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| author | Aaron LI <aaronly.me@gmail.com> | 2016-03-31 10:57:34 +0800 |
|---|---|---|
| committer | Aaron LI <aaronly.me@gmail.com> | 2016-03-31 10:57:34 +0800 |
| commit | c9c896dea2ba43551c4e10bd49666105449e9bd7 (patch) | |
| tree | e94b73f17b2d776c2acd4c9549657f500c3dc7ce /astro/add_xflt.py | |
| parent | 2b6cb9b655a53d43b32a8a211287c82f4f59999a (diff) | |
| download | atoolbox-c9c896dea2ba43551c4e10bd49666105449e9bd7.tar.bz2 | |
add all scripts/tools
Diffstat (limited to 'astro/add_xflt.py')
| -rwxr-xr-x | astro/add_xflt.py | 159 |
1 files changed, 159 insertions, 0 deletions
diff --git a/astro/add_xflt.py b/astro/add_xflt.py new file mode 100755 index 0000000..8a718e6 --- /dev/null +++ b/astro/add_xflt.py @@ -0,0 +1,159 @@ +#!/usr/bin/env python3 +# -*- coding: utf-8 -*- +# +# Aaron LI +# 2015/06/16 + +""" +Add XFLT#### keywords to the spectrum header according to the provided +region, in order to employ the "PROJCT" model in XSPEC. +""" + +__version__ = "0.1.0" +__date__ = "2015-11-14" + +import sys +import argparse +import subprocess +import re +import os +from collections import OrderedDict + + +def parse_region(regstr): + """ + Parse the given region string into one of the following 4 cases: + 1. annulus + 2. pie (cxc) + 3. pie + annulus (ftools/xmm) + 4. other + + For the first 3 cases, the return is a dictionary like: + { 'shape': 'pie', 'xc': 55, 'yc': 89, + 'radius_in': 50, 'radius_out': 100, + 'angle_begin': 30, 'angle_end': 120 } + Otherwise, return None. + """ + re_annulus = re.compile(r'^.*(?P<shape>annulus)\(\s*(?P<xc>[\d.-]+)\s*,\s*(?P<yc>[\d.-]+)\s*,\s*(?P<radius_in>[\d.-]+)\s*,\s*(?P<radius_out>[\d.-]+)\s*\).*$', re.I) + re_pie_cxc = re.compile(r'^.*(?P<shape>pie)\(\s*(?P<xc>[\d.-]+)\s*,\s*(?P<yc>[\d.-]+)\s*,\s*(?P<radius_in>[\d.-]+)\s*,\s*(?P<radius_out>[\d.-]+)\s*,\s*(?P<angle_begin>[\d.-]+)\s*,\s*(?P<angle_end>[\d.-]+)\s*\).*$', re.I) + re_pie_ft = re.compile(r'^.*(?P<shape>pie)\(\s*(?P<xc>[\d.-]+)\s*,\s*(?P<yc>[\d.-]+)\s*,\s*(?P<angle_begin>[\d.-]+)\s*,\s*(?P<angle_end>[\d.-]+)\s*\).*$', re.I) + m_annulus = re_annulus.match(regstr) + m_pie_cxc = re_pie_cxc.match(regstr) + m_pie_ft = re_pie_ft.match(regstr) + if m_pie_cxc is not None: + # case 2: pie (cxc) + region = OrderedDict([ + ('shape', m_pie_cxc.group('shape').lower()), + ('xc', float(m_pie_cxc.group('xc'))), + ('yc', float(m_pie_cxc.group('yc'))), + ('radius_in', float(m_pie_cxc.group('radius_in'))), + ('radius_out', float(m_pie_cxc.group('radius_out'))), + ('angle_begin', float(m_pie_cxc.group('angle_begin'))), + ('angle_end', float(m_pie_cxc.group('angle_end'))) + ]) + elif m_pie_ft is not None: + # pie (ftools/xmm) + if m_annulus is not None: + # case 3: pie + annulus (ftools/xmm) + region = OrderedDict([ + ('shape', m_pie_ft.group('shape').lower()), + ('xc', float(m_pie_ft.group('xc'))), + ('yc', float(m_pie_ft.group('yc'))), + ('radius_in', float(m_annulus.group('radius_in'))), + ('radius_out', float(m_annulus.group('radius_out'))), + ('angle_begin', float(m_pie_ft.group('angle_begin'))), + ('angle_end', float(m_pie_ft.group('angle_end'))) + ]) + else: + region = None + elif m_annulus is not None: + # case 1: annulus + region = OrderedDict([ + ('shape', m_annulus.group('shape').lower()), + ('xc', float(m_annulus.group('xc'))), + ('yc', float(m_annulus.group('yc'))), + ('radius_in', float(m_annulus.group('radius_in'))), + ('radius_out', float(m_annulus.group('radius_out'))) + ]) + else: + region = None + return region + + +def make_xflt(region): + """ + Make a dictionary for the XFLT#### keywords and values according + to the provided region. + + Return: + a dictionary containing the XFLT#### keywords and values, e.g., + { 'XFLT0001': radius_out, 'XFLT0002': radius_out, 'XFLT0003': 0, + 'XFLT0004': angle_begin, 'XFLT0005': angle_end } + """ + if region.get('shape') == 'annulus': + xflt = OrderedDict([ + ('XFLT0001', region.get('radius_out')), + ('XFLT0002', region.get('radius_out')), + ('XFLT0003', 0) + ]) + elif region.get('shape') == 'pie': + xflt = OrderedDict([ + ('XFLT0001', region.get('radius_out')), + ('XFLT0002', region.get('radius_out')), + ('XFLT0003', 0), + ('XFLT0004', region.get('angle_begin')), + ('XFLT0005', region.get('angle_end')) + ]) + else: + xflt = None + return xflt + + +def add_xflt(fitsfile, xflt): + """ + Add XFLT#### keywords to the given FITS file. + """ + if xflt is not None: + for key, val in xflt.items(): + cmd = 'fthedit "%(file)s+1" keyword="%(key)s" operation=add value="%(val)s"' % \ + {'file': fitsfile, 'key': key, 'val': val} + print("CMD: %s" % cmd, file=sys.stderr) + subprocess.call(cmd, shell=True) + + +def main(): + parser = argparse.ArgumentParser( + description="Add XFLT???? keywords to spectrum header") + parser.add_argument("-V", "--version", action="version", + version="%(prog)s " + "%s (%s)" % (__version__, __date__)) + parser.add_argument("spectrum", help="input spectrum; @stack") + parser.add_argument("region", help="extraction region of this spectrum; @stack") + parser.add_argument("arcmin2pix", nargs='?', help="1 arcmin = ? pixel", + default=1.0, type=float) + args = parser.parse_args() + + if args.spectrum[0] == '@' and args.region[0] == '@': + spectrum = map(str.strip, open(args.spectrum[1:]).readlines()) + regionstr = map(str.strip, open(args.region[1:]).readlines()) + else: + spectrum = [ args.spectrum ] + regionstr = [ args.region ] + + for spec, reg in zip(spectrum, regionstr): + print("SPECTRUM: '%s'" % spec) + print("REGION: '%s'" % reg) + region = parse_region(reg) + if region is None: + print("ERROR: invalid region %s" % reg, file=sys.stderr) + sys.exit(11) + else: + # Convert pixel to arcmin + region['radius_in'] = region['radius_in'] / args.arcmin2pix + region['radius_out'] = region['radius_out'] / args.arcmin2pix + xflt = make_xflt(region) + add_xflt(spec, xflt) + + +if __name__ == "__main__": + main() + |