units:
self.convert_forces_from_native(ts.forces)
ts.data['lambda'] = frame.lmbda
return ts