swh:1:snp:abe315f955ee28c98100d4f5da935756d780a75d
Tip revision: 617c8e77d30037c1e1fb3a2ab460cb0aaa11eca1 authored by Paul La Plante on 29 June 2019, 20:31:12 UTC
Add support for bitshuffle on visdata
Add support for bitshuffle on visdata
Tip revision: 617c8e7
renumber_ants.py
#!/usr/bin/env python
# -*- mode: python; coding: utf-8 -*
# Copyright (c) 2018 Radio Astronomy Software Group
# Licensed under the 2-clause BSD License
"""
A command-line script for renumbering antenna numbers > 254 if possible.
This is necessary for CASA because CASA cannot read in uvfits files with
antenna numbers > 254 (apparently 255 isn't ok because 0-based antenna 255 is
1-based 256 and that gets turned into 0 in some 8-bit code path in CASA).
This only works if the number of antennas (Nants_telescope) is less than 255.
Antenna names are not changed, so they reflect the original names of the antennas.
"""
from __future__ import absolute_import, division, print_function
import numpy as np
import os
import argparse
from pyuvdata import UVData
import sys
# setup argparse
a = argparse.ArgumentParser(description="A command-line script for renumbering "
"antenna numbers > 254 if possible.")
a.add_argument("file_in", type=str, help="input uvfits file.")
a.add_argument("file_out", type=str, help="output uvfits file.")
a.add_argument("--overwrite", default=False, action='store_true',
help="overwrite output file if it already exists.")
a.add_argument("--verbose", default=False, action='store_true',
help="report feedback to stdout.")
a.add_argument("--filetype", default='uvfits', type=str, help="filetype, options=['uvfits', 'miriad']")
# get args
args = a.parse_args()
if os.path.exists(args.file_out) and args.overwrite is False:
print("{} exists. Use --overwrite to overwrite the file.".format(args.file_out))
sys.exit(0)
uv_obj = UVData()
if args.filetype == 'uvfits':
uv_obj.read_uvfits(args.file_in)
elif args.filetype == 'miriad':
uv_obj.read_miriad(args.file_in)
else:
raise IOError("didn't recognize filetype {}".format(arge.filetype))
large_ant_nums = sorted(list(uv_obj.antenna_numbers[np.where(uv_obj.antenna_numbers > 254)[0]]))
new_nums = sorted(list(set(range(255)) - set(uv_obj.antenna_numbers)))
if len(new_nums) < len(large_ant_nums):
raise ValueError('too many antennas in dataset, cannot renumber all below 255')
new_nums = new_nums[-1 * len(large_ant_nums):]
renumber_dict = dict(list(zip(large_ant_nums, new_nums)))
for ant_in, ant_out in renumber_dict.items():
if args.verbose:
print("renumbering {a1} to {a2}".format(a1=ant_in, a2=ant_out))
wh_ant_num = np.where(uv_obj.antenna_numbers == ant_in)[0]
wh_ant1_arr = np.where(uv_obj.ant_1_array == ant_in)[0]
wh_ant2_arr = np.where(uv_obj.ant_2_array == ant_in)[0]
uv_obj.antenna_numbers[wh_ant_num] = ant_out
uv_obj.ant_1_array[wh_ant1_arr] = ant_out
uv_obj.ant_2_array[wh_ant2_arr] = ant_out
uv_obj.baseline_array = uv_obj.antnums_to_baseline(uv_obj.ant_1_array, uv_obj.ant_2_array)
uv_obj.check()
if args.filetype == 'uvfits':
uv_obj.write_uvfits(args.file_out)
elif args.filetype == 'miriad':
uv_obj.write_miriad(args.file_out, clobber=True)