[2] | 1 | //#---------------------------------------------------------------------------
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| 2 | //# SDMath.cc: A collection of single dish mathematical operations
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| 3 | //#---------------------------------------------------------------------------
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| 4 | //# Copyright (C) 2004
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[125] | 5 | //# ATNF
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[2] | 6 | //#
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| 7 | //# This program is free software; you can redistribute it and/or modify it
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| 8 | //# under the terms of the GNU General Public License as published by the Free
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| 9 | //# Software Foundation; either version 2 of the License, or (at your option)
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| 10 | //# any later version.
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| 11 | //#
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| 12 | //# This program is distributed in the hope that it will be useful, but
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| 13 | //# WITHOUT ANY WARRANTY; without even the implied warranty of
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| 14 | //# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
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| 15 | //# Public License for more details.
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| 16 | //#
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| 17 | //# You should have received a copy of the GNU General Public License along
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| 18 | //# with this program; if not, write to the Free Software Foundation, Inc.,
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| 19 | //# 675 Massachusetts Ave, Cambridge, MA 02139, USA.
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| 20 | //#
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| 21 | //# Correspondence concerning this software should be addressed as follows:
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| 22 | //# Internet email: Malte.Marquarding@csiro.au
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| 23 | //# Postal address: Malte Marquarding,
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| 24 | //# Australia Telescope National Facility,
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| 25 | //# P.O. Box 76,
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| 26 | //# Epping, NSW, 2121,
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| 27 | //# AUSTRALIA
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| 28 | //#
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| 29 | //# $Id:
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| 30 | //#---------------------------------------------------------------------------
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[38] | 31 | #include <vector>
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| 32 |
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[81] | 33 | #include <casa/aips.h>
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[330] | 34 | #include <casa/iostream.h>
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| 35 | #include <casa/iomanip.h>
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[81] | 36 | #include <casa/BasicSL/String.h>
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| 37 | #include <casa/Arrays/IPosition.h>
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| 38 | #include <casa/Arrays/Array.h>
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[130] | 39 | #include <casa/Arrays/ArrayIter.h>
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| 40 | #include <casa/Arrays/VectorIter.h>
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[81] | 41 | #include <casa/Arrays/ArrayMath.h>
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| 42 | #include <casa/Arrays/ArrayLogical.h>
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| 43 | #include <casa/Arrays/MaskedArray.h>
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| 44 | #include <casa/Arrays/MaskArrMath.h>
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| 45 | #include <casa/Arrays/MaskArrLogi.h>
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[330] | 46 | #include <casa/Arrays/Matrix.h>
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[234] | 47 | #include <casa/BasicMath/Math.h>
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[221] | 48 | #include <casa/Containers/Block.h>
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[262] | 49 | #include <casa/Exceptions.h>
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| 50 | #include <casa/Quanta/Quantum.h>
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| 51 | #include <casa/Quanta/Unit.h>
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| 52 | #include <casa/Quanta/MVEpoch.h>
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[272] | 53 | #include <casa/Quanta/MVTime.h>
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[177] | 54 | #include <casa/Utilities/Assert.h>
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[2] | 55 |
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[262] | 56 | #include <coordinates/Coordinates/SpectralCoordinate.h>
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| 57 | #include <coordinates/Coordinates/CoordinateSystem.h>
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| 58 | #include <coordinates/Coordinates/CoordinateUtil.h>
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[309] | 59 | #include <coordinates/Coordinates/FrequencyAligner.h>
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[262] | 60 |
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| 61 | #include <lattices/Lattices/LatticeUtilities.h>
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| 62 | #include <lattices/Lattices/RebinLattice.h>
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| 63 |
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| 64 | #include <measures/Measures/MEpoch.h>
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| 65 | #include <measures/Measures/MDirection.h>
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| 66 | #include <measures/Measures/MPosition.h>
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| 67 |
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[177] | 68 | #include <scimath/Mathematics/VectorKernel.h>
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| 69 | #include <scimath/Mathematics/Convolver.h>
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[227] | 70 | #include <scimath/Mathematics/InterpolateArray1D.h>
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[234] | 71 | #include <scimath/Functionals/Polynomial.h>
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[177] | 72 |
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[81] | 73 | #include <tables/Tables/Table.h>
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| 74 | #include <tables/Tables/ScalarColumn.h>
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| 75 | #include <tables/Tables/ArrayColumn.h>
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[227] | 76 | #include <tables/Tables/ReadAsciiTable.h>
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[2] | 77 |
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[38] | 78 | #include "MathUtils.h"
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[232] | 79 | #include "SDDefs.h"
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[354] | 80 | #include "SDAttr.h"
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[2] | 81 | #include "SDContainer.h"
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| 82 | #include "SDMemTable.h"
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| 83 |
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| 84 | #include "SDMath.h"
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| 85 |
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[125] | 86 | using namespace casa;
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[83] | 87 | using namespace asap;
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[2] | 88 |
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[170] | 89 |
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| 90 | SDMath::SDMath()
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| 91 | {;}
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| 92 |
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[185] | 93 | SDMath::SDMath(const SDMath& other)
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[170] | 94 | {
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| 95 |
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| 96 | // No state
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| 97 |
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| 98 | }
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| 99 |
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| 100 | SDMath& SDMath::operator=(const SDMath& other)
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| 101 | {
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| 102 | if (this != &other) {
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| 103 | // No state
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| 104 | }
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| 105 | return *this;
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| 106 | }
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| 107 |
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[183] | 108 | SDMath::~SDMath()
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| 109 | {;}
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[170] | 110 |
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[183] | 111 |
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[262] | 112 |
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[397] | 113 | SDMemTable* SDMath::frequencyAlignment (const SDMemTable& in, const String& refTime,
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| 114 | const String& method, Bool perFreqID) const
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[262] | 115 | {
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[309] | 116 | // Get frame info from Table
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[262] | 117 |
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| 118 | std::vector<std::string> info = in.getCoordInfo();
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[294] | 119 |
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[309] | 120 | // Parse frequency system
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[294] | 121 |
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[309] | 122 | String systemStr(info[1]);
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| 123 | String baseSystemStr(info[3]);
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| 124 | if (baseSystemStr==systemStr) {
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| 125 | throw(AipsError("You have not set a frequency frame different from the initial - use function set_freqframe"));
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[262] | 126 | }
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[309] | 127 | //
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| 128 | MFrequency::Types freqSystem;
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| 129 | MFrequency::getType(freqSystem, systemStr);
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[294] | 130 |
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[267] | 131 | // Do it
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[262] | 132 |
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[397] | 133 | return frequencyAlign (in, freqSystem, refTime, method, perFreqID);
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[267] | 134 | }
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[262] | 135 |
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| 136 |
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| 137 |
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[185] | 138 | CountedPtr<SDMemTable> SDMath::average(const Block<CountedPtr<SDMemTable> >& in,
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| 139 | const Vector<Bool>& mask, Bool scanAv,
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[309] | 140 | const String& weightStr, Bool alignFreq) const
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[130] | 141 | //
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[144] | 142 | // Weighted averaging of spectra from one or more Tables.
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[130] | 143 | //
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| 144 | {
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[2] | 145 |
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[163] | 146 | // Convert weight type
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| 147 |
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| 148 | WeightType wtType = NONE;
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[185] | 149 | convertWeightString(wtType, weightStr);
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[163] | 150 |
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[144] | 151 | // Create output Table by cloning from the first table
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[2] | 152 |
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[144] | 153 | SDMemTable* pTabOut = new SDMemTable(*in[0],True);
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[130] | 154 |
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[144] | 155 | // Setup
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[130] | 156 |
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[144] | 157 | IPosition shp = in[0]->rowAsMaskedArray(0).shape(); // Must not change
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| 158 | Array<Float> arr(shp);
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| 159 | Array<Bool> barr(shp);
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[221] | 160 | const Bool useMask = (mask.nelements() == shp(asap::ChanAxis));
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[130] | 161 |
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[144] | 162 | // Columns from Tables
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[130] | 163 |
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[144] | 164 | ROArrayColumn<Float> tSysCol;
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| 165 | ROScalarColumn<Double> mjdCol;
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| 166 | ROScalarColumn<String> srcNameCol;
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| 167 | ROScalarColumn<Double> intCol;
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| 168 | ROArrayColumn<uInt> fqIDCol;
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[130] | 169 |
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[144] | 170 | // Create accumulation MaskedArray. We accumulate for each channel,if,pol,beam
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| 171 | // Note that the mask of the accumulation array will ALWAYS remain ALL True.
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| 172 | // The MA is only used so that when data which is masked Bad is added to it,
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| 173 | // that data does not contribute.
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| 174 |
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| 175 | Array<Float> zero(shp);
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| 176 | zero=0.0;
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| 177 | Array<Bool> good(shp);
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| 178 | good = True;
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| 179 | MaskedArray<Float> sum(zero,good);
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| 180 |
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| 181 | // Counter arrays
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| 182 |
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| 183 | Array<Float> nPts(shp); // Number of points
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| 184 | nPts = 0.0;
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| 185 | Array<Float> nInc(shp); // Increment
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| 186 | nInc = 1.0;
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| 187 |
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| 188 | // Create accumulation Array for variance. We accumulate for
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| 189 | // each if,pol,beam, but average over channel. So we need
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| 190 | // a shape with one less axis dropping channels.
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| 191 |
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| 192 | const uInt nAxesSub = shp.nelements() - 1;
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| 193 | IPosition shp2(nAxesSub);
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| 194 | for (uInt i=0,j=0; i<(nAxesSub+1); i++) {
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[221] | 195 | if (i!=asap::ChanAxis) {
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[144] | 196 | shp2(j) = shp(i);
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| 197 | j++;
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| 198 | }
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[2] | 199 | }
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[144] | 200 | Array<Float> sumSq(shp2);
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| 201 | sumSq = 0.0;
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| 202 | IPosition pos2(nAxesSub,0); // For indexing
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[130] | 203 |
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[144] | 204 | // Time-related accumulators
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[130] | 205 |
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[144] | 206 | Double time;
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| 207 | Double timeSum = 0.0;
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| 208 | Double intSum = 0.0;
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| 209 | Double interval = 0.0;
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[130] | 210 |
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[144] | 211 | // To get the right shape for the Tsys accumulator we need to
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| 212 | // access a column from the first table. The shape of this
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| 213 | // array must not change
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[130] | 214 |
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[144] | 215 | Array<Float> tSysSum;
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| 216 | {
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| 217 | const Table& tabIn = in[0]->table();
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| 218 | tSysCol.attach(tabIn,"TSYS");
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| 219 | tSysSum.resize(tSysCol.shape(0));
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| 220 | }
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| 221 | tSysSum =0.0;
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| 222 | Array<Float> tSys;
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| 223 |
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| 224 | // Scan and row tracking
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| 225 |
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| 226 | Int oldScanID = 0;
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| 227 | Int outScanID = 0;
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| 228 | Int scanID = 0;
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| 229 | Int rowStart = 0;
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| 230 | Int nAccum = 0;
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| 231 | Int tableStart = 0;
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| 232 |
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| 233 | // Source and FreqID
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| 234 |
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| 235 | String sourceName, oldSourceName, sourceNameStart;
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| 236 | Vector<uInt> freqID, freqIDStart, oldFreqID;
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| 237 |
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| 238 | // Loop over tables
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| 239 |
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| 240 | Float fac = 1.0;
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| 241 | const uInt nTables = in.nelements();
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| 242 | for (uInt iTab=0; iTab<nTables; iTab++) {
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| 243 |
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[309] | 244 | // Should check that the frequency tables don't change if doing FreqAlignment
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[221] | 245 |
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[144] | 246 | // Attach columns to Table
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| 247 |
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| 248 | const Table& tabIn = in[iTab]->table();
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| 249 | tSysCol.attach(tabIn, "TSYS");
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| 250 | mjdCol.attach(tabIn, "TIME");
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| 251 | srcNameCol.attach(tabIn, "SRCNAME");
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| 252 | intCol.attach(tabIn, "INTERVAL");
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| 253 | fqIDCol.attach(tabIn, "FREQID");
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| 254 |
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| 255 | // Loop over rows in Table
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| 256 |
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| 257 | const uInt nRows = in[iTab]->nRow();
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| 258 | for (uInt iRow=0; iRow<nRows; iRow++) {
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| 259 |
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| 260 | // Check conformance
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| 261 |
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| 262 | IPosition shp2 = in[iTab]->rowAsMaskedArray(iRow).shape();
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| 263 | if (!shp.isEqual(shp2)) {
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| 264 | throw (AipsError("Shapes for all rows must be the same"));
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| 265 | }
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| 266 |
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| 267 | // If we are not doing scan averages, make checks for source and
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| 268 | // frequency setup and warn if averaging across them
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| 269 |
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| 270 | // Get copy of Scan Container for this row
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| 271 |
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| 272 | SDContainer sc = in[iTab]->getSDContainer(iRow);
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| 273 | scanID = sc.scanid;
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| 274 |
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| 275 | // Get quantities from columns
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| 276 |
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| 277 | srcNameCol.getScalar(iRow, sourceName);
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| 278 | mjdCol.get(iRow, time);
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| 279 | tSysCol.get(iRow, tSys);
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| 280 | intCol.get(iRow, interval);
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| 281 | fqIDCol.get(iRow, freqID);
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| 282 |
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| 283 | // Initialize first source and freqID
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| 284 |
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| 285 | if (iRow==0 && iTab==0) {
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| 286 | sourceNameStart = sourceName;
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| 287 | freqIDStart = freqID;
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| 288 | }
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| 289 |
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| 290 | // If we are doing scan averages, see if we are at the end of an
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| 291 | // accumulation period (scan). We must check soutce names too,
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| 292 | // since we might have two tables with one scan each but different
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| 293 | // source names; we shouldn't average different sources together
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| 294 |
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| 295 | if (scanAv && ( (scanID != oldScanID) ||
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| 296 | (iRow==0 && iTab>0 && sourceName!=oldSourceName))) {
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| 297 |
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| 298 | // Normalize data in 'sum' accumulation array according to weighting scheme
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| 299 |
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[221] | 300 | normalize(sum, sumSq, nPts, wtType, asap::ChanAxis, nAxesSub);
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[144] | 301 |
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| 302 | // Fill scan container. The source and freqID come from the
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| 303 | // first row of the first table that went into this average (
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| 304 | // should be the same for all rows in the scan average)
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| 305 |
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| 306 | Float nR(nAccum);
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[185] | 307 | fillSDC(sc, sum.getMask(), sum.getArray(), tSysSum/nR, outScanID,
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[144] | 308 | timeSum/nR, intSum, sourceNameStart, freqIDStart);
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| 309 |
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| 310 | // Write container out to Table
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| 311 |
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| 312 | pTabOut->putSDContainer(sc);
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| 313 |
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| 314 | // Reset accumulators
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| 315 |
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| 316 | sum = 0.0;
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| 317 | sumSq = 0.0;
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| 318 | nAccum = 0;
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| 319 | //
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| 320 | tSysSum =0.0;
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| 321 | timeSum = 0.0;
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| 322 | intSum = 0.0;
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[221] | 323 | nPts = 0.0;
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[144] | 324 |
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| 325 | // Increment
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| 326 |
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| 327 | rowStart = iRow; // First row for next accumulation
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| 328 | tableStart = iTab; // First table for next accumulation
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| 329 | sourceNameStart = sourceName; // First source name for next accumulation
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| 330 | freqIDStart = freqID; // First FreqID for next accumulation
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| 331 | //
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| 332 | oldScanID = scanID;
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| 333 | outScanID += 1; // Scan ID for next accumulation period
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[227] | 334 | }
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[144] | 335 |
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[146] | 336 | // Accumulate
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[144] | 337 |
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[185] | 338 | accumulate(timeSum, intSum, nAccum, sum, sumSq, nPts, tSysSum,
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[221] | 339 | tSys, nInc, mask, time, interval, in, iTab, iRow, asap::ChanAxis,
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[146] | 340 | nAxesSub, useMask, wtType);
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[144] | 341 | //
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| 342 | oldSourceName = sourceName;
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| 343 | oldFreqID = freqID;
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[184] | 344 | }
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[144] | 345 | }
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| 346 |
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| 347 | // OK at this point we have accumulation data which is either
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| 348 | // - accumulated from all tables into one row
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| 349 | // or
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| 350 | // - accumulated from the last scan average
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| 351 | //
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| 352 | // Normalize data in 'sum' accumulation array according to weighting scheme
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[221] | 353 | normalize(sum, sumSq, nPts, wtType, asap::ChanAxis, nAxesSub);
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[144] | 354 |
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| 355 | // Create and fill container. The container we clone will be from
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| 356 | // the last Table and the first row that went into the current
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| 357 | // accumulation. It probably doesn't matter that much really...
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| 358 |
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| 359 | Float nR(nAccum);
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| 360 | SDContainer sc = in[tableStart]->getSDContainer(rowStart);
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[185] | 361 | fillSDC(sc, sum.getMask(), sum.getArray(), tSysSum/nR, outScanID,
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[144] | 362 | timeSum/nR, intSum, sourceNameStart, freqIDStart);
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[221] | 363 | pTabOut->putSDContainer(sc);
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[304] | 364 | pTabOut->resetCursor();
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[144] | 365 | //
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| 366 | return CountedPtr<SDMemTable>(pTabOut);
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[2] | 367 | }
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[9] | 368 |
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[144] | 369 |
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| 370 |
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[248] | 371 | CountedPtr<SDMemTable> SDMath::binaryOperate (const CountedPtr<SDMemTable>& left,
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| 372 | const CountedPtr<SDMemTable>& right,
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[294] | 373 | const String& op, Bool preserve,
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| 374 | Bool doTSys) const
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[185] | 375 | {
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[85] | 376 |
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[248] | 377 | // Check operator
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[130] | 378 |
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[234] | 379 | String op2(op);
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| 380 | op2.upcase();
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| 381 | uInt what = 0;
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| 382 | if (op2=="ADD") {
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| 383 | what = 0;
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| 384 | } else if (op2=="SUB") {
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| 385 | what = 1;
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| 386 | } else if (op2=="MUL") {
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| 387 | what = 2;
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| 388 | } else if (op2=="DIV") {
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| 389 | what = 3;
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[248] | 390 | } else if (op2=="QUOTIENT") {
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| 391 | what = 4;
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[294] | 392 | doTSys = True;
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[234] | 393 | } else {
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[248] | 394 | throw( AipsError("Unrecognized operation"));
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[234] | 395 | }
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| 396 |
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| 397 | // Check rows
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| 398 |
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[248] | 399 | const uInt nRowLeft = left->nRow();
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| 400 | const uInt nRowRight = right->nRow();
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| 401 | Bool ok = (nRowRight==1&&nRowLeft>0) ||
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| 402 | (nRowRight>=1&&nRowLeft==nRowRight);
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| 403 | if (!ok) {
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| 404 | throw (AipsError("The right Scan Table can have one row or the same number of rows as the left Scan Table"));
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[234] | 405 | }
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| 406 |
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[248] | 407 | // Input Tables
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[234] | 408 |
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| 409 | const Table& tLeft = left->table();
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| 410 | const Table& tRight = right->table();
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[248] | 411 |
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| 412 | // TSys columns
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| 413 |
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[294] | 414 | ROArrayColumn<Float> tSysLeftCol, tSysRightCol;
|
---|
| 415 | if (doTSys) {
|
---|
| 416 | tSysLeftCol.attach(tLeft, "TSYS");
|
---|
| 417 | tSysRightCol.attach(tRight, "TSYS");
|
---|
| 418 | }
|
---|
[234] | 419 |
|
---|
[248] | 420 | // First row for right
|
---|
[234] | 421 |
|
---|
[248] | 422 | Array<Float> tSysLeftArr, tSysRightArr;
|
---|
[294] | 423 | if (doTSys) tSysRightCol.get(0, tSysRightArr);
|
---|
[248] | 424 | MaskedArray<Float>* pMRight = new MaskedArray<Float>(right->rowAsMaskedArray(0));
|
---|
| 425 | IPosition shpRight = pMRight->shape();
|
---|
| 426 |
|
---|
| 427 | // Output Table cloned from left
|
---|
| 428 |
|
---|
[234] | 429 | SDMemTable* pTabOut = new SDMemTable(*left, True);
|
---|
| 430 |
|
---|
| 431 | // Loop over rows
|
---|
| 432 |
|
---|
[248] | 433 | for (uInt i=0; i<nRowLeft; i++) {
|
---|
[234] | 434 |
|
---|
| 435 | // Get data
|
---|
[248] | 436 |
|
---|
[234] | 437 | MaskedArray<Float> mLeft(left->rowAsMaskedArray(i));
|
---|
[248] | 438 | IPosition shpLeft = mLeft.shape();
|
---|
[294] | 439 | if (doTSys) tSysLeftCol.get(i, tSysLeftArr);
|
---|
[234] | 440 | //
|
---|
[248] | 441 | if (nRowRight>1) {
|
---|
| 442 | delete pMRight;
|
---|
| 443 | pMRight = new MaskedArray<Float>(right->rowAsMaskedArray(i));
|
---|
| 444 | shpRight = pMRight->shape();
|
---|
[294] | 445 | if (doTSys) tSysRightCol.get(i, tSysRightArr);
|
---|
[234] | 446 | }
|
---|
[248] | 447 | //
|
---|
| 448 | if (!shpRight.isEqual(shpLeft)) {
|
---|
| 449 | throw(AipsError("left and right scan tables are not conformant"));
|
---|
| 450 | }
|
---|
[294] | 451 | if (doTSys) {
|
---|
| 452 | if (!tSysRightArr.shape().isEqual(tSysRightArr.shape())) {
|
---|
| 453 | throw(AipsError("left and right Tsys data are not conformant"));
|
---|
| 454 | }
|
---|
| 455 | if (!shpRight.isEqual(tSysRightArr.shape())) {
|
---|
| 456 | throw(AipsError("left and right scan tables are not conformant"));
|
---|
| 457 | }
|
---|
[248] | 458 | }
|
---|
[234] | 459 |
|
---|
| 460 | // Make container
|
---|
| 461 |
|
---|
| 462 | SDContainer sc = left->getSDContainer(i);
|
---|
| 463 |
|
---|
| 464 | // Operate on data and TSys
|
---|
| 465 |
|
---|
| 466 | if (what==0) {
|
---|
[248] | 467 | MaskedArray<Float> tmp = mLeft + *pMRight;
|
---|
[234] | 468 | putDataInSDC(sc, tmp.getArray(), tmp.getMask());
|
---|
[294] | 469 | if (doTSys) sc.putTsys(tSysLeftArr+tSysRightArr);
|
---|
[234] | 470 | } else if (what==1) {
|
---|
[248] | 471 | MaskedArray<Float> tmp = mLeft - *pMRight;
|
---|
[234] | 472 | putDataInSDC(sc, tmp.getArray(), tmp.getMask());
|
---|
[294] | 473 | if (doTSys) sc.putTsys(tSysLeftArr-tSysRightArr);
|
---|
[234] | 474 | } else if (what==2) {
|
---|
[248] | 475 | MaskedArray<Float> tmp = mLeft * *pMRight;
|
---|
[234] | 476 | putDataInSDC(sc, tmp.getArray(), tmp.getMask());
|
---|
[294] | 477 | if (doTSys) sc.putTsys(tSysLeftArr*tSysRightArr);
|
---|
[234] | 478 | } else if (what==3) {
|
---|
[248] | 479 | MaskedArray<Float> tmp = mLeft / *pMRight;
|
---|
[234] | 480 | putDataInSDC(sc, tmp.getArray(), tmp.getMask());
|
---|
[294] | 481 | if (doTSys) sc.putTsys(tSysLeftArr/tSysRightArr);
|
---|
[248] | 482 | } else if (what==4) {
|
---|
| 483 | if (preserve) {
|
---|
| 484 | MaskedArray<Float> tmp = (tSysRightArr * mLeft / *pMRight) - tSysRightArr;
|
---|
| 485 | putDataInSDC(sc, tmp.getArray(), tmp.getMask());
|
---|
| 486 | } else {
|
---|
| 487 | MaskedArray<Float> tmp = (tSysRightArr * mLeft / *pMRight) - tSysLeftArr;
|
---|
| 488 | putDataInSDC(sc, tmp.getArray(), tmp.getMask());
|
---|
| 489 | }
|
---|
| 490 | sc.putTsys(tSysRightArr);
|
---|
[234] | 491 | }
|
---|
| 492 |
|
---|
| 493 | // Put new row in output Table
|
---|
| 494 |
|
---|
[171] | 495 | pTabOut->putSDContainer(sc);
|
---|
[130] | 496 | }
|
---|
[248] | 497 | if (pMRight) delete pMRight;
|
---|
[304] | 498 | pTabOut->resetCursor();
|
---|
[130] | 499 | //
|
---|
[171] | 500 | return CountedPtr<SDMemTable>(pTabOut);
|
---|
[9] | 501 | }
|
---|
[48] | 502 |
|
---|
[146] | 503 |
|
---|
| 504 |
|
---|
[185] | 505 | std::vector<float> SDMath::statistic(const CountedPtr<SDMemTable>& in,
|
---|
[234] | 506 | const Vector<Bool>& mask,
|
---|
| 507 | const String& which, Int row) const
|
---|
[130] | 508 | //
|
---|
| 509 | // Perhaps iteration over pol/beam/if should be in here
|
---|
| 510 | // and inside the nrow iteration ?
|
---|
| 511 | //
|
---|
| 512 | {
|
---|
| 513 | const uInt nRow = in->nRow();
|
---|
| 514 |
|
---|
| 515 | // Specify cursor location
|
---|
| 516 |
|
---|
[152] | 517 | IPosition start, end;
|
---|
[185] | 518 | getCursorLocation(start, end, *in);
|
---|
[130] | 519 |
|
---|
| 520 | // Loop over rows
|
---|
| 521 |
|
---|
[234] | 522 | const uInt nEl = mask.nelements();
|
---|
| 523 | uInt iStart = 0;
|
---|
| 524 | uInt iEnd = in->nRow()-1;
|
---|
| 525 | //
|
---|
| 526 | if (row>=0) {
|
---|
| 527 | iStart = row;
|
---|
| 528 | iEnd = row;
|
---|
| 529 | }
|
---|
| 530 | //
|
---|
| 531 | std::vector<float> result(iEnd-iStart+1);
|
---|
| 532 | for (uInt ii=iStart; ii <= iEnd; ++ii) {
|
---|
[130] | 533 |
|
---|
| 534 | // Get row and deconstruct
|
---|
| 535 |
|
---|
| 536 | MaskedArray<Float> marr(in->rowAsMaskedArray(ii));
|
---|
| 537 | Array<Float> arr = marr.getArray();
|
---|
| 538 | Array<Bool> barr = marr.getMask();
|
---|
| 539 |
|
---|
| 540 | // Access desired piece of data
|
---|
| 541 |
|
---|
| 542 | Array<Float> v((arr(start,end)).nonDegenerate());
|
---|
| 543 | Array<Bool> m((barr(start,end)).nonDegenerate());
|
---|
| 544 |
|
---|
| 545 | // Apply OTF mask
|
---|
| 546 |
|
---|
| 547 | MaskedArray<Float> tmp;
|
---|
| 548 | if (m.nelements()==nEl) {
|
---|
[234] | 549 | tmp.setData(v,m&&mask);
|
---|
[130] | 550 | } else {
|
---|
| 551 | tmp.setData(v,m);
|
---|
| 552 | }
|
---|
| 553 |
|
---|
| 554 | // Get statistic
|
---|
| 555 |
|
---|
[234] | 556 | result[ii-iStart] = mathutil::statistics(which, tmp);
|
---|
[130] | 557 | }
|
---|
| 558 | //
|
---|
| 559 | return result;
|
---|
| 560 | }
|
---|
| 561 |
|
---|
[146] | 562 |
|
---|
[234] | 563 | SDMemTable* SDMath::bin(const SDMemTable& in, Int width) const
|
---|
[144] | 564 | {
|
---|
[169] | 565 | SDHeader sh = in.getSDHeader();
|
---|
| 566 | SDMemTable* pTabOut = new SDMemTable(in, True);
|
---|
[163] | 567 |
|
---|
[169] | 568 | // Bin up SpectralCoordinates
|
---|
[163] | 569 |
|
---|
[169] | 570 | IPosition factors(1);
|
---|
| 571 | factors(0) = width;
|
---|
| 572 | for (uInt j=0; j<in.nCoordinates(); ++j) {
|
---|
| 573 | CoordinateSystem cSys;
|
---|
[288] | 574 | cSys.addCoordinate(in.getSpectralCoordinate(j));
|
---|
[169] | 575 | CoordinateSystem cSysBin =
|
---|
[185] | 576 | CoordinateUtil::makeBinnedCoordinateSystem(factors, cSys, False);
|
---|
[169] | 577 | //
|
---|
| 578 | SpectralCoordinate sCBin = cSysBin.spectralCoordinate(0);
|
---|
| 579 | pTabOut->setCoordinate(sCBin, j);
|
---|
| 580 | }
|
---|
[163] | 581 |
|
---|
[169] | 582 | // Use RebinLattice to find shape
|
---|
[130] | 583 |
|
---|
[169] | 584 | IPosition shapeIn(1,sh.nchan);
|
---|
[185] | 585 | IPosition shapeOut = RebinLattice<Float>::rebinShape(shapeIn, factors);
|
---|
[169] | 586 | sh.nchan = shapeOut(0);
|
---|
| 587 | pTabOut->putSDHeader(sh);
|
---|
[144] | 588 |
|
---|
[169] | 589 | // Loop over rows and bin along channel axis
|
---|
| 590 |
|
---|
| 591 | for (uInt i=0; i < in.nRow(); ++i) {
|
---|
| 592 | SDContainer sc = in.getSDContainer(i);
|
---|
[144] | 593 | //
|
---|
[169] | 594 | Array<Float> tSys(sc.getTsys()); // Get it out before sc changes shape
|
---|
[144] | 595 |
|
---|
[169] | 596 | // Bin up spectrum
|
---|
[144] | 597 |
|
---|
[169] | 598 | MaskedArray<Float> marr(in.rowAsMaskedArray(i));
|
---|
| 599 | MaskedArray<Float> marrout;
|
---|
[221] | 600 | LatticeUtilities::bin(marrout, marr, asap::ChanAxis, width);
|
---|
[144] | 601 |
|
---|
[169] | 602 | // Put back the binned data and flags
|
---|
[144] | 603 |
|
---|
[169] | 604 | IPosition ip2 = marrout.shape();
|
---|
| 605 | sc.resize(ip2);
|
---|
[146] | 606 | //
|
---|
[185] | 607 | putDataInSDC(sc, marrout.getArray(), marrout.getMask());
|
---|
[146] | 608 |
|
---|
[169] | 609 | // Bin up Tsys.
|
---|
[146] | 610 |
|
---|
[169] | 611 | Array<Bool> allGood(tSys.shape(),True);
|
---|
| 612 | MaskedArray<Float> tSysIn(tSys, allGood, True);
|
---|
[146] | 613 | //
|
---|
[169] | 614 | MaskedArray<Float> tSysOut;
|
---|
[221] | 615 | LatticeUtilities::bin(tSysOut, tSysIn, asap::ChanAxis, width);
|
---|
[169] | 616 | sc.putTsys(tSysOut.getArray());
|
---|
[146] | 617 | //
|
---|
[169] | 618 | pTabOut->putSDContainer(sc);
|
---|
| 619 | }
|
---|
| 620 | return pTabOut;
|
---|
[146] | 621 | }
|
---|
| 622 |
|
---|
[299] | 623 | SDMemTable* SDMath::resample (const SDMemTable& in, const String& methodStr,
|
---|
| 624 | Float width) const
|
---|
| 625 | //
|
---|
| 626 | // Should add the possibility of width being specified in km/s. This means
|
---|
| 627 | // that for each freqID (SpectralCoordinate) we will need to convert to an
|
---|
| 628 | // average channel width (say at the reference pixel). Then we would need
|
---|
| 629 | // to be careful to make sure each spectrum (of different freqID)
|
---|
| 630 | // is the same length.
|
---|
| 631 | //
|
---|
| 632 | {
|
---|
| 633 | Bool doVel = False;
|
---|
[309] | 634 | if (doVel) {
|
---|
| 635 | for (uInt j=0; j<in.nCoordinates(); ++j) {
|
---|
| 636 | SpectralCoordinate sC = in.getSpectralCoordinate(j);
|
---|
| 637 | }
|
---|
| 638 | }
|
---|
[299] | 639 |
|
---|
| 640 | // Interpolation method
|
---|
| 641 |
|
---|
[317] | 642 | InterpolateArray1D<Double,Float>::InterpolationMethod interp;
|
---|
| 643 | convertInterpString(interp, methodStr);
|
---|
| 644 | Int interpMethod(interp);
|
---|
[299] | 645 |
|
---|
| 646 | // Make output table
|
---|
| 647 |
|
---|
| 648 | SDMemTable* pTabOut = new SDMemTable(in, True);
|
---|
| 649 |
|
---|
| 650 | // Resample SpectralCoordinates (one per freqID)
|
---|
| 651 |
|
---|
| 652 | const uInt nCoord = in.nCoordinates();
|
---|
| 653 | Vector<Float> offset(1,0.0);
|
---|
| 654 | Vector<Float> factors(1,1.0/width);
|
---|
| 655 | Vector<Int> newShape;
|
---|
| 656 | for (uInt j=0; j<in.nCoordinates(); ++j) {
|
---|
| 657 | CoordinateSystem cSys;
|
---|
| 658 | cSys.addCoordinate(in.getSpectralCoordinate(j));
|
---|
| 659 | CoordinateSystem cSys2 = cSys.subImage(offset, factors, newShape);
|
---|
| 660 | SpectralCoordinate sC = cSys2.spectralCoordinate(0);
|
---|
| 661 | //
|
---|
| 662 | pTabOut->setCoordinate(sC, j);
|
---|
| 663 | }
|
---|
| 664 |
|
---|
| 665 | // Get header
|
---|
| 666 |
|
---|
| 667 | SDHeader sh = in.getSDHeader();
|
---|
| 668 |
|
---|
| 669 | // Generate resampling vectors
|
---|
| 670 |
|
---|
| 671 | const uInt nChanIn = sh.nchan;
|
---|
| 672 | Vector<Float> xIn(nChanIn);
|
---|
| 673 | indgen(xIn);
|
---|
| 674 | //
|
---|
| 675 | Int fac = Int(nChanIn/width);
|
---|
| 676 | Vector<Float> xOut(fac+10); // 10 to be safe - resize later
|
---|
| 677 | uInt i = 0;
|
---|
| 678 | Float x = 0.0;
|
---|
| 679 | Bool more = True;
|
---|
| 680 | while (more) {
|
---|
| 681 | xOut(i) = x;
|
---|
| 682 | //
|
---|
| 683 | i++;
|
---|
| 684 | x += width;
|
---|
| 685 | if (x>nChanIn-1) more = False;
|
---|
| 686 | }
|
---|
| 687 | const uInt nChanOut = i;
|
---|
| 688 | xOut.resize(nChanOut,True);
|
---|
| 689 | //
|
---|
| 690 | IPosition shapeIn(in.rowAsMaskedArray(0).shape());
|
---|
| 691 | sh.nchan = nChanOut;
|
---|
| 692 | pTabOut->putSDHeader(sh);
|
---|
| 693 |
|
---|
| 694 | // Loop over rows and resample along channel axis
|
---|
| 695 |
|
---|
| 696 | Array<Float> valuesOut;
|
---|
| 697 | Array<Bool> maskOut;
|
---|
| 698 | Array<Float> tSysOut;
|
---|
| 699 | Array<Bool> tSysMaskIn(shapeIn,True);
|
---|
| 700 | Array<Bool> tSysMaskOut;
|
---|
| 701 | for (uInt i=0; i < in.nRow(); ++i) {
|
---|
| 702 |
|
---|
| 703 | // Get container
|
---|
| 704 |
|
---|
| 705 | SDContainer sc = in.getSDContainer(i);
|
---|
| 706 |
|
---|
| 707 | // Get data and Tsys
|
---|
| 708 |
|
---|
| 709 | const Array<Float>& tSysIn = sc.getTsys();
|
---|
| 710 | const MaskedArray<Float>& dataIn(in.rowAsMaskedArray(i));
|
---|
| 711 | Array<Float> valuesIn = dataIn.getArray();
|
---|
| 712 | Array<Bool> maskIn = dataIn.getMask();
|
---|
| 713 |
|
---|
| 714 | // Interpolate data
|
---|
| 715 |
|
---|
| 716 | InterpolateArray1D<Float,Float>::interpolate(valuesOut, maskOut, xOut,
|
---|
| 717 | xIn, valuesIn, maskIn,
|
---|
| 718 | interpMethod, True, True);
|
---|
| 719 | sc.resize(valuesOut.shape());
|
---|
| 720 | putDataInSDC(sc, valuesOut, maskOut);
|
---|
| 721 |
|
---|
| 722 | // Interpolate TSys
|
---|
| 723 |
|
---|
| 724 | InterpolateArray1D<Float,Float>::interpolate(tSysOut, tSysMaskOut, xOut,
|
---|
| 725 | xIn, tSysIn, tSysMaskIn,
|
---|
| 726 | interpMethod, True, True);
|
---|
| 727 | sc.putTsys(tSysOut);
|
---|
| 728 |
|
---|
| 729 | // Put container in output
|
---|
| 730 |
|
---|
| 731 | pTabOut->putSDContainer(sc);
|
---|
| 732 | }
|
---|
| 733 | //
|
---|
| 734 | return pTabOut;
|
---|
| 735 | }
|
---|
| 736 |
|
---|
[248] | 737 | SDMemTable* SDMath::unaryOperate(const SDMemTable& in, Float val, Bool doAll,
|
---|
[294] | 738 | uInt what, Bool doTSys) const
|
---|
[152] | 739 | //
|
---|
| 740 | // what = 0 Multiply
|
---|
| 741 | // 1 Add
|
---|
[146] | 742 | {
|
---|
[152] | 743 | SDMemTable* pOut = new SDMemTable(in,False);
|
---|
| 744 | const Table& tOut = pOut->table();
|
---|
[294] | 745 | ArrayColumn<Float> specCol(tOut,"SPECTRA");
|
---|
| 746 | ArrayColumn<Float> tSysCol(tOut,"TSYS");
|
---|
| 747 | Array<Float> tSysArr;
|
---|
[146] | 748 | //
|
---|
[152] | 749 | if (doAll) {
|
---|
| 750 | for (uInt i=0; i < tOut.nrow(); i++) {
|
---|
[294] | 751 |
|
---|
| 752 | // Modify data
|
---|
| 753 |
|
---|
[270] | 754 | MaskedArray<Float> dataIn(pOut->rowAsMaskedArray(i));
|
---|
[152] | 755 | if (what==0) {
|
---|
[270] | 756 | dataIn *= val;
|
---|
[152] | 757 | } else if (what==1) {
|
---|
[270] | 758 | dataIn += val;
|
---|
[152] | 759 | }
|
---|
[294] | 760 | specCol.put(i, dataIn.getArray());
|
---|
| 761 |
|
---|
| 762 | // Modify Tsys
|
---|
| 763 |
|
---|
| 764 | if (doTSys) {
|
---|
| 765 | tSysCol.get(i, tSysArr);
|
---|
| 766 | if (what==0) {
|
---|
| 767 | tSysArr *= val;
|
---|
| 768 | } else if (what==1) {
|
---|
| 769 | tSysArr += val;
|
---|
| 770 | }
|
---|
| 771 | tSysCol.put(i, tSysArr);
|
---|
| 772 | }
|
---|
[152] | 773 | }
|
---|
| 774 | } else {
|
---|
| 775 |
|
---|
| 776 | // Get cursor location
|
---|
| 777 |
|
---|
| 778 | IPosition start, end;
|
---|
[185] | 779 | getCursorLocation(start, end, in);
|
---|
[152] | 780 | //
|
---|
| 781 | for (uInt i=0; i < tOut.nrow(); i++) {
|
---|
[294] | 782 |
|
---|
| 783 | // Modify data
|
---|
| 784 |
|
---|
[152] | 785 | MaskedArray<Float> dataIn(pOut->rowAsMaskedArray(i));
|
---|
[270] | 786 | MaskedArray<Float> dataIn2 = dataIn(start,end); // Reference
|
---|
[152] | 787 | if (what==0) {
|
---|
[270] | 788 | dataIn2 *= val;
|
---|
[152] | 789 | } else if (what==1) {
|
---|
[270] | 790 | dataIn2 += val;
|
---|
[152] | 791 | }
|
---|
[294] | 792 | specCol.put(i, dataIn.getArray());
|
---|
| 793 |
|
---|
| 794 | // Modify Tsys
|
---|
| 795 |
|
---|
| 796 | if (doTSys) {
|
---|
| 797 | tSysCol.get(i, tSysArr);
|
---|
| 798 | Array<Float> tSysArr2 = tSysArr(start,end); // Reference
|
---|
| 799 | if (what==0) {
|
---|
| 800 | tSysArr2 *= val;
|
---|
| 801 | } else if (what==1) {
|
---|
| 802 | tSysArr2 += val;
|
---|
| 803 | }
|
---|
| 804 | tSysCol.put(i, tSysArr);
|
---|
| 805 | }
|
---|
[152] | 806 | }
|
---|
| 807 | }
|
---|
| 808 | //
|
---|
[146] | 809 | return pOut;
|
---|
| 810 | }
|
---|
| 811 |
|
---|
| 812 |
|
---|
[152] | 813 |
|
---|
[315] | 814 | SDMemTable* SDMath::averagePol(const SDMemTable& in, const Vector<Bool>& mask,
|
---|
| 815 | const String& weightStr) const
|
---|
[152] | 816 | //
|
---|
[165] | 817 | // Average all polarizations together, weighted by variance
|
---|
| 818 | //
|
---|
| 819 | {
|
---|
[315] | 820 | WeightType wtType = NONE;
|
---|
| 821 | convertWeightString(wtType, weightStr);
|
---|
[165] | 822 |
|
---|
| 823 | const uInt nRows = in.nRow();
|
---|
| 824 |
|
---|
| 825 | // Create output Table and reshape number of polarizations
|
---|
| 826 |
|
---|
| 827 | Bool clear=True;
|
---|
| 828 | SDMemTable* pTabOut = new SDMemTable(in, clear);
|
---|
| 829 | SDHeader header = pTabOut->getSDHeader();
|
---|
| 830 | header.npol = 1;
|
---|
| 831 | pTabOut->putSDHeader(header);
|
---|
| 832 |
|
---|
| 833 | // Shape of input and output data
|
---|
| 834 |
|
---|
| 835 | const IPosition& shapeIn = in.rowAsMaskedArray(0u, False).shape();
|
---|
| 836 | IPosition shapeOut(shapeIn);
|
---|
[262] | 837 | shapeOut(asap::PolAxis) = 1; // Average all polarizations
|
---|
[315] | 838 | if (shapeIn(asap::PolAxis)==1) {
|
---|
| 839 | throw(AipsError("The input has only one polarisation"));
|
---|
| 840 | }
|
---|
[165] | 841 | //
|
---|
[262] | 842 | const uInt nChan = shapeIn(asap::ChanAxis);
|
---|
[165] | 843 | const IPosition vecShapeOut(4,1,1,1,nChan); // A multi-dim form of a Vector shape
|
---|
| 844 | IPosition start(4), end(4);
|
---|
| 845 |
|
---|
| 846 | // Output arrays
|
---|
| 847 |
|
---|
| 848 | Array<Float> outData(shapeOut, 0.0);
|
---|
| 849 | Array<Bool> outMask(shapeOut, True);
|
---|
[262] | 850 | const IPosition axes(2, asap::PolAxis, asap::ChanAxis); // pol-channel plane
|
---|
[165] | 851 | //
|
---|
[262] | 852 | const Bool useMask = (mask.nelements() == shapeIn(asap::ChanAxis));
|
---|
[165] | 853 |
|
---|
| 854 | // Loop over rows
|
---|
| 855 |
|
---|
| 856 | for (uInt iRow=0; iRow<nRows; iRow++) {
|
---|
| 857 |
|
---|
| 858 | // Get data for this row
|
---|
| 859 |
|
---|
| 860 | MaskedArray<Float> marr(in.rowAsMaskedArray(iRow));
|
---|
| 861 | Array<Float>& arr = marr.getRWArray();
|
---|
| 862 | const Array<Bool>& barr = marr.getMask();
|
---|
| 863 |
|
---|
| 864 | // Make iterators to iterate by pol-channel planes
|
---|
| 865 |
|
---|
| 866 | ReadOnlyArrayIterator<Float> itDataPlane(arr, axes);
|
---|
| 867 | ReadOnlyArrayIterator<Bool> itMaskPlane(barr, axes);
|
---|
| 868 |
|
---|
| 869 | // Accumulations
|
---|
| 870 |
|
---|
| 871 | Float fac = 1.0;
|
---|
| 872 | Vector<Float> vecSum(nChan,0.0);
|
---|
| 873 |
|
---|
| 874 | // Iterate through data by pol-channel planes
|
---|
| 875 |
|
---|
| 876 | while (!itDataPlane.pastEnd()) {
|
---|
| 877 |
|
---|
| 878 | // Iterate through plane by polarization and accumulate Vectors
|
---|
| 879 |
|
---|
| 880 | Vector<Float> t1(nChan); t1 = 0.0;
|
---|
| 881 | Vector<Bool> t2(nChan); t2 = True;
|
---|
| 882 | MaskedArray<Float> vecSum(t1,t2);
|
---|
[315] | 883 | Float norm = 0.0;
|
---|
[165] | 884 | {
|
---|
| 885 | ReadOnlyVectorIterator<Float> itDataVec(itDataPlane.array(), 1);
|
---|
| 886 | ReadOnlyVectorIterator<Bool> itMaskVec(itMaskPlane.array(), 1);
|
---|
| 887 | while (!itDataVec.pastEnd()) {
|
---|
| 888 |
|
---|
[315] | 889 | // Create MA of data & mask (optionally including OTF mask) and get variance for this spectrum
|
---|
[165] | 890 |
|
---|
| 891 | if (useMask) {
|
---|
| 892 | const MaskedArray<Float> spec(itDataVec.vector(),mask&&itMaskVec.vector());
|
---|
[315] | 893 | if (wtType==VAR) fac = 1.0 / variance(spec);
|
---|
[165] | 894 | } else {
|
---|
| 895 | const MaskedArray<Float> spec(itDataVec.vector(),itMaskVec.vector());
|
---|
[315] | 896 | if (wtType==VAR) fac = 1.0 / variance(spec);
|
---|
[165] | 897 | }
|
---|
| 898 |
|
---|
| 899 | // Normalize spectrum (without OTF mask) and accumulate
|
---|
| 900 |
|
---|
| 901 | const MaskedArray<Float> spec(fac*itDataVec.vector(), itMaskVec.vector());
|
---|
| 902 | vecSum += spec;
|
---|
[315] | 903 | norm += fac;
|
---|
[165] | 904 |
|
---|
| 905 | // Next
|
---|
| 906 |
|
---|
| 907 | itDataVec.next();
|
---|
| 908 | itMaskVec.next();
|
---|
| 909 | }
|
---|
| 910 | }
|
---|
| 911 |
|
---|
| 912 | // Normalize summed spectrum
|
---|
| 913 |
|
---|
[315] | 914 | vecSum /= norm;
|
---|
[165] | 915 |
|
---|
| 916 | // FInd position in input data array. We are iterating by pol-channel
|
---|
| 917 | // plane so all that will change is beam and IF and that's what we want.
|
---|
| 918 |
|
---|
| 919 | IPosition pos = itDataPlane.pos();
|
---|
| 920 |
|
---|
| 921 | // Write out data. This is a bit messy. We have to reform the Vector
|
---|
| 922 | // accumulator into an Array of shape (1,1,1,nChan)
|
---|
| 923 |
|
---|
| 924 | start = pos;
|
---|
| 925 | end = pos;
|
---|
[262] | 926 | end(asap::ChanAxis) = nChan-1;
|
---|
[165] | 927 | outData(start,end) = vecSum.getArray().reform(vecShapeOut);
|
---|
| 928 | outMask(start,end) = vecSum.getMask().reform(vecShapeOut);
|
---|
| 929 |
|
---|
| 930 | // Step to next beam/IF combination
|
---|
| 931 |
|
---|
| 932 | itDataPlane.next();
|
---|
| 933 | itMaskPlane.next();
|
---|
| 934 | }
|
---|
| 935 |
|
---|
| 936 | // Generate output container and write it to output table
|
---|
| 937 |
|
---|
| 938 | SDContainer sc = in.getSDContainer();
|
---|
| 939 | sc.resize(shapeOut);
|
---|
| 940 | //
|
---|
[185] | 941 | putDataInSDC(sc, outData, outMask);
|
---|
[165] | 942 | pTabOut->putSDContainer(sc);
|
---|
| 943 | }
|
---|
[304] | 944 |
|
---|
| 945 | // Set polarization cursor to 0
|
---|
| 946 |
|
---|
| 947 | pTabOut->setPol(0);
|
---|
[165] | 948 | //
|
---|
| 949 | return pTabOut;
|
---|
| 950 | }
|
---|
[167] | 951 |
|
---|
[169] | 952 |
|
---|
[185] | 953 | SDMemTable* SDMath::smooth(const SDMemTable& in,
|
---|
| 954 | const casa::String& kernelType,
|
---|
[234] | 955 | casa::Float width, Bool doAll) const
|
---|
[299] | 956 | //
|
---|
| 957 | // Should smooth TSys as well
|
---|
| 958 | //
|
---|
[177] | 959 | {
|
---|
[169] | 960 |
|
---|
[177] | 961 | // Number of channels
|
---|
[169] | 962 |
|
---|
[177] | 963 | SDHeader sh = in.getSDHeader();
|
---|
| 964 | const uInt nChan = sh.nchan;
|
---|
| 965 |
|
---|
| 966 | // Generate Kernel
|
---|
| 967 |
|
---|
[185] | 968 | VectorKernel::KernelTypes type = VectorKernel::toKernelType(kernelType);
|
---|
[177] | 969 | Vector<Float> kernel = VectorKernel::make(type, width, nChan, True, False);
|
---|
| 970 |
|
---|
| 971 | // Generate Convolver
|
---|
| 972 |
|
---|
| 973 | IPosition shape(1,nChan);
|
---|
| 974 | Convolver<Float> conv(kernel, shape);
|
---|
| 975 |
|
---|
| 976 | // New Table
|
---|
| 977 |
|
---|
| 978 | SDMemTable* pTabOut = new SDMemTable(in,True);
|
---|
| 979 |
|
---|
| 980 | // Get cursor location
|
---|
| 981 |
|
---|
| 982 | IPosition start, end;
|
---|
[185] | 983 | getCursorLocation(start, end, in);
|
---|
[177] | 984 | //
|
---|
| 985 | IPosition shapeOut(4,1);
|
---|
| 986 |
|
---|
| 987 | // Output Vectors
|
---|
| 988 |
|
---|
| 989 | Vector<Float> valuesOut(nChan);
|
---|
| 990 | Vector<Bool> maskOut(nChan);
|
---|
| 991 |
|
---|
| 992 | // Loop over rows in Table
|
---|
| 993 |
|
---|
| 994 | for (uInt ri=0; ri < in.nRow(); ++ri) {
|
---|
| 995 |
|
---|
| 996 | // Get copy of data
|
---|
| 997 |
|
---|
| 998 | const MaskedArray<Float>& dataIn(in.rowAsMaskedArray(ri));
|
---|
[262] | 999 | AlwaysAssert(dataIn.shape()(asap::ChanAxis)==nChan, AipsError);
|
---|
[177] | 1000 | //
|
---|
| 1001 | Array<Float> valuesIn = dataIn.getArray();
|
---|
| 1002 | Array<Bool> maskIn = dataIn.getMask();
|
---|
| 1003 |
|
---|
| 1004 | // Branch depending on whether we smooth all locations or just
|
---|
| 1005 | // those pointed at by the current selection cursor
|
---|
| 1006 |
|
---|
| 1007 | if (doAll) {
|
---|
[299] | 1008 | VectorIterator<Float> itValues(valuesIn, asap::ChanAxis);
|
---|
| 1009 | VectorIterator<Bool> itMask(maskIn, asap::ChanAxis);
|
---|
[177] | 1010 | while (!itValues.pastEnd()) {
|
---|
| 1011 |
|
---|
| 1012 | // Smooth
|
---|
| 1013 | if (kernelType==VectorKernel::HANNING) {
|
---|
| 1014 | mathutil::hanning(valuesOut, maskOut, itValues.vector(), itMask.vector());
|
---|
| 1015 | itMask.vector() = maskOut;
|
---|
| 1016 | } else {
|
---|
| 1017 | mathutil::replaceMaskByZero(itValues.vector(), itMask.vector());
|
---|
| 1018 | conv.linearConv(valuesOut, itValues.vector());
|
---|
| 1019 | }
|
---|
| 1020 | //
|
---|
| 1021 | itValues.vector() = valuesOut;
|
---|
| 1022 | //
|
---|
| 1023 | itValues.next();
|
---|
| 1024 | itMask.next();
|
---|
| 1025 | }
|
---|
| 1026 | } else {
|
---|
| 1027 |
|
---|
| 1028 | // Set multi-dim Vector shape
|
---|
| 1029 |
|
---|
[299] | 1030 | shapeOut(asap::ChanAxis) = valuesIn.shape()(asap::ChanAxis);
|
---|
[177] | 1031 |
|
---|
| 1032 | // Stuff about with shapes so that we don't have conformance run-time errors
|
---|
| 1033 |
|
---|
| 1034 | Vector<Float> valuesIn2 = valuesIn(start,end).nonDegenerate();
|
---|
| 1035 | Vector<Bool> maskIn2 = maskIn(start,end).nonDegenerate();
|
---|
| 1036 |
|
---|
| 1037 | // Smooth
|
---|
| 1038 |
|
---|
| 1039 | if (kernelType==VectorKernel::HANNING) {
|
---|
| 1040 | mathutil::hanning(valuesOut, maskOut, valuesIn2, maskIn2);
|
---|
| 1041 | maskIn(start,end) = maskOut.reform(shapeOut);
|
---|
| 1042 | } else {
|
---|
| 1043 | mathutil::replaceMaskByZero(valuesIn2, maskIn2);
|
---|
| 1044 | conv.linearConv(valuesOut, valuesIn2);
|
---|
| 1045 | }
|
---|
| 1046 | //
|
---|
| 1047 | valuesIn(start,end) = valuesOut.reform(shapeOut);
|
---|
| 1048 | }
|
---|
| 1049 |
|
---|
| 1050 | // Create and put back
|
---|
| 1051 |
|
---|
| 1052 | SDContainer sc = in.getSDContainer(ri);
|
---|
[185] | 1053 | putDataInSDC(sc, valuesIn, maskIn);
|
---|
[177] | 1054 | //
|
---|
| 1055 | pTabOut->putSDContainer(sc);
|
---|
| 1056 | }
|
---|
| 1057 | //
|
---|
| 1058 | return pTabOut;
|
---|
| 1059 | }
|
---|
| 1060 |
|
---|
| 1061 |
|
---|
[262] | 1062 |
|
---|
[354] | 1063 | SDMemTable* SDMath::convertFlux (const SDMemTable& in, Float D, Float etaAp,
|
---|
| 1064 | Float JyPerK, Bool doAll) const
|
---|
[221] | 1065 | //
|
---|
[354] | 1066 | // etaAp = aperture efficiency
|
---|
| 1067 | // D = geometric diameter (m)
|
---|
| 1068 | // JyPerK
|
---|
[221] | 1069 | //
|
---|
| 1070 | {
|
---|
| 1071 | SDHeader sh = in.getSDHeader();
|
---|
| 1072 | SDMemTable* pTabOut = new SDMemTable(in, True);
|
---|
[177] | 1073 |
|
---|
[354] | 1074 | // Find out how to convert values into Jy and K (e.g. units might be mJy or mK)
|
---|
[221] | 1075 | // Also automatically find out what we are converting to according to the
|
---|
| 1076 | // flux unit
|
---|
[177] | 1077 |
|
---|
[221] | 1078 | Unit fluxUnit(sh.fluxunit);
|
---|
| 1079 | Unit K(String("K"));
|
---|
| 1080 | Unit JY(String("Jy"));
|
---|
| 1081 | //
|
---|
| 1082 | Bool toKelvin = True;
|
---|
[354] | 1083 | Double cFac = 1.0;
|
---|
[221] | 1084 | if (fluxUnit==JY) {
|
---|
| 1085 | cerr << "Converting to K" << endl;
|
---|
| 1086 | //
|
---|
| 1087 | Quantum<Double> t(1.0,fluxUnit);
|
---|
| 1088 | Quantum<Double> t2 = t.get(JY);
|
---|
[354] | 1089 | cFac = (t2 / t).getValue(); // value to Jy
|
---|
[221] | 1090 | //
|
---|
| 1091 | toKelvin = True;
|
---|
| 1092 | sh.fluxunit = "K";
|
---|
| 1093 | } else if (fluxUnit==K) {
|
---|
| 1094 | cerr << "Converting to Jy" << endl;
|
---|
| 1095 | //
|
---|
| 1096 | Quantum<Double> t(1.0,fluxUnit);
|
---|
| 1097 | Quantum<Double> t2 = t.get(K);
|
---|
[354] | 1098 | cFac = (t2 / t).getValue(); // value to K
|
---|
[221] | 1099 | //
|
---|
| 1100 | toKelvin = False;
|
---|
| 1101 | sh.fluxunit = "Jy";
|
---|
| 1102 | } else {
|
---|
[248] | 1103 | throw(AipsError("Unrecognized brightness units in Table - must be consistent with Jy or K"));
|
---|
[221] | 1104 | }
|
---|
| 1105 | pTabOut->putSDHeader(sh);
|
---|
[177] | 1106 |
|
---|
[354] | 1107 | // Make sure input values are converted to either Jy or K first...
|
---|
[221] | 1108 |
|
---|
[354] | 1109 | Float factor = cFac;
|
---|
[221] | 1110 |
|
---|
[354] | 1111 | // Select method
|
---|
[221] | 1112 |
|
---|
[354] | 1113 | if (JyPerK>0.0) {
|
---|
| 1114 | factor *= JyPerK;
|
---|
| 1115 | if (toKelvin) factor = 1.0 / JyPerK;
|
---|
| 1116 | //
|
---|
| 1117 | cerr << "Applying supplied conversion factor = " << factor << endl;
|
---|
| 1118 | Vector<Float> factors(in.nRow(), factor);
|
---|
| 1119 | correctFromVector (pTabOut, in, doAll, factors);
|
---|
| 1120 | } else if (etaAp>0.0) {
|
---|
| 1121 | factor *= SDAttr::findJyPerKFac (etaAp, D);
|
---|
| 1122 | if (toKelvin) {
|
---|
| 1123 | factor = 1.0 / factor;
|
---|
| 1124 | }
|
---|
| 1125 | //
|
---|
| 1126 | cerr << "Applying supplied conversion factor = " << factor << endl;
|
---|
| 1127 | Vector<Float> factors(in.nRow(), factor);
|
---|
| 1128 | correctFromVector (pTabOut, in, doAll, factors);
|
---|
| 1129 | } else {
|
---|
[221] | 1130 |
|
---|
[354] | 1131 | // OK now we must deal with automatic look up of values.
|
---|
| 1132 | // We must also deal with the fact that the factors need
|
---|
| 1133 | // to be computed per IF and may be different and may
|
---|
| 1134 | // change per integration.
|
---|
[221] | 1135 |
|
---|
[354] | 1136 | cerr << "Looking up conversion factors" << endl;
|
---|
| 1137 | convertBrightnessUnits (pTabOut, in, toKelvin, cFac, doAll);
|
---|
| 1138 | }
|
---|
[221] | 1139 | //
|
---|
| 1140 | return pTabOut;
|
---|
| 1141 | }
|
---|
| 1142 |
|
---|
| 1143 |
|
---|
[354] | 1144 |
|
---|
| 1145 |
|
---|
| 1146 |
|
---|
[234] | 1147 | SDMemTable* SDMath::gainElevation (const SDMemTable& in, const Vector<Float>& coeffs,
|
---|
| 1148 | const String& fileName,
|
---|
| 1149 | const String& methodStr, Bool doAll) const
|
---|
[227] | 1150 | {
|
---|
[234] | 1151 |
|
---|
| 1152 | // Get header and clone output table
|
---|
| 1153 |
|
---|
[227] | 1154 | SDHeader sh = in.getSDHeader();
|
---|
| 1155 | SDMemTable* pTabOut = new SDMemTable(in, True);
|
---|
| 1156 |
|
---|
[234] | 1157 | // Get elevation data from SDMemTable and convert to degrees
|
---|
[227] | 1158 |
|
---|
| 1159 | const Table& tab = in.table();
|
---|
| 1160 | ROScalarColumn<Float> elev(tab, "ELEVATION");
|
---|
[234] | 1161 | Vector<Float> x = elev.getColumn();
|
---|
[363] | 1162 | x *= Float(180 / C::pi); // Degrees
|
---|
[227] | 1163 | //
|
---|
[234] | 1164 | const uInt nC = coeffs.nelements();
|
---|
| 1165 | if (fileName.length()>0 && nC>0) {
|
---|
[248] | 1166 | throw(AipsError("You must choose either polynomial coefficients or an ascii file, not both"));
|
---|
[234] | 1167 | }
|
---|
| 1168 |
|
---|
| 1169 | // Correct
|
---|
| 1170 |
|
---|
| 1171 | if (nC>0 || fileName.length()==0) {
|
---|
| 1172 |
|
---|
| 1173 | // Find instrument
|
---|
| 1174 |
|
---|
| 1175 | Bool throwIt = True;
|
---|
| 1176 | Instrument inst = SDMemTable::convertInstrument (sh.antennaname, throwIt);
|
---|
| 1177 |
|
---|
| 1178 | // Set polynomial
|
---|
| 1179 |
|
---|
| 1180 | Polynomial<Float>* pPoly = 0;
|
---|
| 1181 | Vector<Float> coeff;
|
---|
| 1182 | String msg;
|
---|
| 1183 | if (nC>0) {
|
---|
| 1184 | pPoly = new Polynomial<Float>(nC);
|
---|
| 1185 | coeff = coeffs;
|
---|
| 1186 | msg = String("user");
|
---|
| 1187 | } else {
|
---|
[363] | 1188 | SDAttr sdAttr;
|
---|
| 1189 | coeff = sdAttr.gainElevationPoly(inst);
|
---|
| 1190 | pPoly = new Polynomial<Float>(3);
|
---|
[234] | 1191 | msg = String("built in");
|
---|
| 1192 | }
|
---|
[227] | 1193 | //
|
---|
[234] | 1194 | if (coeff.nelements()>0) {
|
---|
| 1195 | pPoly->setCoefficients(coeff);
|
---|
| 1196 | } else {
|
---|
[363] | 1197 | throw(AipsError("There is no known gain-elevation polynomial known for this instrument"));
|
---|
[234] | 1198 | }
|
---|
| 1199 | //
|
---|
| 1200 | cerr << "Making polynomial correction with " << msg << " coefficients" << endl;
|
---|
| 1201 | const uInt nRow = in.nRow();
|
---|
| 1202 | Vector<Float> factor(nRow);
|
---|
| 1203 | for (uInt i=0; i<nRow; i++) {
|
---|
| 1204 | factor[i] = (*pPoly)(x[i]);
|
---|
| 1205 | }
|
---|
| 1206 | delete pPoly;
|
---|
| 1207 | //
|
---|
| 1208 | correctFromVector (pTabOut, in, doAll, factor);
|
---|
| 1209 | } else {
|
---|
| 1210 |
|
---|
| 1211 | // Indicate which columns to read from ascii file
|
---|
| 1212 |
|
---|
| 1213 | String col0("ELEVATION");
|
---|
| 1214 | String col1("FACTOR");
|
---|
| 1215 |
|
---|
| 1216 | // Read and correct
|
---|
| 1217 |
|
---|
| 1218 | cerr << "Making correction from ascii Table" << endl;
|
---|
| 1219 | correctFromAsciiTable (pTabOut, in, fileName, col0, col1,
|
---|
| 1220 | methodStr, doAll, x);
|
---|
| 1221 | }
|
---|
| 1222 | //
|
---|
| 1223 | return pTabOut;
|
---|
[230] | 1224 | }
|
---|
[227] | 1225 |
|
---|
[230] | 1226 |
|
---|
[227] | 1227 |
|
---|
[234] | 1228 | SDMemTable* SDMath::opacity (const SDMemTable& in, Float tau, Bool doAll) const
|
---|
| 1229 | {
|
---|
[227] | 1230 |
|
---|
[234] | 1231 | // Get header and clone output table
|
---|
[227] | 1232 |
|
---|
[234] | 1233 | SDHeader sh = in.getSDHeader();
|
---|
| 1234 | SDMemTable* pTabOut = new SDMemTable(in, True);
|
---|
| 1235 |
|
---|
| 1236 | // Get elevation data from SDMemTable and convert to degrees
|
---|
| 1237 |
|
---|
| 1238 | const Table& tab = in.table();
|
---|
| 1239 | ROScalarColumn<Float> elev(tab, "ELEVATION");
|
---|
| 1240 | Vector<Float> zDist = elev.getColumn();
|
---|
| 1241 | zDist = Float(C::pi_2) - zDist;
|
---|
| 1242 |
|
---|
| 1243 | // Generate correction factor
|
---|
| 1244 |
|
---|
| 1245 | const uInt nRow = in.nRow();
|
---|
| 1246 | Vector<Float> factor(nRow);
|
---|
| 1247 | Vector<Float> factor2(nRow);
|
---|
| 1248 | for (uInt i=0; i<nRow; i++) {
|
---|
| 1249 | factor[i] = exp(tau)/cos(zDist[i]);
|
---|
| 1250 | }
|
---|
| 1251 |
|
---|
| 1252 | // Correct
|
---|
| 1253 |
|
---|
| 1254 | correctFromVector (pTabOut, in, doAll, factor);
|
---|
| 1255 | //
|
---|
| 1256 | return pTabOut;
|
---|
| 1257 | }
|
---|
| 1258 |
|
---|
| 1259 |
|
---|
| 1260 |
|
---|
| 1261 |
|
---|
[169] | 1262 | // 'private' functions
|
---|
| 1263 |
|
---|
[354] | 1264 | void SDMath::convertBrightnessUnits (SDMemTable* pTabOut, const SDMemTable& in,
|
---|
| 1265 | Bool toKelvin, Float cFac, Bool doAll) const
|
---|
| 1266 | {
|
---|
[309] | 1267 |
|
---|
[354] | 1268 | // Get header
|
---|
| 1269 |
|
---|
| 1270 | SDHeader sh = in.getSDHeader();
|
---|
| 1271 | const uInt nChan = sh.nchan;
|
---|
| 1272 |
|
---|
| 1273 | // Get instrument
|
---|
| 1274 |
|
---|
| 1275 | Bool throwIt = True;
|
---|
| 1276 | Instrument inst = SDMemTable::convertInstrument (sh.antennaname, throwIt);
|
---|
| 1277 |
|
---|
| 1278 | // Get Diameter (m)
|
---|
| 1279 |
|
---|
| 1280 | SDAttr sdAtt;
|
---|
| 1281 |
|
---|
| 1282 | // Get epoch of first row
|
---|
| 1283 |
|
---|
| 1284 | MEpoch dateObs = in.getEpoch(0);
|
---|
| 1285 |
|
---|
| 1286 | // Generate a Vector of correction factors. One per FreqID
|
---|
| 1287 |
|
---|
| 1288 | SDFrequencyTable sdft = in.getSDFreqTable();
|
---|
| 1289 | Vector<uInt> freqIDs;
|
---|
| 1290 | //
|
---|
| 1291 | Vector<Float> freqs(sdft.length());
|
---|
| 1292 | for (uInt i=0; i<sdft.length(); i++) {
|
---|
| 1293 | freqs(i) = (nChan/2 - sdft.referencePixel(i))*sdft.increment(i) + sdft.referenceValue(i);
|
---|
| 1294 | }
|
---|
| 1295 | //
|
---|
| 1296 | Vector<Float> JyPerK = sdAtt.JyPerK(inst, dateObs, freqs);
|
---|
[363] | 1297 | cerr << "Jy/K = " << JyPerK << endl;
|
---|
[354] | 1298 | Vector<Float> factors = cFac * JyPerK;
|
---|
| 1299 | if (toKelvin) factors = Float(1.0) / factors;
|
---|
| 1300 |
|
---|
| 1301 | // For operations only on specified cursor location
|
---|
| 1302 |
|
---|
| 1303 | IPosition start, end;
|
---|
| 1304 | getCursorLocation(start, end, in);
|
---|
| 1305 | const uInt ifAxis = in.getIF();
|
---|
| 1306 |
|
---|
| 1307 | // Iteration axes
|
---|
| 1308 |
|
---|
| 1309 | IPosition axes(asap::nAxes-1,0);
|
---|
| 1310 | for (uInt i=0,j=0; i<asap::nAxes; i++) {
|
---|
| 1311 | if (i!=asap::IFAxis) {
|
---|
| 1312 | axes(j++) = i;
|
---|
| 1313 | }
|
---|
| 1314 | }
|
---|
| 1315 |
|
---|
| 1316 | // Loop over rows and apply correction factor
|
---|
| 1317 |
|
---|
| 1318 | Float factor = 1.0;
|
---|
| 1319 | const uInt axis = asap::ChanAxis;
|
---|
| 1320 | for (uInt i=0; i < in.nRow(); ++i) {
|
---|
| 1321 |
|
---|
| 1322 | // Get data
|
---|
| 1323 |
|
---|
| 1324 | MaskedArray<Float> dataIn(in.rowAsMaskedArray(i));
|
---|
| 1325 | Array<Float>& values = dataIn.getRWArray();
|
---|
| 1326 |
|
---|
| 1327 | // Get SDCOntainer
|
---|
| 1328 |
|
---|
| 1329 | SDContainer sc = in.getSDContainer(i);
|
---|
| 1330 |
|
---|
| 1331 | // Get FreqIDs
|
---|
| 1332 |
|
---|
| 1333 | freqIDs = sc.getFreqMap();
|
---|
| 1334 |
|
---|
| 1335 | // Now the conversion factor depends only upon frequency
|
---|
| 1336 | // So we need to iterate through by IF only giving
|
---|
| 1337 | // us BEAM/POL/CHAN cubes
|
---|
| 1338 |
|
---|
| 1339 | if (doAll) {
|
---|
| 1340 | ArrayIterator<Float> itIn(values, axes);
|
---|
| 1341 | uInt ax = 0;
|
---|
| 1342 | while (!itIn.pastEnd()) {
|
---|
| 1343 | itIn.array() *= factors(freqIDs(ax)); // Writes back to dataIn
|
---|
| 1344 | itIn.next();
|
---|
| 1345 | }
|
---|
| 1346 | } else {
|
---|
| 1347 | MaskedArray<Float> dataIn2 = dataIn(start,end); // reference
|
---|
| 1348 | dataIn2 *= factors(freqIDs(ifAxis));
|
---|
| 1349 | }
|
---|
| 1350 |
|
---|
| 1351 | // Write out
|
---|
| 1352 |
|
---|
| 1353 | putDataInSDC(sc, dataIn.getArray(), dataIn.getMask());
|
---|
| 1354 | //
|
---|
| 1355 | pTabOut->putSDContainer(sc);
|
---|
| 1356 | }
|
---|
| 1357 | }
|
---|
| 1358 |
|
---|
| 1359 |
|
---|
| 1360 |
|
---|
[309] | 1361 | SDMemTable* SDMath::frequencyAlign (const SDMemTable& in,
|
---|
| 1362 | MFrequency::Types freqSystem,
|
---|
[397] | 1363 | const String& refTime,
|
---|
| 1364 | const String& methodStr,
|
---|
| 1365 | Bool perFreqID) const
|
---|
[267] | 1366 | {
|
---|
| 1367 | // Get Header
|
---|
| 1368 |
|
---|
| 1369 | SDHeader sh = in.getSDHeader();
|
---|
| 1370 | const uInt nChan = sh.nchan;
|
---|
| 1371 | const uInt nRows = in.nRow();
|
---|
[330] | 1372 | const uInt nIF = sh.nif;
|
---|
[267] | 1373 |
|
---|
| 1374 | // Get Table reference
|
---|
| 1375 |
|
---|
| 1376 | const Table& tabIn = in.table();
|
---|
| 1377 |
|
---|
| 1378 | // Get Columns from Table
|
---|
| 1379 |
|
---|
[294] | 1380 | ROScalarColumn<Double> mjdCol(tabIn, "TIME");
|
---|
| 1381 | ROScalarColumn<String> srcCol(tabIn, "SRCNAME");
|
---|
| 1382 | ROArrayColumn<uInt> fqIDCol(tabIn, "FREQID");
|
---|
| 1383 | Vector<Double> times = mjdCol.getColumn();
|
---|
[267] | 1384 |
|
---|
[397] | 1385 | // Generate DataDesc table
|
---|
[330] | 1386 |
|
---|
| 1387 | Matrix<uInt> ddIdx;
|
---|
| 1388 | SDDataDesc dDesc;
|
---|
[397] | 1389 | generateDataDescTable (ddIdx, dDesc, nIF, in, tabIn, srcCol, fqIDCol, perFreqID);
|
---|
[267] | 1390 |
|
---|
[294] | 1391 | // Get reference Epoch to time of first row or given String
|
---|
[267] | 1392 |
|
---|
| 1393 | Unit DAY(String("d"));
|
---|
[272] | 1394 | MEpoch::Ref epochRef(in.getTimeReference());
|
---|
| 1395 | MEpoch refEpoch;
|
---|
| 1396 | if (refTime.length()>0) {
|
---|
| 1397 | refEpoch = epochFromString(refTime, in.getTimeReference());
|
---|
| 1398 | } else {
|
---|
[288] | 1399 | refEpoch = in.getEpoch(0);
|
---|
[272] | 1400 | }
|
---|
[309] | 1401 | cerr << "Aligning at reference Epoch " << formatEpoch(refEpoch) <<
|
---|
| 1402 | " in frame " << MFrequency::showType(freqSystem) << endl;
|
---|
[267] | 1403 |
|
---|
[294] | 1404 | // Get Reference Position
|
---|
[267] | 1405 |
|
---|
[288] | 1406 | MPosition refPos = in.getAntennaPosition();
|
---|
[267] | 1407 |
|
---|
[397] | 1408 | // Create FrequencyAligner Block. One FA for each possible
|
---|
| 1409 | // source/freqID (perFreqID=True) or source/IF (perFreqID=False) combination
|
---|
[267] | 1410 |
|
---|
[330] | 1411 | PtrBlock<FrequencyAligner<Float>* > a(dDesc.length());
|
---|
[397] | 1412 | generateFrequencyAligners (a, dDesc, in, nChan, freqSystem, refPos,
|
---|
| 1413 | refEpoch, perFreqID);
|
---|
[267] | 1414 |
|
---|
[397] | 1415 | // Generate and fill output Frequency Table. WHen perFreqID=True, there is one output FreqID
|
---|
| 1416 | // for each entry in the SDDataDesc table. However, in perFreqID=False mode, there may be
|
---|
| 1417 | // some degeneracy, so we need a little translation map
|
---|
[330] | 1418 |
|
---|
| 1419 | SDFrequencyTable freqTabOut = in.getSDFreqTable();
|
---|
| 1420 | freqTabOut.setLength(0);
|
---|
| 1421 | Vector<String> units(1);
|
---|
| 1422 | units = String("Hz");
|
---|
| 1423 | Bool linear=True;
|
---|
| 1424 | //
|
---|
[397] | 1425 | Vector<uInt> ddFQTrans(dDesc.length(),0);
|
---|
[330] | 1426 | for (uInt i=0; i<dDesc.length(); i++) {
|
---|
| 1427 |
|
---|
| 1428 | // Get Aligned SC in Hz
|
---|
| 1429 |
|
---|
| 1430 | SpectralCoordinate sC = a[i]->alignedSpectralCoordinate(linear);
|
---|
| 1431 | sC.setWorldAxisUnits(units);
|
---|
| 1432 |
|
---|
| 1433 | // Add FreqID
|
---|
| 1434 |
|
---|
[397] | 1435 | uInt idx = freqTabOut.addFrequency(sC.referencePixel()[0],
|
---|
| 1436 | sC.referenceValue()[0],
|
---|
| 1437 | sC.increment()[0]);
|
---|
| 1438 | ddFQTrans(i) = idx; // output FreqID = ddFQTrans(ddIdx)
|
---|
[330] | 1439 | }
|
---|
| 1440 |
|
---|
[317] | 1441 | // Interpolation method
|
---|
| 1442 |
|
---|
| 1443 | InterpolateArray1D<Double,Float>::InterpolationMethod interp;
|
---|
| 1444 | convertInterpString(interp, methodStr);
|
---|
| 1445 |
|
---|
[267] | 1446 | // New output Table
|
---|
| 1447 |
|
---|
[397] | 1448 | cerr << "Create output table" << endl;
|
---|
[267] | 1449 | SDMemTable* pTabOut = new SDMemTable(in,True);
|
---|
[330] | 1450 | pTabOut->putSDFreqTable(freqTabOut);
|
---|
[267] | 1451 |
|
---|
| 1452 | // Loop over rows in Table
|
---|
| 1453 |
|
---|
[330] | 1454 | Bool extrapolate=False;
|
---|
[294] | 1455 | const IPosition polChanAxes(2, asap::PolAxis, asap::ChanAxis);
|
---|
| 1456 | Bool useCachedAbcissa = False;
|
---|
| 1457 | Bool first = True;
|
---|
| 1458 | Bool ok;
|
---|
| 1459 | Vector<Float> yOut;
|
---|
| 1460 | Vector<Bool> maskOut;
|
---|
[330] | 1461 | Vector<uInt> freqID(nIF);
|
---|
[309] | 1462 | uInt ifIdx, faIdx;
|
---|
[397] | 1463 | Vector<Double> xIn;
|
---|
[267] | 1464 | //
|
---|
[294] | 1465 | for (uInt iRow=0; iRow<nRows; ++iRow) {
|
---|
| 1466 | if (iRow%10==0) {
|
---|
| 1467 | cerr << "Processing row " << iRow << endl;
|
---|
| 1468 | }
|
---|
[267] | 1469 |
|
---|
| 1470 | // Get EPoch
|
---|
| 1471 |
|
---|
[294] | 1472 | Quantum<Double> tQ2(times[iRow],DAY);
|
---|
| 1473 | MVEpoch mv2(tQ2);
|
---|
| 1474 | MEpoch epoch(mv2, epochRef);
|
---|
[267] | 1475 |
|
---|
| 1476 | // Get copy of data
|
---|
| 1477 |
|
---|
[294] | 1478 | const MaskedArray<Float>& mArrIn(in.rowAsMaskedArray(iRow));
|
---|
| 1479 | Array<Float> values = mArrIn.getArray();
|
---|
| 1480 | Array<Bool> mask = mArrIn.getMask();
|
---|
[267] | 1481 |
|
---|
[309] | 1482 | // For each row, the Frequency abcissa will be the same regardless
|
---|
[267] | 1483 | // of polarization. For all other axes (IF and BEAM) the abcissa
|
---|
| 1484 | // will change. So we iterate through the data by pol-chan planes
|
---|
[330] | 1485 | // to mimimize the work. Probably won't work for multiple beams
|
---|
| 1486 | // at this point.
|
---|
[267] | 1487 |
|
---|
[294] | 1488 | ArrayIterator<Float> itValuesPlane(values, polChanAxes);
|
---|
| 1489 | ArrayIterator<Bool> itMaskPlane(mask, polChanAxes);
|
---|
| 1490 | while (!itValuesPlane.pastEnd()) {
|
---|
[267] | 1491 |
|
---|
[309] | 1492 | // Find the IF index and then the FA PtrBlock index
|
---|
[267] | 1493 |
|
---|
[294] | 1494 | const IPosition& pos = itValuesPlane.pos();
|
---|
| 1495 | ifIdx = pos(asap::IFAxis);
|
---|
[330] | 1496 | faIdx = ddIdx(iRow,ifIdx);
|
---|
[397] | 1497 |
|
---|
| 1498 | // Generate abcissa for perIF. Could cache this in a Matrix
|
---|
| 1499 | // on a per scan basis. Pretty expensive doing it for every row.
|
---|
| 1500 |
|
---|
| 1501 | if (!perFreqID) {
|
---|
| 1502 | xIn.resize(nChan);
|
---|
| 1503 | uInt fqID = dDesc.secID(ddIdx(iRow,ifIdx));
|
---|
| 1504 | SpectralCoordinate sC = in.getSpectralCoordinate(fqID);
|
---|
| 1505 | Double w;
|
---|
| 1506 | for (uInt i=0; i<nChan; i++) {
|
---|
| 1507 | sC.toWorld(w,Double(i));
|
---|
| 1508 | xIn[i] = w;
|
---|
| 1509 | }
|
---|
| 1510 | }
|
---|
[267] | 1511 | //
|
---|
[294] | 1512 | VectorIterator<Float> itValuesVec(itValuesPlane.array(), 1);
|
---|
| 1513 | VectorIterator<Bool> itMaskVec(itMaskPlane.array(), 1);
|
---|
[330] | 1514 |
|
---|
| 1515 | // Iterate through the plane by vector and align
|
---|
| 1516 |
|
---|
[294] | 1517 | first = True;
|
---|
| 1518 | useCachedAbcissa=False;
|
---|
| 1519 | while (!itValuesVec.pastEnd()) {
|
---|
[397] | 1520 | if (perFreqID) {
|
---|
| 1521 | ok = a[faIdx]->align (yOut, maskOut, itValuesVec.vector(),
|
---|
| 1522 | itMaskVec.vector(), epoch, useCachedAbcissa,
|
---|
| 1523 | interp, extrapolate);
|
---|
| 1524 | } else {
|
---|
| 1525 | ok = a[faIdx]->align (yOut, maskOut, xIn, itValuesVec.vector(),
|
---|
| 1526 | itMaskVec.vector(), epoch, useCachedAbcissa,
|
---|
| 1527 | interp, extrapolate);
|
---|
| 1528 | }
|
---|
[330] | 1529 | //
|
---|
[294] | 1530 | itValuesVec.vector() = yOut;
|
---|
| 1531 | itMaskVec.vector() = maskOut;
|
---|
[267] | 1532 | //
|
---|
[294] | 1533 | itValuesVec.next();
|
---|
| 1534 | itMaskVec.next();
|
---|
[267] | 1535 | //
|
---|
[294] | 1536 | if (first) {
|
---|
| 1537 | useCachedAbcissa = True;
|
---|
| 1538 | first = False;
|
---|
| 1539 | }
|
---|
| 1540 | }
|
---|
[267] | 1541 | //
|
---|
| 1542 | itValuesPlane.next();
|
---|
| 1543 | itMaskPlane.next();
|
---|
[294] | 1544 | }
|
---|
[267] | 1545 |
|
---|
[330] | 1546 | // Create SDContainer and put back
|
---|
[267] | 1547 |
|
---|
| 1548 | SDContainer sc = in.getSDContainer(iRow);
|
---|
| 1549 | putDataInSDC(sc, values, mask);
|
---|
[397] | 1550 |
|
---|
| 1551 | // Set output FreqIDs
|
---|
| 1552 |
|
---|
[330] | 1553 | for (uInt i=0; i<nIF; i++) {
|
---|
[397] | 1554 | uInt idx = ddIdx(iRow,i); // Index into SDDataDesc table
|
---|
| 1555 | freqID(i) = ddFQTrans(idx); // FreqID in output FQ table
|
---|
[330] | 1556 | }
|
---|
| 1557 | sc.putFreqMap(freqID);
|
---|
[267] | 1558 | //
|
---|
| 1559 | pTabOut->putSDContainer(sc);
|
---|
[294] | 1560 | }
|
---|
[267] | 1561 |
|
---|
[309] | 1562 | // Now we must set the base and extra frames to the
|
---|
| 1563 | // input frame
|
---|
| 1564 |
|
---|
| 1565 | std::vector<string> info = pTabOut->getCoordInfo();
|
---|
| 1566 | info[1] = MFrequency::showType(freqSystem); // Conversion frame
|
---|
| 1567 | info[3] = info[1]; // Base frame
|
---|
| 1568 | pTabOut->setCoordInfo(info);
|
---|
| 1569 |
|
---|
[267] | 1570 | // Clean up PointerBlock
|
---|
| 1571 |
|
---|
[309] | 1572 | for (uInt i=0; i<a.nelements(); i++) delete a[i];
|
---|
[267] | 1573 | //
|
---|
[309] | 1574 | return pTabOut;
|
---|
[267] | 1575 | }
|
---|
| 1576 |
|
---|
| 1577 |
|
---|
[185] | 1578 | void SDMath::fillSDC(SDContainer& sc,
|
---|
| 1579 | const Array<Bool>& mask,
|
---|
| 1580 | const Array<Float>& data,
|
---|
| 1581 | const Array<Float>& tSys,
|
---|
| 1582 | Int scanID, Double timeStamp,
|
---|
| 1583 | Double interval, const String& sourceName,
|
---|
[227] | 1584 | const Vector<uInt>& freqID) const
|
---|
[167] | 1585 | {
|
---|
[169] | 1586 | // Data and mask
|
---|
[167] | 1587 |
|
---|
[185] | 1588 | putDataInSDC(sc, data, mask);
|
---|
[167] | 1589 |
|
---|
[169] | 1590 | // TSys
|
---|
| 1591 |
|
---|
| 1592 | sc.putTsys(tSys);
|
---|
| 1593 |
|
---|
| 1594 | // Time things
|
---|
| 1595 |
|
---|
| 1596 | sc.timestamp = timeStamp;
|
---|
| 1597 | sc.interval = interval;
|
---|
| 1598 | sc.scanid = scanID;
|
---|
[167] | 1599 | //
|
---|
[169] | 1600 | sc.sourcename = sourceName;
|
---|
| 1601 | sc.putFreqMap(freqID);
|
---|
| 1602 | }
|
---|
[167] | 1603 |
|
---|
[185] | 1604 | void SDMath::normalize(MaskedArray<Float>& sum,
|
---|
[169] | 1605 | const Array<Float>& sumSq,
|
---|
| 1606 | const Array<Float>& nPts,
|
---|
| 1607 | WeightType wtType, Int axis,
|
---|
[227] | 1608 | Int nAxesSub) const
|
---|
[169] | 1609 | {
|
---|
| 1610 | IPosition pos2(nAxesSub,0);
|
---|
| 1611 | //
|
---|
| 1612 | if (wtType==NONE) {
|
---|
[167] | 1613 |
|
---|
[169] | 1614 | // We just average by the number of points accumulated.
|
---|
| 1615 | // We need to make a MA out of nPts so that no divide by
|
---|
| 1616 | // zeros occur
|
---|
[167] | 1617 |
|
---|
[169] | 1618 | MaskedArray<Float> t(nPts, (nPts>Float(0.0)));
|
---|
| 1619 | sum /= t;
|
---|
| 1620 | } else if (wtType==VAR) {
|
---|
[167] | 1621 |
|
---|
[169] | 1622 | // Normalize each spectrum by sum(1/var) where the variance
|
---|
| 1623 | // is worked out for each spectrum
|
---|
| 1624 |
|
---|
| 1625 | Array<Float>& data = sum.getRWArray();
|
---|
| 1626 | VectorIterator<Float> itData(data, axis);
|
---|
| 1627 | while (!itData.pastEnd()) {
|
---|
| 1628 | pos2 = itData.pos().getFirst(nAxesSub);
|
---|
| 1629 | itData.vector() /= sumSq(pos2);
|
---|
| 1630 | itData.next();
|
---|
| 1631 | }
|
---|
| 1632 | } else if (wtType==TSYS) {
|
---|
| 1633 | }
|
---|
| 1634 | }
|
---|
| 1635 |
|
---|
| 1636 |
|
---|
[185] | 1637 | void SDMath::accumulate(Double& timeSum, Double& intSum, Int& nAccum,
|
---|
| 1638 | MaskedArray<Float>& sum, Array<Float>& sumSq,
|
---|
| 1639 | Array<Float>& nPts, Array<Float>& tSysSum,
|
---|
| 1640 | const Array<Float>& tSys, const Array<Float>& nInc,
|
---|
| 1641 | const Vector<Bool>& mask, Double time, Double interval,
|
---|
| 1642 | const Block<CountedPtr<SDMemTable> >& in,
|
---|
| 1643 | uInt iTab, uInt iRow, uInt axis,
|
---|
| 1644 | uInt nAxesSub, Bool useMask,
|
---|
[227] | 1645 | WeightType wtType) const
|
---|
[169] | 1646 | {
|
---|
| 1647 |
|
---|
| 1648 | // Get data
|
---|
| 1649 |
|
---|
| 1650 | MaskedArray<Float> dataIn(in[iTab]->rowAsMaskedArray(iRow));
|
---|
| 1651 | Array<Float>& valuesIn = dataIn.getRWArray(); // writable reference
|
---|
| 1652 | const Array<Bool>& maskIn = dataIn.getMask(); // RO reference
|
---|
[167] | 1653 | //
|
---|
[169] | 1654 | if (wtType==NONE) {
|
---|
| 1655 | const MaskedArray<Float> n(nInc,dataIn.getMask());
|
---|
| 1656 | nPts += n; // Only accumulates where mask==T
|
---|
| 1657 | } else if (wtType==VAR) {
|
---|
[167] | 1658 |
|
---|
[169] | 1659 | // We are going to average the data, weighted by the noise for each pol, beam and IF.
|
---|
| 1660 | // So therefore we need to iterate through by spectrum (axis 3)
|
---|
[167] | 1661 |
|
---|
[169] | 1662 | VectorIterator<Float> itData(valuesIn, axis);
|
---|
| 1663 | ReadOnlyVectorIterator<Bool> itMask(maskIn, axis);
|
---|
| 1664 | Float fac = 1.0;
|
---|
| 1665 | IPosition pos(nAxesSub,0);
|
---|
| 1666 | //
|
---|
| 1667 | while (!itData.pastEnd()) {
|
---|
[167] | 1668 |
|
---|
[169] | 1669 | // Make MaskedArray of Vector, optionally apply OTF mask, and find scaling factor
|
---|
[167] | 1670 |
|
---|
[169] | 1671 | if (useMask) {
|
---|
| 1672 | MaskedArray<Float> tmp(itData.vector(),mask&&itMask.vector());
|
---|
| 1673 | fac = 1.0/variance(tmp);
|
---|
| 1674 | } else {
|
---|
| 1675 | MaskedArray<Float> tmp(itData.vector(),itMask.vector());
|
---|
| 1676 | fac = 1.0/variance(tmp);
|
---|
| 1677 | }
|
---|
| 1678 |
|
---|
| 1679 | // Scale data
|
---|
| 1680 |
|
---|
| 1681 | itData.vector() *= fac; // Writes back into 'dataIn'
|
---|
[167] | 1682 | //
|
---|
[169] | 1683 | // Accumulate variance per if/pol/beam averaged over spectrum
|
---|
| 1684 | // This method to get pos2 from itData.pos() is only valid
|
---|
| 1685 | // because the spectral axis is the last one (so we can just
|
---|
| 1686 | // copy the first nAXesSub positions out)
|
---|
[167] | 1687 |
|
---|
[169] | 1688 | pos = itData.pos().getFirst(nAxesSub);
|
---|
| 1689 | sumSq(pos) += fac;
|
---|
| 1690 | //
|
---|
| 1691 | itData.next();
|
---|
| 1692 | itMask.next();
|
---|
| 1693 | }
|
---|
| 1694 | } else if (wtType==TSYS) {
|
---|
| 1695 | }
|
---|
[167] | 1696 |
|
---|
[169] | 1697 | // Accumulate sum of (possibly scaled) data
|
---|
| 1698 |
|
---|
| 1699 | sum += dataIn;
|
---|
| 1700 |
|
---|
| 1701 | // Accumulate Tsys, time, and interval
|
---|
| 1702 |
|
---|
| 1703 | tSysSum += tSys;
|
---|
| 1704 | timeSum += time;
|
---|
| 1705 | intSum += interval;
|
---|
| 1706 | nAccum += 1;
|
---|
| 1707 | }
|
---|
| 1708 |
|
---|
| 1709 |
|
---|
| 1710 |
|
---|
| 1711 |
|
---|
[185] | 1712 | void SDMath::getCursorLocation(IPosition& start, IPosition& end,
|
---|
[227] | 1713 | const SDMemTable& in) const
|
---|
[169] | 1714 | {
|
---|
| 1715 | const uInt nDim = 4;
|
---|
| 1716 | const uInt i = in.getBeam();
|
---|
| 1717 | const uInt j = in.getIF();
|
---|
| 1718 | const uInt k = in.getPol();
|
---|
| 1719 | const uInt n = in.nChan();
|
---|
[167] | 1720 | //
|
---|
[169] | 1721 | start.resize(nDim);
|
---|
| 1722 | start(0) = i;
|
---|
| 1723 | start(1) = j;
|
---|
| 1724 | start(2) = k;
|
---|
| 1725 | start(3) = 0;
|
---|
[167] | 1726 | //
|
---|
[169] | 1727 | end.resize(nDim);
|
---|
| 1728 | end(0) = i;
|
---|
| 1729 | end(1) = j;
|
---|
| 1730 | end(2) = k;
|
---|
| 1731 | end(3) = n-1;
|
---|
| 1732 | }
|
---|
| 1733 |
|
---|
| 1734 |
|
---|
[227] | 1735 | void SDMath::convertWeightString(WeightType& wtType, const String& weightStr) const
|
---|
[169] | 1736 | {
|
---|
| 1737 | String tStr(weightStr);
|
---|
| 1738 | tStr.upcase();
|
---|
| 1739 | if (tStr.contains(String("NONE"))) {
|
---|
| 1740 | wtType = NONE;
|
---|
| 1741 | } else if (tStr.contains(String("VAR"))) {
|
---|
| 1742 | wtType = VAR;
|
---|
| 1743 | } else if (tStr.contains(String("TSYS"))) {
|
---|
| 1744 | wtType = TSYS;
|
---|
[185] | 1745 | throw(AipsError("T_sys weighting not yet implemented"));
|
---|
[169] | 1746 | } else {
|
---|
[185] | 1747 | throw(AipsError("Unrecognized weighting type"));
|
---|
[167] | 1748 | }
|
---|
| 1749 | }
|
---|
| 1750 |
|
---|
[317] | 1751 |
|
---|
| 1752 | void SDMath::convertInterpString(casa::InterpolateArray1D<Double,Float>::InterpolationMethod& type,
|
---|
| 1753 | const casa::String& interp) const
|
---|
[227] | 1754 | {
|
---|
| 1755 | String tStr(interp);
|
---|
| 1756 | tStr.upcase();
|
---|
| 1757 | if (tStr.contains(String("NEAR"))) {
|
---|
[317] | 1758 | type = InterpolateArray1D<Double,Float>::nearestNeighbour;
|
---|
[227] | 1759 | } else if (tStr.contains(String("LIN"))) {
|
---|
[317] | 1760 | type = InterpolateArray1D<Double,Float>::linear;
|
---|
[227] | 1761 | } else if (tStr.contains(String("CUB"))) {
|
---|
[317] | 1762 | type = InterpolateArray1D<Double,Float>::cubic;
|
---|
[227] | 1763 | } else if (tStr.contains(String("SPL"))) {
|
---|
[317] | 1764 | type = InterpolateArray1D<Double,Float>::spline;
|
---|
[227] | 1765 | } else {
|
---|
| 1766 | throw(AipsError("Unrecognized interpolation type"));
|
---|
| 1767 | }
|
---|
| 1768 | }
|
---|
| 1769 |
|
---|
[185] | 1770 | void SDMath::putDataInSDC(SDContainer& sc, const Array<Float>& data,
|
---|
[227] | 1771 | const Array<Bool>& mask) const
|
---|
[169] | 1772 | {
|
---|
| 1773 | sc.putSpectrum(data);
|
---|
| 1774 | //
|
---|
| 1775 | Array<uChar> outflags(data.shape());
|
---|
| 1776 | convertArray(outflags,!mask);
|
---|
| 1777 | sc.putFlags(outflags);
|
---|
| 1778 | }
|
---|
[227] | 1779 |
|
---|
| 1780 | Table SDMath::readAsciiFile (const String& fileName) const
|
---|
| 1781 | {
|
---|
[230] | 1782 | String formatString;
|
---|
| 1783 | Table tbl = readAsciiTable (formatString, Table::Memory, fileName, "", "", False);
|
---|
[227] | 1784 | return tbl;
|
---|
| 1785 | }
|
---|
[230] | 1786 |
|
---|
| 1787 |
|
---|
[234] | 1788 |
|
---|
| 1789 | void SDMath::correctFromAsciiTable(SDMemTable* pTabOut,
|
---|
| 1790 | const SDMemTable& in, const String& fileName,
|
---|
| 1791 | const String& col0, const String& col1,
|
---|
| 1792 | const String& methodStr, Bool doAll,
|
---|
| 1793 | const Vector<Float>& xOut) const
|
---|
[230] | 1794 | {
|
---|
| 1795 |
|
---|
| 1796 | // Read gain-elevation ascii file data into a Table.
|
---|
| 1797 |
|
---|
[234] | 1798 | Table geTable = readAsciiFile (fileName);
|
---|
[230] | 1799 | //
|
---|
[234] | 1800 | correctFromTable (pTabOut, in, geTable, col0, col1, methodStr, doAll, xOut);
|
---|
[230] | 1801 | }
|
---|
| 1802 |
|
---|
[234] | 1803 | void SDMath::correctFromTable(SDMemTable* pTabOut, const SDMemTable& in,
|
---|
| 1804 | const Table& tTable, const String& col0,
|
---|
| 1805 | const String& col1,
|
---|
| 1806 | const String& methodStr, Bool doAll,
|
---|
| 1807 | const Vector<Float>& xOut) const
|
---|
[230] | 1808 | {
|
---|
| 1809 |
|
---|
| 1810 | // Get data from Table
|
---|
| 1811 |
|
---|
| 1812 | ROScalarColumn<Float> geElCol(tTable, col0);
|
---|
| 1813 | ROScalarColumn<Float> geFacCol(tTable, col1);
|
---|
| 1814 | Vector<Float> xIn = geElCol.getColumn();
|
---|
| 1815 | Vector<Float> yIn = geFacCol.getColumn();
|
---|
| 1816 | Vector<Bool> maskIn(xIn.nelements(),True);
|
---|
| 1817 |
|
---|
| 1818 | // Interpolate (and extrapolate) with desired method
|
---|
| 1819 |
|
---|
[317] | 1820 | InterpolateArray1D<Double,Float>::InterpolationMethod method;
|
---|
[230] | 1821 | convertInterpString(method, methodStr);
|
---|
[317] | 1822 | Int intMethod(method);
|
---|
[230] | 1823 | //
|
---|
| 1824 | Vector<Float> yOut;
|
---|
| 1825 | Vector<Bool> maskOut;
|
---|
| 1826 | InterpolateArray1D<Float,Float>::interpolate(yOut, maskOut, xOut,
|
---|
[317] | 1827 | xIn, yIn, maskIn, intMethod,
|
---|
[230] | 1828 | True, True);
|
---|
[234] | 1829 | // Apply
|
---|
[230] | 1830 |
|
---|
[234] | 1831 | correctFromVector (pTabOut, in, doAll, yOut);
|
---|
| 1832 | }
|
---|
| 1833 |
|
---|
| 1834 |
|
---|
| 1835 | void SDMath::correctFromVector (SDMemTable* pTabOut, const SDMemTable& in,
|
---|
| 1836 | Bool doAll, const Vector<Float>& factor) const
|
---|
| 1837 | {
|
---|
[270] | 1838 |
|
---|
[230] | 1839 | // For operations only on specified cursor location
|
---|
| 1840 |
|
---|
| 1841 | IPosition start, end;
|
---|
| 1842 | getCursorLocation(start, end, in);
|
---|
| 1843 |
|
---|
[270] | 1844 | // Loop over rows and apply correction factor
|
---|
[230] | 1845 |
|
---|
| 1846 | const uInt axis = asap::ChanAxis;
|
---|
| 1847 | for (uInt i=0; i < in.nRow(); ++i) {
|
---|
| 1848 |
|
---|
| 1849 | // Get data
|
---|
| 1850 |
|
---|
| 1851 | MaskedArray<Float> dataIn(in.rowAsMaskedArray(i));
|
---|
| 1852 |
|
---|
| 1853 | // Apply factor
|
---|
| 1854 |
|
---|
| 1855 | if (doAll) {
|
---|
[270] | 1856 | dataIn *= factor[i];
|
---|
[230] | 1857 | } else {
|
---|
[270] | 1858 | MaskedArray<Float> dataIn2 = dataIn(start,end); // reference
|
---|
| 1859 | dataIn2 *= factor[i];
|
---|
[230] | 1860 | }
|
---|
| 1861 |
|
---|
| 1862 | // Write out
|
---|
| 1863 |
|
---|
| 1864 | SDContainer sc = in.getSDContainer(i);
|
---|
[270] | 1865 | putDataInSDC(sc, dataIn.getArray(), dataIn.getMask());
|
---|
[230] | 1866 | //
|
---|
| 1867 | pTabOut->putSDContainer(sc);
|
---|
| 1868 | }
|
---|
| 1869 | }
|
---|
| 1870 |
|
---|
[234] | 1871 |
|
---|
[262] | 1872 |
|
---|
| 1873 |
|
---|
[330] | 1874 | void SDMath::generateDataDescTable (Matrix<uInt>& ddIdx,
|
---|
| 1875 | SDDataDesc& dDesc,
|
---|
| 1876 | uInt nIF,
|
---|
| 1877 | const SDMemTable& in,
|
---|
| 1878 | const Table& tabIn,
|
---|
| 1879 | const ROScalarColumn<String>& srcCol,
|
---|
[397] | 1880 | const ROArrayColumn<uInt>& fqIDCol,
|
---|
| 1881 | Bool perFreqID) const
|
---|
[330] | 1882 | {
|
---|
| 1883 | const uInt nRows = tabIn.nrow();
|
---|
| 1884 | ddIdx.resize(nRows,nIF);
|
---|
[262] | 1885 | //
|
---|
[330] | 1886 | String srcName;
|
---|
| 1887 | Vector<uInt> freqIDs;
|
---|
| 1888 | for (uInt iRow=0; iRow<nRows; iRow++) {
|
---|
| 1889 | srcCol.get(iRow, srcName);
|
---|
| 1890 | fqIDCol.get(iRow, freqIDs);
|
---|
| 1891 | const MDirection& dir = in.getDirection(iRow);
|
---|
| 1892 | //
|
---|
[397] | 1893 | if (perFreqID) {
|
---|
| 1894 |
|
---|
| 1895 | // One entry per source/freqID pair
|
---|
| 1896 |
|
---|
| 1897 | for (uInt iIF=0; iIF<nIF; iIF++) {
|
---|
| 1898 | ddIdx(iRow,iIF) = dDesc.addEntry(srcName, freqIDs[iIF], dir, 0);
|
---|
| 1899 | }
|
---|
| 1900 | } else {
|
---|
| 1901 |
|
---|
| 1902 | // One entry per source/IF pair. Hang onto the FreqID as well
|
---|
| 1903 |
|
---|
| 1904 | for (uInt iIF=0; iIF<nIF; iIF++) {
|
---|
| 1905 | ddIdx(iRow,iIF) = dDesc.addEntry(srcName, iIF, dir, freqIDs[iIF]);
|
---|
| 1906 | }
|
---|
[262] | 1907 | }
|
---|
| 1908 | }
|
---|
| 1909 | }
|
---|
[272] | 1910 |
|
---|
[397] | 1911 |
|
---|
| 1912 |
|
---|
| 1913 |
|
---|
| 1914 |
|
---|
[272] | 1915 | MEpoch SDMath::epochFromString (const String& str, MEpoch::Types timeRef) const
|
---|
| 1916 | {
|
---|
| 1917 | Quantum<Double> qt;
|
---|
| 1918 | if (MVTime::read(qt,str)) {
|
---|
| 1919 | MVEpoch mv(qt);
|
---|
| 1920 | MEpoch me(mv, timeRef);
|
---|
| 1921 | return me;
|
---|
| 1922 | } else {
|
---|
| 1923 | throw(AipsError("Invalid format for Epoch string"));
|
---|
| 1924 | }
|
---|
| 1925 | }
|
---|
| 1926 |
|
---|
| 1927 |
|
---|
| 1928 | String SDMath::formatEpoch(const MEpoch& epoch) const
|
---|
| 1929 | {
|
---|
| 1930 | MVTime mvt(epoch.getValue());
|
---|
| 1931 | return mvt.string(MVTime::YMD) + String(" (") + epoch.getRefString() + String(")");
|
---|
| 1932 | }
|
---|
| 1933 |
|
---|
[294] | 1934 |
|
---|
[309] | 1935 |
|
---|
| 1936 | void SDMath::generateFrequencyAligners (PtrBlock<FrequencyAligner<Float>* >& a,
|
---|
[330] | 1937 | const SDDataDesc& dDesc,
|
---|
| 1938 | const SDMemTable& in, uInt nChan,
|
---|
| 1939 | MFrequency::Types system,
|
---|
| 1940 | const MPosition& refPos,
|
---|
[397] | 1941 | const MEpoch& refEpoch,
|
---|
| 1942 | Bool perFreqID) const
|
---|
[294] | 1943 | {
|
---|
[330] | 1944 | for (uInt i=0; i<dDesc.length(); i++) {
|
---|
[397] | 1945 | uInt ID = dDesc.ID(i);
|
---|
| 1946 | uInt secID = dDesc.secID(i);
|
---|
| 1947 | const MDirection& refDir = dDesc.secDir(i);
|
---|
[330] | 1948 | //
|
---|
[397] | 1949 | if (perFreqID) {
|
---|
| 1950 |
|
---|
| 1951 | // One aligner per source/FreqID pair.
|
---|
| 1952 |
|
---|
| 1953 | SpectralCoordinate sC = in.getSpectralCoordinate(ID);
|
---|
| 1954 | a[i] = new FrequencyAligner<Float>(sC, nChan, refEpoch, refDir, refPos, system);
|
---|
| 1955 | } else {
|
---|
| 1956 |
|
---|
| 1957 | // One aligner per source/IF pair. But we still need the FreqID to
|
---|
| 1958 | // get the right SC. Hence the messing about with the secondary ID
|
---|
| 1959 |
|
---|
| 1960 | SpectralCoordinate sC = in.getSpectralCoordinate(secID);
|
---|
| 1961 | a[i] = new FrequencyAligner<Float>(sC, nChan, refEpoch, refDir, refPos, system);
|
---|
| 1962 | }
|
---|
[294] | 1963 | }
|
---|
| 1964 | }
|
---|