Coverage for /wheeldirectory/casa-6.7.0-11-py3.10.el8/lib/py/lib/python3.10/site-packages/casatools/singledishms.py: 58%
43 statements
« prev ^ index » next coverage.py v7.6.4, created at 2024-10-23 15:54 +0000
1##################### generated by xml-casa (v2) from singledishms.xml ##############
2##################### a4df7bdedb92ac3c6488a5f6ac49bdc7 ##############################
3from __future__ import absolute_import
4from .__casac__.singledishms import singledishms as _singledishms
6from .errors import create_error_string
7from .typecheck import CasaValidator as _validator
8_pc = _validator( )
9from .coercetype import coerce as _coerce
12class singledishms:
13 _info_group_ = """singledishms"""
14 _info_desc_ = """New single dish tool interface to process an MS"""
15 ### self
16 def __init__(self, *args, **kwargs):
17 """This is used to construct a singledishms tool instance. The created instance is
18 just like the default one ('sdms') but physically independent from it.
19 This is useful when users want to create their own tool instance inside scripts/modules
20 to avoid possible conflicts that may happen when using the default tool instance
21 from various places.
22 """
23 self._swigobj = kwargs.get('swig_object',None)
24 if self._swigobj is None:
25 self._swigobj = _singledishms()
27 def open(self, ms_name=''):
28 """Close the current MeasurementSet and open a new MeasurementSet
29 instead. The current state of sdms is retained, except for
30 the data selection.
31 """
32 return self._swigobj.open(ms_name)
34 def close(self):
35 """This is used to close sdms tools. Note that the
36 data is written to disk and detached from sdms tool.
37 This is a synonym for done.
39 """
40 return self._swigobj.close()
42 def done(self):
43 """This is used to close and sdms tools. Note that the
44 data is written to disk and detached from sdms tool.
45 This is a synonym for close.
47 """
48 return self._swigobj.done()
50 def name(self):
51 """Returns the name of the attached MeasurementSet.
53 """
54 return self._swigobj.name()
56 def subtract_baseline(self, datacolumn='data', outfile='', bloutput='', dosubtract=True, spw=[ ], updateweight=False, sigmavalue='stddev', blfunc='poly', order=int(5), clip_threshold_sigma=float(3.0), num_fitting_max=int(1), linefinding=False, threshold=float(5.0), avg_limit=int(4), minwidth=int(4), edge=[ int(0),int(0) ]):
57 """Fit baseline and subtract it from selected spectra
59 """
60 return self._swigobj.subtract_baseline(datacolumn, outfile, bloutput, dosubtract, spw, updateweight, sigmavalue, blfunc, order, clip_threshold_sigma, num_fitting_max, linefinding, threshold, avg_limit, minwidth, edge)
62 def subtract_baseline_cspline(self, datacolumn='data', outfile='', bloutput='', dosubtract=True, spw=[ ], updateweight=False, sigmavalue='stddev', npiece=int(5), clip_threshold_sigma=float(3.0), num_fitting_max=int(1), linefinding=False, threshold=float(5.0), avg_limit=int(4), minwidth=int(4), edge=[ int(0),int(0) ]):
63 """Fit baseline and subtract it from selected spectra
65 """
66 return self._swigobj.subtract_baseline_cspline(datacolumn, outfile, bloutput, dosubtract, spw, updateweight, sigmavalue, npiece, clip_threshold_sigma, num_fitting_max, linefinding, threshold, avg_limit, minwidth, edge)
68 def subtract_baseline_sinusoid(self, datacolumn='data', outfile='', bloutput='', dosubtract=True, spw=[ ], updateweight=False, sigmavalue='stddev', addwn='0', rejwn='', applyfft=False, fftmethod='fft', fftthresh=[ ], clip_threshold_sigma=float(3.0), num_fitting_max=int(1), linefinding=False, threshold=float(5.0), avg_limit=int(4), minwidth=int(4), edge=[ int(0),int(0) ]):
69 """Fit baseline and subtract it from selected spectra
71 """
72 return self._swigobj.subtract_baseline_sinusoid(datacolumn, outfile, bloutput, dosubtract, spw, updateweight, sigmavalue, addwn, rejwn, applyfft, fftmethod, fftthresh, clip_threshold_sigma, num_fitting_max, linefinding, threshold, avg_limit, minwidth, edge)
74 def subtract_baseline_variable(self, datacolumn='data', outfile='', bloutput='', dosubtract=True, spw=[ ], updateweight=False, sigmavalue='stddev', blparam='', verbose=False):
75 """Fit baseline and subtract it from selected spectra.
76 Fit parameters for each spectrum are obtained from a text file.
78 """
79 return self._swigobj.subtract_baseline_variable(datacolumn, outfile, bloutput, dosubtract, spw, updateweight, sigmavalue, blparam, verbose)
81 def apply_baseline_table(self, bltable='', datacolumn='data', spw=[ ], updateweight=False, sigmavalue='stddev', outfile=''):
82 """For each row of given baseline table, read baseline parameters,
83 construct baseline, then subtract it from the corresponding spectrum
84 in the MS.
86 """
87 return self._swigobj.apply_baseline_table(bltable, datacolumn, spw, updateweight, sigmavalue, outfile)
89 def fit_line(self, datacolumn='data', spw=[ ], pol=[ ], timebin='', timespan='', polaverage='', fitfunc='gaussian', nfit='0', linefinding=False, threshold=float(5.0), avg_limit=int(4), minwidth=int(4), edge=[ int(0),int(0) ], tempfile='', tempoutfile=''):
90 """Fit line profile to selected spectra and obtain the best-fit parameter values
92 """
93 return self._swigobj.fit_line(datacolumn, spw, pol, timebin, timespan, polaverage, fitfunc, nfit, linefinding, threshold, avg_limit, minwidth, edge, tempfile, tempoutfile)
95 def set_selection(self, spw=[ ], field=[ ], antenna=[ ], timerange=[ ], scan=[ ], observation=[ ], polarization=[ ], beam=[ ], intent=[ ], feed=[ ], taql='', reindex=True):
96 """
97 """
98 return self._swigobj.set_selection(spw, field, antenna, timerange, scan, observation, polarization, beam, intent, feed, taql, reindex)
100 def smooth(self, type='gaussian', width=float(0.0), datacolumn='data', outfile=''):
101 """NOTE: currently only Gaussian kernel is supported.
103 """
104 return self._swigobj.smooth(type, width, datacolumn, outfile)
106 def atmcor(self, config={ }, datacolumn='data', outfile=''):
107 """Offline atmospheric correction of calibrated data
109 """
110 return self._swigobj.atmcor(config, datacolumn, outfile)
112 def importasap(self, infile='', outfile='', parallel=False):
113 """Import ASAP Scantable data to MeasurementSet.
115 """
116 return self._swigobj.importasap(infile, outfile, parallel)
118 def importnro(self, infile='', outfile='', parallel=False):
119 """Import NOSTAR data to MeasurementSet.
121 """
122 return self._swigobj.importnro(infile, outfile, parallel)