"""
Calculate halo age for each halo in the dataset.
Halo ago is defined as the scale factor at which the
halo has reached half of its current mass.
NOTE: this script includes extra code to make it run within
the test suite. To run conventionally, remove the following
lines and return the code block in the middle to the proper
tabbing (i.e., 4 spaces to the left).
from mpi4py import MPI
comm = MPI.Comm.Get_parent()
try:
except BaseException:
pass
comm.Disconnect()
"""
import numpy as np
import yt
yt.enable_parallelism()
import ytree
def calc_a50(node):
# main progenitor masses
pmass = node["prog", "mass"]
mh = 0.5 * node["mass"]
m50 = pmass <= mh
if not m50.any():
th = node["scale_factor"]
else:
pscale = node["prog", "scale_factor"]
# linearly interpolate
i = np.where(m50)[0][0]
slope = (pscale[i-1] - pscale[i]) / (pmass[i-1] - pmass[i])
th = slope * (mh - pmass[i]) + pscale[i]
node["a50"] = th
if __name__ == "__main__":
# Remove the next three and final three lines to run conventionally.
from mpi4py import MPI
comm = MPI.Comm.Get_parent()
try:
a = ytree.load("tiny_ctrees/locations.dat")
a.add_analysis_field("a50", "")
ap = ytree.AnalysisPipeline()
ap.add_operation(calc_a50)
trees = list(a[:])
for tree in ytree.parallel_nodes(trees, filename="halo_age"):
yt.mylog.info(f"Processing {tree}.")
ap.process_target(tree)
if yt.is_root():
a2 = ytree.load("halo_age/halo_age.h5")
print (a2[0]["a50"])
# Remove the next three lines to run conventionally.
except BaseException:
pass
comm.Disconnect()