source: trunk/src/ScantableWrapper.h@ 1418

Last change on this file since 1418 was 1391, checked in by Malte Marquarding, 17 years ago

merge from alma branch to get alma/GBT support. Commented out fluxUnit changes as they are using a chnaged interface to PKSreader/writer. Also commented out progress meter related code.
  • Property svn:eol-style set to native
  • Property svn:keywords set to Author Date Id Revision
File size: 6.5 KB
RevLine 
[847]1//
2// C++ Interface: Scantable
3//
4// Description:
5//
6//
7// Author: Malte Marquarding <asap@atnf.csiro.au>, (C) 2006
8//
9// Copyright: See COPYING file that comes with this distribution
10//
11//
12#ifndef ASAPSCANTABLEWRAPPER_H
13#define ASAPSCANTABLEWRAPPER_H
[2]14
15#include <vector>
16#include <string>
[380]17#include <casa/Arrays/Vector.h>
[2]18
[465]19#include "MathUtils.h"
[901]20#include "STFit.h"
[847]21#include "Scantable.h"
[2]22
[83]23namespace asap {
[847]24/**
25 * This class contains and wraps a CountedPtr<Scantable>, as the CountedPtr
26 * class does not provide the dor operator which is need for references
27 * in boost::python
28 * see Scantable for interfce description
29 *
30 * @brief The main ASAP data container wrapper
31 * @author Malte Marquarding
32 * @date 2006-02-23
33 * @version 2.0a
34*/
35class ScantableWrapper {
[2]36
37public:
[1385]38 explicit ScantableWrapper( const std::string& name,
[1077]39 int type=0)
[864]40 {
41 casa::Table::TableType tp = casa::Table::Memory;
[1077]42 if ( type == 1 ) tp = casa::Table::Plain;
[864]43 table_ = new Scantable(name, tp);
44 }
[90]45
[1350]46 explicit ScantableWrapper(int type=0)
[864]47 {
48 casa::Table::TableType tp = casa::Table::Memory;
[1077]49 if ( type == 1) tp = casa::Table::Plain;
[864]50 table_= new Scantable(tp);
51 }
[90]52
[1350]53 explicit ScantableWrapper(casa::CountedPtr<Scantable> cp) : table_(cp) {;}
[90]54
[847]55 ScantableWrapper(const ScantableWrapper& mt) :
56 table_(mt.getCP()) {;}
[90]57
[868]58 void assign(const ScantableWrapper& mt)
59 { table_= mt.getCP(); }
60
[847]61 ScantableWrapper copy() {
62 return ScantableWrapper(new Scantable(*(this->getCP()), false));
[80]63 }
[868]64
[896]65 std::vector<float> getSpectrum( int whichrow=0,
[905]66 const std::string& poltype="" ) const {
[896]67 return table_->getSpectrum(whichrow, poltype);
[2]68 }
[527]69 // std::string getPolarizationLabel(bool linear, bool stokes, bool linPol, int polIdx) const {
70 // Boost fails with 4 arguments.
[902]71 std::string getPolarizationLabel(int index, const std::string& ptype) const {
72 return table_->getPolarizationLabel(index, ptype);
[494]73 }
[527]74
[896]75 std::vector<double> getAbcissa(int whichrow=0) const
76 { return table_->getAbcissa(whichrow); }
[41]77
[896]78 std::string getAbcissaLabel(int whichrow=0) const
79 { return table_->getAbcissaLabel(whichrow); }
[157]80
[896]81 float getTsys(int whichrow=0) const
82 { return table_->getTsys(whichrow); }
[2]83
[896]84 std::string getTime(int whichrow=0) const
85 { return table_->getTime(whichrow); }
[207]86
[1350]87 double getIntTime(int whichrow=0) const
88 { return table_->getIntTime(whichrow); }
89
[1068]90 std::string getDirectionString(int whichrow=0) const
91 { return table_->getDirectionString(whichrow); }
92
[864]93 std::string getFluxUnit() const { return table_->getFluxUnit(); }
94
95 void setFluxUnit(const std::string& unit) { table_->setFluxUnit(unit); }
96
[238]97 void setInstrument(const std::string& name) {table_->setInstrument(name);}
[1189]98 void setFeedType(const std::string& ftype) {table_->setFeedType(ftype);}
[238]99
[896]100 std::vector<bool> getMask(int whichrow=0) const
101 { return table_->getMask(whichrow); }
[2]102
[1000]103 void flag(const std::vector<bool>& msk=std::vector<bool>())
104 { table_->flag(msk); }
[2]105
[896]106 std::string getSourceName(int whichrow=0) const
107 { return table_->getSourceName(whichrow); }
[794]108
[896]109 float getElevation(int whichrow=0) const
110 { return table_->getElevation(whichrow); }
[90]111
[896]112 float getAzimuth(int whichrow=0) const
113 { return table_->getAzimuth(whichrow); }
[2]114
[896]115 float getParAngle(int whichrow=0) const
116 { return table_->getParAngle(whichrow); }
[2]117
[864]118
[884]119 void setSpectrum(std::vector<float> spectrum, int whichrow=0)
120 { table_->setSpectrum(spectrum, whichrow); }
[868]121
[1111]122 std::vector<uint> getIFNos() { return table_->getIFNos(); }
[864]123 int getIF(int whichrow) const {return table_->getIF(whichrow);}
[1111]124 std::vector<uint> getBeamNos() { return table_->getBeamNos(); }
[864]125 int getBeam(int whichrow) const {return table_->getBeam(whichrow);}
[1111]126 std::vector<uint> getPolNos() { return table_->getPolNos(); }
[864]127 int getPol(int whichrow) const {return table_->getPol(whichrow);}
[868]128 int getCycle(int whichrow) const {return table_->getCycle(whichrow);}
[1111]129 std::vector<uint> getScanNos() { return table_->getScanNos(); }
[868]130 int getScan(int whichrow) const {return table_->getScan(whichrow);}
[864]131
132 STSelector getSelection() const { return table_->getSelection(); }
[868]133 void setSelection(const STSelector& sts)
134 { return table_->setSelection(sts);}
[864]135
[896]136 std::string getPolType() const { return table_->getPolType(); }
137
[864]138 int nif(int scanno=-1) const {return table_->nif(scanno);}
139 int nbeam(int scanno=-1) const {return table_->nbeam(scanno);}
140 int npol(int scanno=-1) const {return table_->npol(scanno);}
141 int nchan(int ifno=-1) const {return table_->nchan(ifno);}
142 int nscan() const {return table_->nscan();}
143 int nrow() const {return table_->nrow();}
[902]144 int ncycle(int scanno) const {return table_->ncycle(scanno);}
[2]145
[864]146 void makePersistent(const std::string& fname)
147 { table_->makePersistent(fname); }
[90]148
[1068]149 void setSourceType(int stype)
150 { table_->setSourceType(stype); }
151
[1360]152 void shift(int npix)
153 { table_->shift(npix); }
154
[1170]155 void setRestFrequencies(double rf, const std::string& name,
156 const std::string& unit)
157 { table_->setRestFrequencies(rf, name, unit); }
[925]158/*
[868]159 void setRestFrequencies(const std::string& name) {
160 table_->setRestFrequencies(name);
[847]161 }
[925]162*/
[745]163
[864]164 std::vector<double> getRestFrequencies() const
165 { return table_->getRestFrequencies(); }
[251]166
[105]167 void setCoordInfo(std::vector<string> theinfo) {
168 table_->setCoordInfo(theinfo);
169 }
170 std::vector<string> getCoordInfo() const {
171 return table_->getCoordInfo();
172 }
[90]173
[987]174 void setDirection(const std::string& refstr="")
175 { table_->setDirectionRefString(refstr); }
176
[847]177 casa::CountedPtr<Scantable> getCP() const {return table_;}
178 Scantable* getPtr() {return &(*table_);}
[380]179
[745]180 std::string summary(bool verbose=false) const {
181 return table_->summary(verbose);
[380]182 }
[745]183
[864]184 std::vector<std::string> getHistory()const
185 { return table_->getHistory(); }
[207]186
[864]187 void addHistory(const std::string& hist)
188 { table_->addHistory(hist); }
[745]189
[972]190 void addFit(const STFitEntry& fit, int row)
191 { table_->addFit(fit, row); }
192
193 STFitEntry getFit(int whichrow) const
194 { return table_->getFit(whichrow); }
195
[777]196 void calculateAZEL() { table_->calculateAZEL(); };
[465]197
[1003]198 std::vector<std::string> columnNames() const
199 { return table_->columnNames(); }
200
[1391]201 std::string getAntennaName() const
202 { return table_->getAntennaName(); }
203
204 int checkScanInfo(const vector<int>& scanlist) const
205 { return table_->checkScanInfo(scanlist); }
206
207 std::vector<double> getDirectionVector(int whichrow) const
208 { return table_->getDirectionVector(whichrow); }
209
[2]210private:
[847]211 casa::CountedPtr<Scantable> table_;
[2]212};
213
214} // namespace
215#endif
[421]216
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