source: branches/alma/src/STMathWrapper.h@ 1615

Last change on this file since 1615 was 1516, checked in by Kana Sugimoto, 16 years ago

New Development: No

JIRA Issue: Yes (CAS-1079)

Ready to Release: Yes

Interface Changes: Yes

What Interface Changed: Changed names of functions

  1. (NEW) std::vector<int> asap::python::stmath::_minmaxchan (OLD) std::vector<int> asap::python::stmath::_minmaxpos @python_STMath.cpp
  2. (NEW) std::vector<int> STMathWrapper::minMaxChan (OLD) std::vector<int> STMathWrapper::minMaxPos @STMathWrapper.h
  3. (NEW) std::vector<int> STMath::minMaxChan (OLD) std::vector<int> STMath::minMaxPos @STMath.h & .cpp

Test Programs:

Run scantable.stats() with the parameter stat='min_abc' or 'max_abc',
and you(ll get min/max value with its position.
Notice that parameter names to select in scantable.stats() are also changed.

Put in Release Notes: No

Module(s): scantable.stats()

Description:

The names of functions are changed from rev. 1514.

These modifications are to return min/max value with its
position (channel/frequency/velocity) by running scantable.stats().

Diagram:
scantable.stats() ->asap::python::stmath::_minmaxchan
-> STMathWrapper::minMaxChan -> STMath::minMaxChan() -> mathutil::minMaxPos()
-> casa::minMax (@casacore/casa/casa/Arrays/MaskArrMath.tcc)


  • Property svn:eol-style set to native
  • Property svn:keywords set to Author Date Id Revision
File size: 7.9 KB
RevLine 
[872]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
[49]14
15#include <vector>
16#include <string>
17
[872]18#include <casa/Utilities/CountedPtr.h>
[49]19
[872]20#include "STMath.h"
21#include "Scantable.h"
22#include "ScantableWrapper.h"
[49]23
[83]24namespace asap {
[49]25
[872]26/**
27Wrapper class to handle ScantableWrapper
[49]28
[872]29@author Malte Marquarding
30*/
31class STMathWrapper : public STMath {
32public:
33 STMathWrapper() {;}
[1353]34 explicit STMathWrapper(bool insitu) : STMath(insitu) {;}
[716]35
[872]36 virtual ~STMathWrapper() {;}
[49]37
[872]38 ScantableWrapper
39 average( const std::vector<ScantableWrapper>& in,
40 const std::vector<bool>& mask,
41 const std::string& weight,
[977]42 const std::string& avmode )
[872]43 {
44 std::vector<casa::CountedPtr<Scantable> > sts;
[996]45 for (unsigned int i=0; i<in.size(); ++i) sts.push_back(in[i].getCP());
[978]46 return ScantableWrapper(STMath::average(sts, mask, weight, avmode));
[872]47 }
[1069]48
[940]49 ScantableWrapper
[1069]50 averageChannel( const ScantableWrapper& in,
[1078]51 const std::string& mode = "MEDIAN",
52 const std::string& avmode = "NONE")
[1069]53 {
[1078]54 return ScantableWrapper(STMath::averageChannel(in.getCP(), mode, avmode));
[1069]55 }
56
57 ScantableWrapper
[940]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));}
[107]62
[872]63 ScantableWrapper
[1145]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
[872]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)); }
[49]74
[1308]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
[1066]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,
[872]89 bool preserve = true )
[1066]90 { return ScantableWrapper( STMath::quotient( on.getCP(), off.getCP(),
91 preserve ) ); }
[151]92
[1388]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
[872]114 ScantableWrapper
115 freqSwitch( const ScantableWrapper& in )
116 { return ScantableWrapper(STMath::freqSwitch(in.getCP())); }
[300]117
[872]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); }
[222]122
[1516]123 std::vector<int> minMaxChan(const ScantableWrapper& in,
[1514]124 const std::vector<bool>& mask,
125 const std::string& which)
[1516]126 { return STMath::minMaxChan(in.getCP(), mask, which); }
[1514]127
[872]128 ScantableWrapper bin( const ScantableWrapper& in, int width=5)
129 { return ScantableWrapper(STMath::bin(in.getCP(), width)); }
[228]130
[872]131 ScantableWrapper
132 resample(const ScantableWrapper& in,
133 const std::string& method, float width)
134 { return ScantableWrapper(STMath::resample(in.getCP(), method, width)); }
[262]135
[872]136 ScantableWrapper
137 smooth(const ScantableWrapper& in, const std::string& kernel, float width)
138 { return ScantableWrapper(STMath::smooth(in.getCP(), kernel, width)); }
[457]139
[872]140 ScantableWrapper
141 gainElevation(const ScantableWrapper& in,
142 const std::vector<float>& coeff,
143 const std::string& filename,
[996]144 const std::string& method)
[503]145
[872]146 { return
147 ScantableWrapper(STMath::gainElevation(in.getCP(), coeff, filename, method)); }
[235]148
[872]149 ScantableWrapper
150 convertFlux(const ScantableWrapper& in, float d,
151 float etaap, float jyperk)
152 { return ScantableWrapper(STMath::convertFlux(in.getCP(), d, etaap, jyperk)); }
[49]153
[872]154 ScantableWrapper opacity(const ScantableWrapper& in,
155 float tau)
156 { return ScantableWrapper(STMath::opacity(in.getCP(), tau)); }
[49]157
[872]158 ScantableWrapper
159 merge(const std::vector<ScantableWrapper >& in)
[716]160
[872]161 {
162 std::vector<casa::CountedPtr<Scantable> > sts;
[996]163 for (unsigned int i=0; i<in.size(); ++i) sts.push_back(in[i].getCP());
[872]164 return ScantableWrapper(STMath::merge(sts)); }
[716]165
[912]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
[927]178 ScantableWrapper frequencyAlign( const ScantableWrapper& in,
179 const std::string& refTime,
180 const std::string& method )
181 { return ScantableWrapper(STMath::frequencyAlign(in.getCP())); }
182
[992]183 ScantableWrapper convertPolarisation( const ScantableWrapper& in,
184 const std::string& newtype )
185 { return ScantableWrapper(STMath::convertPolarisation(in.getCP(),newtype)); }
[1145]186
[1140]187 ScantableWrapper mxExtract( const ScantableWrapper& in,
188 const std::string& scantype="on" )
189 { return ScantableWrapper(STMath::mxExtract(in.getCP(),scantype)); }
[992]190
[1192]191 ScantableWrapper lagFlag( const ScantableWrapper& in,
[1200]192 double frequency, double width )
[1192]193 { return ScantableWrapper(STMath::lagFlag(in.getCP(), frequency, width)); }
194
[1446]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
[49]208};
209
[872]210}
211
[49]212#endif
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