csiborgtools/scripts_independent/field_sph_ramses.py

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# Copyright (C) 2023 Richard Stiskalek
# This program is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by the
# Free Software Foundation; either version 3 of the License, or (at your
# option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
# Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
"""
Script to construct the density and velocity fields for a simulation snapshot.
The SPH filter is implemented in the cosmotool package.
"""
from argparse import ArgumentParser
from os.path import join
import numpy as np
from h5py import File
from field_sph_gadget import now, run_sph_filter
from process_snapshot import CSiBORG1Reader
def prepare_csiborg1(nsim, output_path):
"""
Prepare a RAMSES snapshot for the SPH filter.
Parameters
----------
nsim : int
Simulation index.
output_path : str
Path to the output HDF5 file.
Returns
-------
None
"""
reader = CSiBORG1Reader(nsim, "final")
with File(output_path, 'w') as target:
print(f"{now()}: loading positions.")
pos = reader.read_snapshot("pos")
print(f"{now()}: loading velocities.")
vel = reader.read_snapshot("vel")
print(f"{now()}: loading masses.")
mass = reader.read_snapshot("mass")
print(f"Writing {len(pos)} particles to {output_path}.")
dset = target.create_dataset("particles", (len(pos), 7),
dtype=np.float32)
dset[:, :3] = pos
print(f"{now()}: written positions.")
dset[:, 3:6] = vel
print(f"{now()}: written velocities.")
dset[:, 6] = mass
print(f"{now()}: written masses.")
if __name__ == "__main__":
parser = ArgumentParser(description="Generate SPH density and velocity field.") # noqa
parser.add_argument("--nsim", type=int, required=True,
help="Simulation index")
parser.add_argument("--mode", type=str, required=True,
choices=["prepare", "run"], help="Mode of operation.")
parser.add_argument("--output_folder", type=str, required=True,
help="Path to the output HDF5 file.")
parser.add_argument("--resolution", type=int, required=True,
help="Resolution of the density and velocity field.")
parser.add_argument("--scratch_space", type=str, required=True,
help="Path to a folder where temporary files can be stored.") # noqa
parser.add_argument("--SPH_executable", type=str, required=True,
help="Path to the `simple3DFilter` executable.")
parser.add_argument("--snapshot_kind", type=str, required=True,
choices=["ramses"],
help="Kind of the simulation snapshot.")
args = parser.parse_args()
if args.snapshot_kind != "ramses":
raise NotImplementedError("Only RAMSES snapshots are supported.")
print("---------- SPH Density & Velocity Field Job Information ----------")
print(f"Mode: {args.mode}")
print(f"Simulation index: {args.nsim}")
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print(f"Scratch space: {args.scratch_space}")
print(f"Output folder: {args.output_folder}")
print(f"Resolution: {args.resolution}")
print(f"SPH executable: {args.SPH_executable}")
print(f"Snapshot kind: {args.snapshot_kind}")
print("------------------------------------------------------------------")
print(flush=True)
if args.mode == "prepare":
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if args.nsim == -1:
Overlap fixing and more (#107) * Update README * Update density field reader * Update name of SDSSxALFAFA * Fix quick bug * Add little fixes * Update README * Put back fit_init * Add paths to initial snapshots * Add export * Remove some choices * Edit README * Add Jens' comments * Organize imports * Rename snapshot * Add additional print statement * Add paths to initial snapshots * Add masses to the initial files * Add normalization * Edit README * Update README * Fix bug in CSiBORG1 so that does not read fof_00001 * Edit README * Edit README * Overwrite comments * Add paths to init lag * Fix Quijote path * Add lagpatch * Edit submits * Update README * Fix numpy int problem * Update README * Add a flag to keep the snapshots open when fitting * Add a flag to keep snapshots open * Comment out some path issue * Keep snapshots open * Access directly snasphot * Add lagpatch for CSiBORG2 * Add treatment of x-z coordinates flipping * Add radial velocity field loader * Update README * Add lagpatch to Quijote * Fix typo * Add setter * Fix typo * Update README * Add output halo cat as ASCII * Add import * Add halo plot * Update README * Add evaluating field at radial distanfe * Add field shell evaluation * Add enclosed mass computation * Add BORG2 import * Add BORG boxsize * Add BORG paths * Edit run * Add BORG2 overdensity field * Add bulk flow clauclation * Update README * Add new plots * Add nbs * Edit paper * Update plotting * Fix overlap paths to contain simname * Add normalization of positions * Add default paths to CSiBORG1 * Add overlap path simname * Fix little things * Add CSiBORG2 catalogue * Update README * Add import * Add TNG density field constructor * Add TNG density * Add draft of calculating BORG ACL * Fix bug * Add ACL of enclosed density * Add nmean acl * Add galaxy bias calculation * Add BORG acl notebook * Add enclosed mass calculation * Add TNG300-1 dir * Add TNG300 and BORG1 dir * Update nb
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# nsims = [7444 + n * 24 for n in range(101)]
nsims = [8404 + n * 24 for n in range(61)]
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for nsim in nsims:
print(f"Processing simulation {nsim}.")
particles_path = join(args.scratch_space,
f"ramses_{str(nsim).zfill(5)}.hdf5")
prepare_csiborg1(nsim, particles_path)
else:
particles_path = join(args.scratch_space,
f"ramses_{str(args.nsim).zfill(5)}.hdf5")
prepare_csiborg1(args.nsim, particles_path)
elif args.mode == "run":
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particles_path = join(args.scratch_space,
f"ramses_{str(args.nsim).zfill(5)}.hdf5")
output_path = join(args.output_folder,
f"sph_ramses_{str(args.nsim).zfill(5)}.hdf5")
boxsize = 677.7
run_sph_filter(particles_path, output_path, boxsize, args.resolution,
args.SPH_executable)
else:
raise NotImplementedError(f"Mode `{args.mode}` is not supported.")