csiborgtools/scripts/crosspk.py
Richard Stiskalek 5784011de0
kNN-CDF secondary halo bias (#40)
* Add seperate autoknn script & config file

* edit ics

* Edit submission script

* Add threshold values

* Edit batch sizign

* Remove print

* edit

* Rename files

* Rename

* Update nb

* edit runs

* Edit submit

* Add median threshold

* add new auto reader

* editt submit

* edit submit

* Edit submit

* Add mean prk

* Edit runs

* Remove correlation file

* Move split to clutering

* Add init

* Remove import

* Add the file

* Add correlation reading

* Edit scripts

* Add below and above median permutation for cross

* Update imports

* Move rvs_in_sphere

* Create utils

* Split

* Add import

* Add normalised marks

* Add import

* Edit readme

* Clean up submission file

* Stop tracking submit files

* Update gitignore

* Add poisson field analytical expression

* Add abstract generators

* Add generators

* Pass in the generator

* Add a check for if there are any files

* Start saving average density

* Update nb

* Update readme

* Update units

* Edit jobs

* Update submits

* Update reader

* Add random crossing

* Update crossing script

* Add crossing with random

* Update readme

* Update notebook
2023-04-09 20:57:05 +01:00

156 lines
5.1 KiB
Python

# Copyright (C) 2022 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.
"""
MPI script to calculate the matter cross power spectrum between CSiBORG
IC realisations. Units are Mpc/h.
"""
from gc import collect
from argparse import ArgumentParser
from os import remove
from os.path import join
from itertools import combinations
from datetime import datetime
import numpy
import joblib
from mpi4py import MPI
import Pk_library as PKL
try:
import csiborgtools
except ModuleNotFoundError:
import sys
sys.path.append("../")
import csiborgtools
dumpdir = "/mnt/extraspace/rstiskalek/csiborg/"
parser = ArgumentParser()
parser.add_argument("--grid", type=int)
parser.add_argument("--halfwidth", type=float, default=0.5)
args = parser.parse_args()
# Get MPI things
comm = MPI.COMM_WORLD
rank = comm.Get_rank()
nproc = comm.Get_size()
MAS = "CIC" # mass asignment scheme
paths = csiborgtools.read.CSiBORGPaths()
box = csiborgtools.units.BoxUnits(paths)
reader = csiborgtools.read.ParticleReader(paths)
ics = paths.ic_ids(tonew=False)
nsims = len(ics)
# File paths
ftemp = join(dumpdir, "temp_crosspk",
"out_{}_{}" + "_{}".format(args.halfwidth))
fout = join(dumpdir, "crosspk",
"out_{}_{}" + "_{}.p".format(args.halfwidth))
jobs = csiborgtools.fits.split_jobs(nsims, nproc)[rank]
for n in jobs:
print("Rank {}@{}: saving {}th delta.".format(rank, datetime.now(), n))
nsim = ics[n]
particles = reader.read_particle(max(paths.get_snapshots(nsim)), nsim,
["x", "y", "z", "M"], verbose=False)
# Halfwidth -- particle selection
if args.halfwidth < 0.5:
particles = csiborgtools.read.halfwidth_select(
args.halfwidth, particles)
length = box.box2mpc(2 * args.halfwidth) * box.h # Mpc/h
else:
length = box.box2mpc(1) * box.h # Mpc/h
# Calculate the overdensity field
field = csiborgtools.field.DensityField(particles, length, box, MAS)
delta = field.overdensity_field(args.grid, verbose=False)
aexp = box._aexp
# Try to clean up memory
del field, particles, box, reader
collect()
# Dump the results
with open(ftemp.format(nsim, "delta") + ".npy", "wb") as f:
numpy.save(f, delta)
joblib.dump([aexp, length], ftemp.format(nsim, "lengths") + ".p")
# Try to clean up memory
del delta
collect()
comm.Barrier()
# Get off-diagonal elements and append the diagoal
combs = [c for c in combinations(range(nsims), 2)]
for i in range(nsims):
combs.append((i, i))
prev_delta = [-1, None, None, None] # i, delta, aexp, length
jobs = csiborgtools.fits.split_jobs(len(combs), nproc)[rank]
for n in jobs:
i, j = combs[n]
print("Rank {}@{}: combination {}.".format(rank, datetime.now(), (i, j)))
# If i same as last time then don't have to load it
if prev_delta[0] == i:
delta_i = prev_delta[1]
aexp_i = prev_delta[2]
length_i = prev_delta[3]
else:
with open(ftemp.format(ics[i], "delta") + ".npy", "rb") as f:
delta_i = numpy.load(f)
aexp_i, length_i = joblib.load(ftemp.format(ics[i], "lengths") + ".p")
# Store in prev_delta
prev_delta[0] = i
prev_delta[1] = delta_i
prev_delta[2] = aexp_i
prev_delta[3] = length_i
# Get jth delta
with open(ftemp.format(ics[j], "delta") + ".npy", "rb") as f:
delta_j = numpy.load(f)
aexp_j, length_j = joblib.load(ftemp.format(ics[j], "lengths") + ".p")
# Verify the difference between the scale factors! Say more than 1%
daexp = abs((aexp_i - aexp_j) / aexp_i)
if daexp > 0.01:
raise ValueError(
"Boxes {} and {} final snapshot scale factors disagree by "
"`{}` percent!".format(ics[i], ics[j], daexp * 100))
# Check how well the boxsizes agree
dlength = abs((length_i - length_j) / length_i)
if dlength > 0.001:
raise ValueError("Boxes {} and {} box sizes disagree by `{}` percent!"
.format(ics[i], ics[j], dlength * 100))
# Calculate the cross power spectrum
Pk = PKL.XPk([delta_i, delta_j], length_i, axis=1, MAS=[MAS, MAS],
threads=1)
joblib.dump(Pk, fout.format(ics[i], ics[j]))
del delta_i, delta_j, Pk
collect()
# Clean up the temp files
comm.Barrier()
if rank == 0:
print("Cleaning up the temporary files...")
for ic in ics:
remove(ftemp.format(ic, "delta") + ".npy")
remove(ftemp.format(ic, "lengths") + ".p")
print("All finished!")