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STMathWrapper.h@ 1643

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Last change on this file since 1643 was 1633, checked in by Takeshi Nakazato, 15 years ago

New Development: No

JIRA Issue: Yes CAS-1422

Ready to Release: Yes

Interface Changes: Yes

What Interface Changed: Defined calibrate() and almacal() in python/asapmath.py

Defined cwcal() in STMath class

Test Programs: List test programs

Put in Release Notes: Yes

Module(s): task_sdaverage

Description: Describe your changes here...

asapmath.py is changed to be able to calibrate data for APEX.
This modification is tentatively considered a calibration of ALMA
single-dish data. However, it must be updated in the future since
I don't know how raw ALMA data are provided and I have to change
code along with read ALMA data.

The calibrate() function takes calibration mode from its argument and
looks antenna name of the input scantable, and calls appropriate calibration
function depending on the calibration mode and antenna name.
If antenna name include 'APEX' or 'ALMA', newly defined calibration function
apexcal() is called. For other antenna name, one of the existing calibration
functions (calps, calnod, calfs, auto_quotient) is called.

Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 8.2 KB

Line
1	//
2	// C++ Interface: STMathWrapper
3	//
4	// Description:
5	//
6	//
7	// Author: Malte Marquarding <Malte.Marquarding@csiro.au>, (C) 2006
8	//
9	// Copyright: See COPYING file that comes with this distribution
10	//
11	//
12	#ifndef ASAPSTMATHWRAPPER_H
13	#define ASAPSTMATHWRAPPER_H
14
15	#include <vector>
16	#include <string>
17
18	#include <casa/Utilities/CountedPtr.h>
19
20	#include "STMath.h"
21	#include "Scantable.h"
22	#include "ScantableWrapper.h"
23
24	namespace asap {
25
26	/**
27	Wrapper class to handle ScantableWrapper
28
29	@author Malte Marquarding
30	*/
31	class STMathWrapper : public STMath {
32	public:
33	STMathWrapper() {;}
34	explicit STMathWrapper(bool insitu) : STMath(insitu) {;}
35
36	virtual ~STMathWrapper() {;}
37
38	ScantableWrapper
39	average( const std::vector<ScantableWrapper>& in,
40	const std::vector<bool>& mask,
41	const std::string& weight,
42	const std::string& avmode )
43	{
44	std::vector<casa::CountedPtr<Scantable> > sts;
45	for (unsigned int i=0; i<in.size(); ++i) sts.push_back(in[i].getCP());
46	return ScantableWrapper(STMath::average(sts, mask, weight, avmode));
47	}
48
49	ScantableWrapper
50	averageChannel( const ScantableWrapper& in,
51	const std::string& mode = "MEDIAN",
52	const std::string& avmode = "NONE")
53	{
54	return ScantableWrapper(STMath::averageChannel(in.getCP(), mode, avmode));
55	}
56
57	ScantableWrapper
58	averagePolarisations( const ScantableWrapper& in,
59	const std::vector<bool>& mask,
60	const std::string& weight)
61	{ return ScantableWrapper(STMath::averagePolarisations(in.getCP(),mask, weight));}
62
63	ScantableWrapper
64	averageBeams( const ScantableWrapper& in,
65	const std::vector<bool>& mask,
66	const std::string& weight)
67
68	{ return ScantableWrapper(STMath::averageBeams(in.getCP(),mask, weight));}
69
70	ScantableWrapper
71	unaryOperate( const ScantableWrapper& in, float val,
72	const std::string& mode, bool tsys=false )
73	{ return ScantableWrapper(STMath::unaryOperate(in.getCP(), val, mode, tsys)); }
74
75	ScantableWrapper binaryOperate( const ScantableWrapper& left,
76	const ScantableWrapper& right,
77	const std::string& mode)
78	{ return ScantableWrapper( STMath::binaryOperate( left.getCP(), right.getCP(),
79	mode ) ); }
80
81
82	ScantableWrapper autoQuotient( const ScantableWrapper& in,
83	const std::string& mode = "NEAREST",
84	bool preserve = true )
85	{ return ScantableWrapper(STMath::autoQuotient(in.getCP(), mode, preserve)); }
86
87	ScantableWrapper quotient( const ScantableWrapper& on,
88	const ScantableWrapper& off,
89	bool preserve = true )
90	{ return ScantableWrapper( STMath::quotient( on.getCP(), off.getCP(),
91	preserve ) ); }
92
93	ScantableWrapper dototalpower( const ScantableWrapper& calon,
94	const ScantableWrapper& caloff, casa::Float tcal= 0 )
95	{ return ScantableWrapper( STMath::dototalpower( calon.getCP(), caloff.getCP(), tcal ) ); }
96
97	ScantableWrapper dosigref( const ScantableWrapper& sig,
98	const ScantableWrapper& ref,
99	int smoothref = 0, casa::Float tsysv=0.0, casa::Float tau=0.0)
100	{ return ScantableWrapper( STMath::dosigref( sig.getCP(), ref.getCP(), smoothref, tsysv, tau ) ); }
101
102	ScantableWrapper donod( const ScantableWrapper& s,
103	const std::vector<int>& scans,
104	int smoothref = 0,
105	casa::Float tsysv=0.0, casa::Float tau=0.0, casa::Float tcal=0.0 )
106	{ return ScantableWrapper( STMath::donod( s.getCP(), scans, smoothref, tsysv, tau, tcal ) ); }
107
108	ScantableWrapper dofs( const ScantableWrapper& s,
109	const std::vector<int>& scans,
110	int smoothref = 0,
111	casa::Float tsysv=0.0, casa::Float tau=0.0, casa::Float tcal=0.0 )
112	{ return ScantableWrapper( STMath::dofs( s.getCP(), scans, smoothref, tsysv, tau, tcal ) ); }
113
114	ScantableWrapper
115	freqSwitch( const ScantableWrapper& in )
116	{ return ScantableWrapper(STMath::freqSwitch(in.getCP())); }
117
118	std::vector<float> statistic(const ScantableWrapper& in,
119	const std::vector<bool>& mask,
120	const std::string& which)
121	{ return STMath::statistic(in.getCP(), mask, which); }
122
123	std::vector<int> minMaxChan(const ScantableWrapper& in,
124	const std::vector<bool>& mask,
125	const std::string& which)
126	{ return STMath::minMaxChan(in.getCP(), mask, which); }
127
128	ScantableWrapper bin( const ScantableWrapper& in, int width=5)
129	{ return ScantableWrapper(STMath::bin(in.getCP(), width)); }
130
131	ScantableWrapper
132	resample(const ScantableWrapper& in,
133	const std::string& method, float width)
134	{ return ScantableWrapper(STMath::resample(in.getCP(), method, width)); }
135
136	ScantableWrapper
137	smooth(const ScantableWrapper& in, const std::string& kernel, float width)
138	{ return ScantableWrapper(STMath::smooth(in.getCP(), kernel, width)); }
139
140	ScantableWrapper
141	gainElevation(const ScantableWrapper& in,
142	const std::vector<float>& coeff,
143	const std::string& filename,
144	const std::string& method)
145
146	{ return
147	ScantableWrapper(STMath::gainElevation(in.getCP(), coeff, filename, method)); }
148
149	ScantableWrapper
150	convertFlux(const ScantableWrapper& in, float d,
151	float etaap, float jyperk)
152	{ return ScantableWrapper(STMath::convertFlux(in.getCP(), d, etaap, jyperk)); }
153
154	ScantableWrapper opacity(const ScantableWrapper& in,
155	float tau)
156	{ return ScantableWrapper(STMath::opacity(in.getCP(), tau)); }
157
158	ScantableWrapper
159	merge(const std::vector<ScantableWrapper >& in)
160
161	{
162	std::vector<casa::CountedPtr<Scantable> > sts;
163	for (unsigned int i=0; i<in.size(); ++i) sts.push_back(in[i].getCP());
164	return ScantableWrapper(STMath::merge(sts)); }
165
166	ScantableWrapper rotateXYPhase( const ScantableWrapper& in, float angle)
167	{ return ScantableWrapper(STMath::rotateXYPhase(in.getCP(), angle)); }
168
169	ScantableWrapper rotateLinPolPhase( const ScantableWrapper& in, float angle)
170	{ return ScantableWrapper(STMath::rotateLinPolPhase(in.getCP(), angle)); }
171
172	ScantableWrapper invertPhase( const ScantableWrapper& in )
173	{ return ScantableWrapper(STMath::invertPhase(in.getCP())); }
174
175	ScantableWrapper swapPolarisations( const ScantableWrapper& in )
176	{ return ScantableWrapper(STMath::swapPolarisations(in.getCP())); }
177
178	ScantableWrapper frequencyAlign( const ScantableWrapper& in,
179	const std::string& refTime,
180	const std::string& method )
181	{ return ScantableWrapper(STMath::frequencyAlign(in.getCP())); }
182
183	ScantableWrapper convertPolarisation( const ScantableWrapper& in,
184	const std::string& newtype )
185	{ return ScantableWrapper(STMath::convertPolarisation(in.getCP(),newtype)); }
186
187	ScantableWrapper mxExtract( const ScantableWrapper& in,
188	const std::string& scantype="on" )
189	{ return ScantableWrapper(STMath::mxExtract(in.getCP(),scantype)); }
190
191	ScantableWrapper lagFlag( const ScantableWrapper& in,
192	double frequency, double width )
193	{ return ScantableWrapper(STMath::lagFlag(in.getCP(), frequency, width)); }
194
195	// test for average spectra with different channel/resolution
196	ScantableWrapper
197	new_average( const std::vector<ScantableWrapper>& in,
198	const bool& compel,
199	const std::vector<bool>& mask,
200	const std::string& weight,
201	const std::string& avmode )
202	{
203	std::vector<casa::CountedPtr<Scantable> > sts;
204	for (unsigned int i=0; i<in.size(); ++i) sts.push_back(in[i].getCP());
205	return ScantableWrapper(STMath::new_average(sts, compel, mask, weight, avmode));
206	}
207
208	// cwcal
209	ScantableWrapper cwcal( const ScantableWrapper &in,
210	const std::string calmode,
211	const std::string antname )
212	{
213	casa::CountedPtr<Scantable> tab = in.getCP() ;
214	casa::String mode( calmode ) ;
215	casa::String name( antname ) ;
216	return ScantableWrapper( STMath::cwcal( tab, mode, name ) ) ;
217	}
218	};
219
220	}
221
222	#endif

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