Source code for yt.frontends.halo_catalogs.rockstar.data_structures

"""
Data structures for Rockstar frontend.




"""

#-----------------------------------------------------------------------------
# Copyright (c) 2013, yt Development Team.
#
# Distributed under the terms of the Modified BSD License.
#
# The full license is in the file COPYING.txt, distributed with this software.
#-----------------------------------------------------------------------------

import numpy as np
import stat
import weakref
import struct
import glob
import time
import os

from .fields import \
    RockstarFieldInfo

from yt.utilities.cosmology import Cosmology
from yt.geometry.particle_geometry_handler import \
    ParticleIndex
from yt.data_objects.static_output import \
    Dataset, \
    ParticleFile
import yt.utilities.fortran_utils as fpu
from yt.units.yt_array import \
    YTArray, \
    YTQuantity

from .definitions import \
    header_dt

[docs]class RockstarBinaryFile(ParticleFile):
[docs] def __init__(self, ds, io, filename, file_id): with open(filename, "rb") as f: self.header = fpu.read_cattrs(f, header_dt, "=") self._position_offset = f.tell() f.seek(0, os.SEEK_END) self._file_size = f.tell() super(RockstarBinaryFile, self).__init__(ds, io, filename, file_id)
[docs]class RockstarDataset(Dataset): _index_class = ParticleIndex _file_class = RockstarBinaryFile _field_info_class = RockstarFieldInfo _suffix = ".bin"
[docs] def __init__(self, filename, dataset_type="rockstar_binary", n_ref = 16, over_refine_factor = 1): self.n_ref = n_ref self.over_refine_factor = over_refine_factor super(RockstarDataset, self).__init__(filename, dataset_type)
def _parse_parameter_file(self): with open(self.parameter_filename, "rb") as f: hvals = fpu.read_cattrs(f, header_dt) hvals.pop("unused") self.dimensionality = 3 self.refine_by = 2 self.unique_identifier = \ int(os.stat(self.parameter_filename)[stat.ST_CTIME]) prefix = ".".join(self.parameter_filename.rsplit(".", 2)[:-2]) self.filename_template = "%s.%%(num)s%s" % (prefix, self._suffix) self.file_count = len(glob.glob(prefix + "*" + self._suffix)) # Now we can set up things we already know. self.cosmological_simulation = 1 self.current_redshift = (1.0 / hvals['scale']) - 1.0 self.hubble_constant = hvals['h0'] self.omega_lambda = hvals['Ol'] self.omega_matter = hvals['Om'] cosmo = Cosmology(self.hubble_constant, self.omega_matter, self.omega_lambda) self.current_time = cosmo.hubble_time(self.current_redshift).in_units("s") self.periodicity = (True, True, True) self.particle_types = ("halos") self.particle_types_raw = ("halos") self.domain_left_edge = np.array([0.0,0.0,0.0]) self.domain_right_edge = np.array([hvals['box_size']] * 3) nz = 1 << self.over_refine_factor self.domain_dimensions = np.ones(3, "int32") * nz self.parameters.update(hvals) def _set_code_unit_attributes(self): z = self.current_redshift self.length_unit = self.quan(1.0 / (1.0+z), "Mpc / h") self.mass_unit = self.quan(1.0, "Msun / h") self.velocity_unit = self.quan(1.0, "km / s") self.time_unit = self.length_unit / self.velocity_unit @classmethod def _is_valid(self, *args, **kwargs): if not args[0].endswith(".bin"): return False with open(args[0], "rb") as f: header = fpu.read_cattrs(f, header_dt) if header['magic'] == 18077126535843729616: return True return False