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1 : // -*- C++ -*- 2 : //# CFCell.cc: Implementation of the CFCell class 3 : //# Copyright (C) 1997,1998,1999,2000,2001,2002,2003 4 : //# Associated Universities, Inc. Washington DC, USA. 5 : //# 6 : //# This library is free software; you can redistribute it and/or modify it 7 : //# under the terms of the GNU Library General Public License as published by 8 : //# the Free Software Foundation; either version 2 of the License, or (at your 9 : //# option) any later version. 10 : //# 11 : //# This library is distributed in the hope that it will be useful, but WITHOUT 12 : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 13 : //# FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public 14 : //# License for more details. 15 : //# 16 : //# You should have received a copy of the GNU Library General Public License 17 : //# along with this library; if not, write to the Free Software Foundation, 18 : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA. 19 : //# 20 : //# Correspondence concerning AIPS++ should be addressed as follows: 21 : //# Internet email: aips2-request@nrao.edu. 22 : //# Postal address: AIPS++ Project Office 23 : //# National Radio Astronomy Observatory 24 : //# 520 Edgemont Road 25 : //# Charlottesville, VA 22903-2475 USA 26 : //# 27 : //# $Id$ 28 : #include <synthesis/TransformMachines/CFCell.h> 29 : #include <synthesis/TransformMachines/Utils.h> 30 : #include <casacore/casa/Utilities/BinarySearch.h> 31 : #include <casacore/images/Images/PagedImage.h> 32 : using namespace casacore; 33 : namespace casa{ 34 : 35 : 36 0 : CountedPtr<CFCell> CFCell::clone() 37 : { 38 0 : CountedPtr<CFCell> clone=new CFCell(); 39 0 : clone->setParams(*this); 40 0 : clone->storage_p = new Array<TT>(*storage_p); 41 0 : return clone; 42 : } 43 : 44 0 : void CFCell::setParams(const CFCell& other) 45 : { 46 0 : shape_p=other.storage_p->shape(); 47 0 : shape_p = other.shape_p; 48 0 : coordSys_p=other.coordSys_p; 49 0 : sampling_p=other.sampling_p; 50 0 : xSupport_p=other.xSupport_p; 51 0 : ySupport_p=other.ySupport_p; 52 0 : wValue_p = other.wValue_p; 53 0 : wIncr_p=other.wIncr_p; 54 0 : fileName_p=other.fileName_p; 55 0 : freqValue_p = other.freqValue_p; 56 0 : freqIncr_p = other.freqIncr_p; 57 0 : muellerElement_p = other.muellerElement_p; 58 0 : pa_p = other.pa_p; 59 : //cfShape_p=other.storage_p->shape().asVector(); 60 0 : cfShape_p.resize(); 61 0 : cfShape_p.assign(other.cfShape_p); 62 0 : conjFreq_p = other.conjFreq_p; 63 0 : conjPoln_p = other.conjPoln_p; 64 0 : telescopeName_p=other.telescopeName_p; 65 0 : bandName_p=other.bandName_p; 66 0 : diameter_p=other.diameter_p; 67 0 : isRotationallySymmetric_p=other.isRotationallySymmetric_p; 68 0 : } 69 : 70 0 : void CFCell::show(const char *Mesg,ostream &os) 71 : { 72 0 : LogIO log_l(LogOrigin("CFCell","show[R&D]")); 73 : // << "CoordSys: " << coordSys_p << endl 74 0 : if (Mesg) os << Mesg; 75 0 : os << "Sampling: " << sampling_p << endl 76 0 : << "xSupport, ySupport: " << xSupport_p << " " << ySupport_p << endl 77 0 : << "wValues: " << wValue_p << endl 78 0 : << "wIncr: " << wIncr_p << endl 79 0 : << "FreqValues: " << freqValue_p << endl 80 0 : << "ConjFreq: " << conjFreq_p << endl 81 0 : << "ConjPoln: " << conjPoln_p << endl 82 0 : << "MuellerElements: " << muellerElement_p << endl 83 0 : << "Data shape: " << storage_p->shape() << " " << cfShape_p << endl 84 0 : << "Parallactic Angle(d): " << pa_p.getValue("deg") 85 0 : << endl; 86 0 : IPosition dummy; 87 0 : Vector<String> csList; 88 : // os << "CoordSys: "; 89 : // csList = coordSys_p.list(log_l,MDoppler::RADIO,dummy,dummy); 90 : // os << csList << endl; 91 0 : } 92 : 93 272 : void CFCell::makePersistent(const char *dir, const char* cfName) 94 : { 95 544 : LogIO log_l(LogOrigin("CFCell","makePersistent[R&D]")); 96 272 : String name(dir); 97 272 : if (cfShape_p.nelements() == 0) 98 : { 99 : //log_l << "Skipping making " << name << "/" << cfName << " persistent." << LogIO::WARN << LogIO::POST; 100 0 : return; 101 : } 102 : 103 : // if (fileName_p != "" )name = "test.cf/"+fileName_p; 104 544 : String tt=fileName_p; 105 : 106 272 : if (fileName_p == "") fileName_p = String(cfName); 107 272 : name = String(dir) + "/" + fileName_p; 108 : // log_l << "Making " << name << " persistent. Was " << tt << LogIO::WARN << LogIO::POST; 109 : // storeArrayAsImage(name, coordSys_p, *storage_p); 110 : 111 : // PagedImage<Complex> thisCF(storage_p->shape(),coordSys_p, name); 112 : 113 544 : IPosition tmpShape; 114 272 : tmpShape=shape_p; 115 : // Zero storage buffer is a hint that this may be an "empty CFs" 116 : // being made persistent. So make a 2x2 pixel image (since I 117 : // don't know how to make a 0x0 pixel image to just save the CS 118 : // and miscInfo information to the disk). 119 272 : if ((storage_p->shape()).product()==0) tmpShape[0]=tmpShape[1]=2; 120 : 121 544 : PagedImage<Complex> thisCF(tmpShape,coordSys_p, name); 122 : //cerr << "thisCF.shape() = " << thisCF.shape() << " " << tmpShape << " " << storage_p->shape() << endl; 123 : 124 : // cerr << "Ref pixel = " << coordSys_p.referencePixel() << endl; 125 : // show(NULL,cerr); 126 : //cerr << storage_p->shape() << endl; 127 : 128 272 : if ((storage_p->shape()).nelements()>0) thisCF.put(*storage_p); 129 : //cerr << "INPERS " << bandName_p << " tel " << telescopeName_p << endl; 130 : //If there is no telescope name it barfs later especially in parallel continuum 131 : //So assuming it has to be EVLA 132 272 : if(telescopeName_p.size() <2) telescopeName_p="EVLA"; 133 544 : Record miscinfo; 134 272 : miscinfo.define("Xsupport", xSupport_p); 135 272 : miscinfo.define("Ysupport", ySupport_p); 136 272 : miscinfo.define("Sampling", sampling_p); 137 272 : miscinfo.define("ParallacticAngle",pa_p.getValue("deg")); 138 272 : miscinfo.define("MuellerElement", muellerElement_p); 139 272 : miscinfo.define("WValue", wValue_p); 140 272 : miscinfo.define("WIncr", wIncr_p); 141 272 : miscinfo.define("Name", fileName_p); 142 272 : miscinfo.define("ConjFreq", conjFreq_p); 143 272 : miscinfo.define("ConjPoln", conjPoln_p); 144 272 : miscinfo.define("TelescopeName", telescopeName_p); 145 272 : miscinfo.define("BandName", bandName_p); 146 272 : miscinfo.define("Diameter", diameter_p); 147 272 : miscinfo.define("OpCode",isRotationallySymmetric_p); 148 272 : thisCF.setMiscInfo(miscinfo); 149 : 150 : //show("thisCell: ", cout); 151 : } 152 : 153 2700 : void CFCell::clear() 154 : { 155 2700 : getStorage()->resize(); 156 2700 : cfShape_p.resize(0); 157 2700 : } 158 : 159 : } // end casa namespace 160 : 161 : 162 :