mirror of
https://github.com/Richard-Sti/csiborgtools.git
synced 2024-12-22 22:18:01 +00:00
e972f8e3f2
* Simplify box units * Move old scripts * Add printing * Update readers * Disable boundscheck * Add new ordering * Clean up imports * Enforce dtype and add mass to quijote * Simplify print statements * Fix little typos * Fix key bug * Bug fixing * Delete boring comments * Improve ultimate clumps for PHEW * Delete boring comments * Add basic reading * Remove 0th index HID * Add flipping of X and Z * Updates to halo catalogues * Add ordered caching * Fix flipping * Add new flags * Fix PHEW empty clumps * Stop over-wrriting * Little improvements to angular neighbours * Add catalogue masking * Change if-else statements * Cache only filtered data * Add PHEW cats * Add comments * Sort imports * Get Quijote workign * Docs * Add HMF calculation * Move to old * Fix angular * Add great circle distance * Update imports * Update impotrts * Update docs * Remove unused import * Fix a quick bug * Update compatibility * Rename files * Renaming * Improve compatiblity * Rename snapsht * Fix snapshot bug * Update interface * Finish updating interface * Update all paths * Add old scripts * Add basic halo * Update imports * Improve snapshot processing * Update ordering * Fix how CM positions accessed * Add merger paths * Add imports * Add merger reading * Add making a merger tree * Add a basic merger tree reader * Add imports * Add main branch walking + comments + debuggin * Get tree running * Add working merger tree walking along main branch * Add units conversion for merger data * Add hid_to_array_index * Update merger tree * Add mergertree mass to PHEWcat * Edit comments * Add this to track changes... * Fix a little bug * Add mergertree mass * Add cache clearing * Improve summing substructure code * Littbe bug * Little updates to the merger tree reader * Update .giignore * Add box selection * Add optional deletingf of a group * add to keep track of changes * Update changes * Remove * Add manual tracker * Fix bug * Add m200c_to_r200c * Add manual halo tracking * Remove skipped snapshots * update cosmo params to match csiborg * remove old comments * Add SDSSxALFALFA * Fix bugs * Rename * Edit paths * Updates * Add comments * Add comment * Add hour conversion * Add imports * Add new observation class * Add selection * Add imports * Fix small bug * Add field copying for safety * Add matching to survey without masking * Add P(k) calculation * Add nb * Edit comment * Move files * Remove merger import * Edit setup.yp * Fix typo * Edit import warnigns * update nb * Update README * Update README * Update README * Add skeleton * Add skeleton
686 lines
21 KiB
Python
686 lines
21 KiB
Python
# Copyright (C) 2022 Richard Stiskalek, Harry Desmond
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# This program is free software; you can redistribute it and/or modify it
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# under the terms of the GNU General Public License as published by the
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# Free Software Foundation; either version 3 of the License, or (at your
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# option) any later version.
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#
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# This program is distributed in the hope that it will be useful, but
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# WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
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# Public License for more details.
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#
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# You should have received a copy of the GNU General Public License along
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# with this program; if not, write to the Free Software Foundation, Inc.,
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# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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"""
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Support for reading the PHEW/ACACIA CSiBORG merger trees. However, note that
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the merger trees are very unreliable.
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"""
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from abc import ABC
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from datetime import datetime
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from gc import collect
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import numpy
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from h5py import File
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from tqdm import tqdm, trange
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from treelib import Tree
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from ..utils import periodic_distance
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from .paths import Paths
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###############################################################################
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# Utility functions. #
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###############################################################################
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def clump_identifier(clump, nsnap):
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"""
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Generate a unique identifier for a clump at a given snapshot.
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Parameters
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----------
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clump : int
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Clump ID.
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nsnap : int
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Snapshot index.
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Returns
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-------
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str
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"""
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return f"{str(clump).rjust(9, 'x')}__{str(nsnap).rjust(4, 'x')}"
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def extract_identifier(identifier):
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"""
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Extract the clump ID and snapshot index from a identifier generated by
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`clump_identifier`.
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Parameters
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----------
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identifier : str
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Identifier.
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Returns
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-------
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clump, nsnap : int
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Clump ID and snapshot index.
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"""
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clump, nsnap = identifier.split('__')
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return int(clump.lstrip('x')), int(nsnap.lstrip('x'))
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###############################################################################
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# Merger tree reader class. #
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###############################################################################
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class BaseMergerReader(ABC):
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"""
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Base class for the CSiBORG merger tree reader.
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"""
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_paths = None
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_nsim = None
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_min_snap = None
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_cache = {}
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@property
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def paths(self):
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"""Paths manager."""
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if self._paths is None:
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raise ValueError("`paths` is not set.")
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return self._paths
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@paths.setter
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def paths(self, paths):
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assert isinstance(paths, Paths)
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self._paths = paths
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@property
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def nsim(self):
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"""Simulation index."""
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if self._nsim is None:
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raise ValueError("`nsim` is not set.")
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return self._nsim
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@nsim.setter
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def nsim(self, nsim):
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assert isinstance(nsim, (int, numpy.integer))
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self._nsim = nsim
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@property
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def min_snap(self):
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"""Minimum snapshot index to read."""
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return self._min_snap
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@min_snap.setter
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def min_snap(self, min_snap):
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if min_snap is not None:
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assert isinstance(min_snap, (int, numpy.integer))
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self._min_snap = int(min_snap)
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def cache_length(self):
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"""Length of the cache."""
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return len(self._cache)
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def cache_clear(self):
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"""Clear the cache."""
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self._cache = {}
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collect()
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def __getitem__(self, key):
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try:
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return self._cache[key]
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except KeyError:
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fname = self.paths.processed_merger_tree(self.nsim)
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nsnap, kind = key.split("__")
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with File(fname, "r") as f:
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if kind == "clump_to_array":
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cl = self[f"{nsnap}__clump"]
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x = {}
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for i, c in enumerate(cl):
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if c in x:
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x[c] += (i,)
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else:
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x[c] = (i,)
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else:
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x = f[f"{str(nsnap)}/{kind}"][:]
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# Cache it
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self._cache[key] = x
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return x
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class MergerReader(BaseMergerReader):
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"""
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Merger tree reader.
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Parameters
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----------
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nsim : int
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Simulation index.
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paths : Paths
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Paths manager.
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min_snap : int
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Minimum snapshot index. Trees below this snapshot will not be read.
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"""
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def __init__(self, nsim, paths, min_snap=None):
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self.nsim = nsim
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self.paths = paths
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self.min_snap = min_snap
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def get_info(self, current_clump, current_snap, is_main=None):
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"""
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Make a list of information about a clump at a given snapshot.
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Parameters
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----------
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current_clump : int
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Clump ID.
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current_snap : int
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Snapshot index.
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is_main : bool
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Whether this is the main progenitor.
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Returns
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-------
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list
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"""
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if current_clump < 0:
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raise ValueError("Clump ID must be positive.")
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if is_main is not None and not isinstance(is_main, bool):
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raise ValueError("`is_main` must be a boolean.")
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k = self[f"{current_snap}__clump_to_array"][current_clump][0]
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out = [self[f"{current_snap}__desc_mass"][k],
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*self[f"{current_snap}__desc_pos"][k][::-1]] # TODO REMOVE LATER
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if is_main is not None:
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return [is_main,] + out
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return out
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def get_mass(self, clump, snap):
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"""
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Get the mass of a clump at a given snapshot.
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Parameters
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----------
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clump : int
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Clump ID.
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snap : int
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Snapshot index.
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Returns
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-------
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float
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"""
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if clump < 0:
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raise ValueError("Clump ID must be positive.")
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k = self[f"{snap}__clump_to_array"][clump][0]
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return self[f"{snap}__desc_mass"][k]
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def get_pos(self, clump, snap):
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if clump < 0:
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raise ValueError("Clump ID must be positive.")
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k = self[f"{snap}__clump_to_array"][clump][0]
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return self[f"{snap}__desc_pos"][k]
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def find_main_progenitor(self, clump, nsnap):
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"""
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Find the main progenitor of a clump at a given snapshot. Cases are:
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- `clump > 0`, `progenitor > 0`: main progenitor is in the adjacent
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snapshot,
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- `clump > 0`, `progenitor < 0`: main progenitor is not in the
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adjacent snapshot.
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- `clump < 0`, `progenitor = 0`: no progenitor, newly formed clump.
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Parameters
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----------
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clump : int
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Clump ID.
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nsnap : int
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Snapshot index.
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Returns
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-------
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progenitor : int
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Main progenitor clump ID.
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progenitor_snap : int
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Main progenitor snapshot index.
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"""
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if not clump > 0:
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raise ValueError("Clump ID must be positive.")
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cl2array = self[f"{nsnap}__clump_to_array"]
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if clump in cl2array:
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k = cl2array[clump]
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else:
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raise ValueError("Clump ID not found.")
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if len(k) > 1:
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raise ValueError("Found more than one main progenitor.")
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k = k[0]
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progenitor = abs(self[f"{nsnap}__progenitor"][k])
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progenitor_snap = self[f"{nsnap}__progenitor_outputnr"][k]
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if (self.min_snap is not None) and (nsnap < self.min_snap):
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return 0, numpy.nan
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return progenitor, progenitor_snap
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def find_minor_progenitors(self, clump, nsnap):
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"""
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Find the minor progenitors of a clump at a given snapshot. This means
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that `clump < 0`, `progenitor > 0`, i.e. this clump also has another
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main progenitor.
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If there are no minor progenitors, return `None` for both lists.
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Parameters
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----------
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clump : int
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Clump ID.
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nsnap : int
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Snapshot index.
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Returns
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-------
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prog : list
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List of minor progenitor clump IDs.
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prog_snap : list
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List of minor progenitor snapshot indices.
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"""
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if not clump > 0:
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raise ValueError("Clump ID must be positive.")
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try:
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ks = self[f"{nsnap}__clump_to_array"][-clump]
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except KeyError:
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return None, None
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prog = [self[f"{nsnap}__progenitor"][k] for k in ks]
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prog_nsnap = [self[f"{nsnap}__progenitor_outputnr"][k] for k in ks]
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if (self.min_snap is not None) and (nsnap < self.min_snap):
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return None, None
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return prog, prog_nsnap
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def find_progenitors(self, clump, nsnap):
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"""
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Find all progenitors of a clump at a given snapshot. The main
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progenitor is the first element of the list.
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Parameters
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----------
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clump : int
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Clump ID.
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nsnap : int
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Snapshot index.
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Returns
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-------
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prog : list
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List of progenitor clump IDs.
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prog_nsnap : list
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List of progenitor snapshot indices.
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"""
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main_prog, main_prog_nsnap = self.find_main_progenitor(clump, nsnap)
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min_prog, min_prog_nsnap = self.find_minor_progenitors(clump, nsnap)
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# Check that if the main progenitor is not in the adjacent snapshot,
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# then the minor progenitor are also in that snapshot (if any).
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if (min_prog is not None) and (main_prog_nsnap != nsnap - 1) and not all(prog_nsnap == mprog for mprog in min_prog_nsnap): # noqa
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raise ValueError(f"For clump {clump} at snapshot {nsnap} we have "
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f"main progenitor at {main_prog_nsnap} and "
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"minor progenitors at {min_prog_nsnap}.")
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if min_prog is None:
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prog = [main_prog,]
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prog_nsnap = [main_prog_nsnap,]
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else:
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prog = [main_prog,] + min_prog
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prog_nsnap = [main_prog_nsnap,] + min_prog_nsnap
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if prog[0] == 0 and len(prog) > 1:
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raise ValueError("No main progenitor but minor progenitors "
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"found for clump {clump} at snapshot {nsnap}.")
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return prog, prog_nsnap
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def tree_mass_at_snapshot(self, clump, nsnap, target_snap):
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"""
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Calculate the total mass of nodes in a tree at a given snapshot.
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"""
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# If clump is 0 (i.e., we've reached the end of the tree), return 0
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if clump == 0:
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return 0
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# Find the progenitors for the given clump and nsnap
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prog, prog_nsnap = self.find_progenitors(clump, nsnap)
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if prog[0] == 0:
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print(prog)
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return 0
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# Sum the mass of the current clump's progenitors
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tot = 0
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for p, psnap in zip(prog, prog_nsnap):
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if psnap == target_snap:
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tot += self.get_mass(p, psnap)
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# Recursively sum the mass of each progenitor's progenitors
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for p, psnap in zip(prog, prog_nsnap):
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# print("P ", p, psnap)
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tot += self.mass_all_progenitor2(p, psnap, target_snap)
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return tot
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def is_jumper(self, clump, nsnap, nsnap_descendant):
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pass
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def make_tree(self, current_clump, current_nsnap,
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above_clump=None, above_nsnap=None,
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tree=None, is_main=None, verbose=False):
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"""
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Make a merger tree for a clump at a given snapshot.
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Parameters
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----------
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current_clump : int
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Clump ID of the descendant clump.
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current_nsnap : int
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Snapshot index of the descendent clump.
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above_clump : int, optional
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Clump ID of a clump above the current clump in the tree.
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above_nsnap : int, optional
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Snapshot index of a clump above the current clump in the tree.
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tree : treelib.Tree, optional
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Tree to add to.
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is_main : bool, optional
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Whether this is the main progenitor.
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verbose : bool, optional
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Verbosity flag.
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Returns
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-------
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treelib.Tree
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Tree with the current clump as the root.
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"""
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if verbose:
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print(f"{datetime.now()}: Node of a clump {current_clump} at "
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f"snapshot {current_nsnap}.", flush=True)
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# Terminate if we are at the end of the tree
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if current_clump == 0:
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return
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# Create the root node or add a new node
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if tree is None:
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tree = Tree()
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tree.create_node(
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"root",
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identifier=clump_identifier(current_clump, current_nsnap),
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data=self.get_info(current_clump, current_nsnap, True),
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)
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else:
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tree.create_node(
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identifier=clump_identifier(current_clump, current_nsnap),
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parent=clump_identifier(above_clump, above_nsnap),
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data=self.get_info(current_clump, current_nsnap, is_main),
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)
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# This returns a list of progenitors and their snapshots. The first
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# element is the main progenitor.
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prog, prog_nsnap = self.find_progenitors(current_clump, current_nsnap)
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for i, (p, psnap) in enumerate(zip(prog, prog_nsnap)):
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self.make_tree(p, psnap, current_clump, current_nsnap, tree,
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is_main=i == 0, verbose=verbose)
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return tree
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def walk_main_progenitor(self, main_clump, main_nsnap, verbose=False):
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"""
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Walk the main progenitor branch of a clump.
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Each snapshot contains information about the clump at that snapshot.
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Parameters
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----------
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clump : int
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Clump ID.
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nsnap : int
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Snapshot index.
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Returns
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-------
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structured array
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"""
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out = []
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pbar = tqdm(disable=not verbose)
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while True:
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prog, prog_nsnap = self.find_progenitors(main_clump, main_nsnap)
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# Unpack the main and minor progenitor
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mainprog, mainprog_nsnap = prog[0], prog_nsnap[0]
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if len(prog) > 1:
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minprog, minprog_nsnap = prog[1:], prog_nsnap[1:]
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else:
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minprog, minprog_nsnap = None, None
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# If there is no progenitor, then set the main progenitor mass to 0
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if mainprog == 0:
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mainprog_mass = numpy.nan
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else:
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mainprog_mass = self.get_mass(mainprog, mainprog_nsnap)
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totprog_mass = mainprog_mass
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# Unpack masses of the progenitors
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if minprog is not None:
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minprog, minprog_nsnap = prog[1:], prog_nsnap[1:]
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minprog_masses = [self.get_mass(c, n)
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for c, n in zip(minprog, minprog_nsnap)]
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max_minprog_mass = max(minprog_masses)
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minprog_totmass = sum(minprog_masses)
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totprog_mass += minprog_totmass
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else:
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minprog_totmass = numpy.nan
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max_minprog_mass = numpy.nan
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out += [
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[main_nsnap,]
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+ self.get_info(main_clump, main_nsnap)
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+ [mainprog_nsnap, totprog_mass, mainprog_mass, minprog_totmass, max_minprog_mass / mainprog_mass] # noqa
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]
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pbar.update(1)
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pbar.set_description(f"Clump {main_clump} ({main_nsnap})")
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if mainprog == 0:
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pbar.close()
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break
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main_clump = mainprog
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main_nsnap = mainprog_nsnap
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# Convert output to a structured array. We store integers as float
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# to avoid errors because of converting NaNs to integers.
|
|
out = numpy.vstack(out)
|
|
dtype = [("desc_snapshot_index", numpy.float32),
|
|
("desc_mass", numpy.float32),
|
|
("desc_x", numpy.float32),
|
|
("desc_y", numpy.float32),
|
|
("desc_z", numpy.float32),
|
|
("prog_snapshot_index", numpy.float32),
|
|
("prog_totmass", numpy.float32),
|
|
("mainprog_mass", numpy.float32),
|
|
("minprog_totmass", numpy.float32),
|
|
("merger_ratio", numpy.float32),
|
|
]
|
|
|
|
return numpy.array([tuple(row) for row in out], dtype=dtype)
|
|
|
|
def match_mass_to_phewcat(self, phewcat):
|
|
"""
|
|
For each clump mass in the PHEW catalogue, find the corresponding
|
|
clump mass in the merger tree file. If no match is found returns NaN.
|
|
These are not equal because the PHEW catalogue mass is the mass without
|
|
unbinding.
|
|
|
|
Parameters
|
|
----------
|
|
phewcat : csiborgtools.read.CSiBORGPEEWReader
|
|
PHEW catalogue reader.
|
|
|
|
Returns
|
|
-------
|
|
mass : float
|
|
"""
|
|
if phewcat.nsim != self.nsim:
|
|
raise ValueError("Simulation indices do not match.")
|
|
|
|
nsnap = phewcat.nsnap
|
|
indxs = phewcat["index"]
|
|
mergertree_mass = numpy.full(len(indxs), numpy.nan,
|
|
dtype=numpy.float32)
|
|
|
|
for i, ind in enumerate(indxs):
|
|
try:
|
|
mergertree_mass[i] = self.get_mass(ind, nsnap)
|
|
except KeyError:
|
|
continue
|
|
|
|
return mergertree_mass
|
|
|
|
def match_pos_to_phewcat(self, phewcat):
|
|
"""
|
|
For each clump mass in the PHEW catalogue, find the corresponding
|
|
clump mass in the merger tree file. If no match is found returns NaN.
|
|
These are not equal because the PHEW catalogue mass is the mass without
|
|
unbinding.
|
|
|
|
Parameters
|
|
----------
|
|
phewcat : csiborgtools.read.CSiBORGPEEWReader
|
|
PHEW catalogue reader.
|
|
|
|
Returns
|
|
-------
|
|
mass : float
|
|
"""
|
|
if phewcat.nsim != self.nsim:
|
|
raise ValueError("Simulation indices do not match.")
|
|
|
|
nsnap = phewcat.nsnap
|
|
indxs = phewcat["index"]
|
|
mergertree_pos = numpy.full((len(indxs), 3), numpy.nan,
|
|
dtype=numpy.float32)
|
|
|
|
for i, ind in enumerate(indxs):
|
|
try:
|
|
mergertree_pos[i] = self.get_pos(ind, nsnap)
|
|
except KeyError:
|
|
continue
|
|
|
|
return mergertree_pos[:, ::-1] # TODO later remove
|
|
|
|
|
|
###############################################################################
|
|
# Manual halo tracking. #
|
|
###############################################################################
|
|
|
|
|
|
def track_halo_manually(cats, hid, maxdist=0.15, max_dlogm=0.35):
|
|
"""
|
|
Manually track a halo without using the merger tree. Searches for nearby
|
|
halo of similar mass in adjacent snapshots. Supports only main haloes and
|
|
can only work for the most massive haloes in a simulation, however even
|
|
then significant care should be taken.
|
|
|
|
Selects the most massive halo within a search radius to be a match.
|
|
|
|
In case a progenitor is not found in the adjacent snapshot, the search
|
|
continues in the next snapshot. Occasionally some haloes disappear..
|
|
|
|
Parameters
|
|
----------
|
|
cats : dict
|
|
Dictionary of halo catalogues, keys are snapshot indices.
|
|
hid : int
|
|
Halo ID.
|
|
maxdist : float, optional
|
|
Maximum comoving distance for a halo to move between adjacent
|
|
snapshots.
|
|
max_dlogm : float, optional
|
|
Maximum |log mass ratio| for a halo to be considered a progenitor.
|
|
|
|
Returns
|
|
-------
|
|
hist : structured array
|
|
History of the halo.
|
|
"""
|
|
nsnap0 = max(cats.keys())
|
|
k = cats[nsnap0]["hid_to_array_index"][hid]
|
|
pos = cats[nsnap0]["cartesian_pos"][k]
|
|
mass = cats[nsnap0]["summed_mass"][k]
|
|
|
|
if not cats[nsnap0]["is_main"][k]:
|
|
raise ValueError("Only main haloes are supported.")
|
|
|
|
if not mass > 1e13:
|
|
raise ValueError("Only the most massive haloes are supported.")
|
|
|
|
if not cats[nsnap0]["dist"][k] < 155.5:
|
|
raise ValueError("Only high-resolution region haloes are supported.")
|
|
|
|
dtype = [("snapshot_index", numpy.float32),
|
|
("x", numpy.float32),
|
|
("y", numpy.float32),
|
|
("z", numpy.float32),
|
|
("mass", numpy.float32),
|
|
("desc_dist", numpy.float32),
|
|
]
|
|
hist = numpy.full(len(cats), numpy.nan, dtype=dtype)
|
|
hist["snapshot_index"][0] = nsnap0
|
|
hist["x"][0], hist["y"][0], hist["z"][0] = pos
|
|
hist["mass"][0] = mass
|
|
|
|
for n in trange(1, len(cats), desc="Tracking halo"):
|
|
nsnap = nsnap0 - n
|
|
hist["snapshot_index"][n] = nsnap
|
|
|
|
# Find indices of all main haloes that are within a box of width
|
|
indxs = cats[nsnap].select_in_box(pos, 2 * maxdist)
|
|
|
|
if len(indxs) == 0:
|
|
continue
|
|
|
|
nearby_pos = cats[nsnap]["cartesian_pos"][indxs]
|
|
nearby_mass = cats[nsnap]["summed_mass"][indxs]
|
|
|
|
# Distance from the previous position and |log mass ratio|
|
|
dist = periodic_distance(nearby_pos, pos, cats[nsnap].box.boxsize)
|
|
dlogm = numpy.abs(numpy.log10(nearby_mass / mass))
|
|
k = numpy.argmin(dlogm)
|
|
|
|
if (dlogm[k] < max_dlogm) & (dist[k] < maxdist):
|
|
hist["x"][n], hist["y"][n], hist["z"][n] = nearby_pos[k]
|
|
hist["mass"][n] = nearby_mass[k]
|
|
hist["desc_dist"][n] = dist[k]
|
|
|
|
pos = nearby_pos[k]
|
|
mass = nearby_mass[k]
|
|
|
|
return hist
|