Source code for MDAnalysis.coordinates.TRC

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"""GROMOS11 trajectory reader --- :mod:`MDAnalysis.coordinates.TRC`
====================================================================

Reads coordinates, timesteps and box-sizes from GROMOS11 TRC trajectories.

To load the trajectory into :class:`~MDAnalysis.core.universe.Universe`,
you need to provide topology information using a topology file such as
a PDB::

    import MDAnalysis as mda
    u = mda.Universe("topology.pdb", ["md_1.trc.gz","md_2.trc.gz"],
    continuous=True)

.. Note::
   The GROMOS trajectory format organizes its data in blocks. A block starts
   with a blockname in capital letters (example: POSITIONRED) and ends with
   a line containing only ''END''. Only the TITLE-block at the beginning of
   each file is mandatory, others blocks can be chosen depending on the task.

   The trajectory format as well as all permitted blocks and their data are
   documented in the GROMOS Manual Vol. 4, chapter 2 and 4.
   The manual can be downloaded here:
   https://gromos.net/gromos11_pdf_manuals/vol4.pdf

This reader is designed to read the blocks "TIMESTEP", "POSITIONRED" and
"GENBOX" from the trajectory which covers the standard trajectories of most
simulations . If a trajectory includes other blocks, a warning is served
and the blocks are ignored.

.. Note::
   MDAnalysis requires the blocks to be in the same order for each frame
   and ignores non-supported blocks.



Classes
-------

.. autoclass:: TRCReader
   :members:

"""

import pathlib
import errno
import warnings
import numpy as np

from . import base
from .timestep import Timestep
from ..lib import util
from ..lib.util import cached, store_init_arguments

import logging

logger = logging.getLogger("MDAnalysis.coordinates.GROMOS11")


[docs] class TRCReader(base.ReaderBase): """Coordinate reader for the GROMOS11 format""" format = "TRC" units = {"time": "ps", "length": "nm"} _Timestep = Timestep SUPPORTED_BLOCKS = ["TITLE", "TIMESTEP", "POSITIONRED", "GENBOX"] NOT_SUPPORTED_BLOCKS = [ "POSITION", "REFPOSITION", "VELOCITY", "VELOCITYRED", "FREEFORCE", "FREEFORCERED", "CONSFORCE", "CONSFORCERED", "SHAKEFAILPOSITION", "SHAKEFAILPREVPOSITION", "LATTICESHIFTS", "COSDISPLACEMENTS", "STOCHINT", "NHCVARIABLES", "ROTTRANSREFPOS", "PERTDATA", "DISRESEXPAVE", "JVALUERESEXPAVE", "JVALUERESEPS", "JVALUEPERSCALE", "ORDERPARAMRESEXPAVE", "XRAYRESEXPAVE", "LEUSBIAS", "LEUSBIASBAS", "ENERGY03", "VOLUMEPRESSURE03", "FREEENERGYDERIVS03", "BFACTOR", "AEDSS", ] @store_init_arguments def __init__(self, filename, convert_units=True, **kwargs): super(TRCReader, self).__init__(filename, **kwargs) # GROMOS11 trajectories are usually either *.trc or *.trc.gz. # (trj suffix can come up when trajectory obtained from clustering) ext = pathlib.Path(self.filename).suffix if (ext[1:] == "trc") or (ext[1:] == "trj"): self.compressed = None else: self.compressed = ext[1:] self.trcfile = util.anyopen(self.filename) self.convert_units = convert_units # Read and calculate some information about the trajectory self.traj_properties = self._read_traj_properties() self._cache = {} self.ts = self._Timestep(self.n_atoms, **self._ts_kwargs) self._reopen() self.ts.dt = self.traj_properties["dt"] self._read_frame(0) @property @cached("n_atoms") def n_atoms(self): """The number of atoms in one frame.""" return self.traj_properties["n_atoms"] @property @cached("n_frames") def n_frames(self): """The number of frames in the trajectory.""" return self.traj_properties["n_frames"] def _frame_to_ts(self, frameDat, ts): """Convert a frame to a :class:`TimeStep`""" ts.frame = self._frame ts.time = frameDat["time"] ts.data["time"] = frameDat["time"] ts.data["step"] = frameDat["step"] ts.dimensions = frameDat["dimensions"] ts.positions = frameDat["positions"] # Convert the units if self.convert_units: if ts.has_positions: self.convert_pos_from_native(ts.positions) if ts.dimensions is not None: self.convert_pos_from_native(ts.dimensions[:3]) return ts def _read_traj_properties(self): """ * Reads the number of atoms per frame (n_atoms) * Reads the number of frames (n_frames) * Reads the startposition of the timestep block for each frame (l_blockstart_offset) """ traj_properties = {} # # Check which of the supported blocks comes first in the trajectory # first_block = None with util.anyopen(self.filename) as f: for line in iter(f.readline, ""): for blockname in TRCReader.SUPPORTED_BLOCKS: if (blockname == line.strip()) and (blockname != "TITLE"): # Save the name of the first non-title block # in the trajectory file first_block = blockname if first_block is not None: break # First block found # # Calculate meta-data of the trajectory # in_positionred_block = False lastline_was_timestep = False atom_counter = 0 n_atoms = 0 frame_counter = 0 l_blockstart_offset = [] l_timestep_timevalues = [] with util.anyopen(self.filename) as f: for line in iter(f.readline, ""): # # First block of frame # if first_block == line.strip(): l_blockstart_offset.append(f.tell() - len(line)) frame_counter += 1 # # Timestep-block # if "TIMESTEP" == line.strip(): lastline_was_timestep = True elif lastline_was_timestep is True: l_timestep_timevalues.append(float(line.split()[1])) lastline_was_timestep = False # # Coordinates-block # if "POSITIONRED" == line.strip(): in_positionred_block = True elif (in_positionred_block is True) and (n_atoms == 0): if len(line.split()) == 3: atom_counter += 1 if ("END" == line.strip()) and (in_positionred_block is True): n_atoms = atom_counter in_positionred_block = False if frame_counter == 0: raise ValueError( "No supported blocks were found within the GROMOS trajectory!" ) traj_properties["n_atoms"] = n_atoms traj_properties["n_frames"] = frame_counter traj_properties["l_blockstart_offset"] = l_blockstart_offset if len(l_timestep_timevalues) >= 2: traj_properties["dt"] = l_timestep_timevalues[1] - l_timestep_timevalues[0] else: traj_properties["dt"] = 0 warnings.warn( "The trajectory does not contain TIMESTEP blocks!", UserWarning ) return traj_properties def _read_GROMOS11_trajectory(self): frameDat = {} frameDat["step"] = int(self._frame) frameDat["time"] = float(0.0) frameDat["positions"] = None frameDat["dimensions"] = None self.periodic = False # Read the trajectory f = self.trcfile for line in iter(f.readline, ""): if "TIMESTEP" == line.strip(): tmp_step, tmp_time = f.readline().split() frameDat["step"] = int(tmp_step) frameDat["time"] = float(tmp_time) elif "POSITIONRED" == line.strip(): tmp_buf = [] while True: coords_str = f.readline() if "#" in coords_str: continue elif "END" in coords_str: break else: tmp_buf.append(coords_str.split()) if np.array(tmp_buf).shape[0] == self.n_atoms: frameDat["positions"] = np.asarray(tmp_buf, dtype=np.float64) else: raise ValueError( "The trajectory contains the wrong number of atoms!" ) elif "GENBOX" == line.strip(): ntb_setting = int(f.readline()) if ntb_setting == 0: frameDat["dimensions"] = None self.periodic = False elif ntb_setting in [1, 2]: tmp_a, tmp_b, tmp_c = f.readline().split() tmp_alpha, tmp_beta, tmp_gamma = f.readline().split() frameDat["dimensions"] = [ float(tmp_a), float(tmp_b), float(tmp_c), float(tmp_alpha), float(tmp_beta), float(tmp_gamma), ] self.periodic = True gb_line3 = f.readline().split() if np.sum(np.abs(np.array(gb_line3).astype(np.float64))) > 1e-10: raise ValueError( "This reader doesnt't support a shifted origin!" ) gb_line4 = f.readline().split() if np.sum(np.abs(np.array(gb_line4).astype(np.float64))) > 1e-10: raise ValueError( "This reader " "doesnt't support " "yawed, pitched or " "rolled boxes!" ) else: raise ValueError( "This reader doesn't support " "truncated-octahedral " "periodic boundary conditions" ) break elif any( non_supp_bn in line for non_supp_bn in TRCReader.NOT_SUPPORTED_BLOCKS ): for non_supp_bn in TRCReader.NOT_SUPPORTED_BLOCKS: if non_supp_bn == line.strip(): warnings.warn( non_supp_bn + " block is not supported!", UserWarning ) return frameDat def _read_frame(self, i): """read frame i""" self._frame = i - 1 # Move position in file just (-2 byte) before the start of the block self.trcfile.seek(self.traj_properties["l_blockstart_offset"][i] - 2, 0) return self._read_next_timestep() def _read_next_timestep(self): self._frame += 1 if self._frame >= self.n_frames: raise IOError("Trying to go over trajectory limit") raw_framedata = self._read_GROMOS11_trajectory() self._frame_to_ts(raw_framedata, self.ts) return self.ts def _reopen(self): """Close and reopen the trajectory""" self.close() self.open_trajectory() def open_trajectory(self): if self.trcfile is not None: raise IOError(errno.EALREADY, "TRC file already opened", self.filename) # Reload trajectory file self.trcfile = util.anyopen(self.filename) # Reset ts self.ts = self._Timestep(self.n_atoms, **self._ts_kwargs) # Set _frame to -1, so next timestep is zero self._frame = -1 return self.trcfile
[docs] def close(self): """Close the trc trajectory file if it was open.""" if self.trcfile is not None: self.trcfile.close() self.trcfile = None