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1 : //# ImageMetaData.cc: Meta information for Images 2 : //# Copyright (C) 2009 3 : //# Associated Universities, Inc. Washington DC, USA. 4 : //# 5 : //# This library is free software; you can redistribute it and/or modify it 6 : //# under the terms of the GNU Library General Public License as published by 7 : //# the Free Software Foundation; either version 2 of the License, or (at your 8 : //# option) any later version. 9 : //# 10 : //# This library is distributed in the hope that it will be useful, but WITHOUT 11 : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 12 : //# FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public 13 : //# License for more details. 14 : //# 15 : //# You should have received a copy of the GNU Library General Public License 16 : //# along with this library; if not, write to the Free Software Foundation, 17 : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA. 18 : //# 19 : //# Correspondence concerning AIPS++ should be addressed as follows: 20 : //# Internet email: aips2-request@nrao.edu. 21 : //# Postal address: AIPS++ Project Office 22 : //# National Radio Astronomy Observatory 23 : //# 520 Edgemont Road 24 : //# Charlottesville, VA 22903-2475 USA 25 : //# 26 : //# $Id: ImageMetaData.cc 20886 2010-04-29 14:06:56Z gervandiepen $ 27 : 28 : #include <components/ComponentModels/GaussianDeconvolver.h> 29 : #include <casacore/casa/BasicMath/Math.h> 30 : #include <casacore/scimath/Mathematics/GaussianBeam.h> 31 : 32 : using namespace casacore; 33 : namespace casa { 34 : 35 0 : Bool GaussianDeconvolver::deconvolve( 36 : Angular2DGaussian& deconvolvedSize, 37 : const Angular2DGaussian& convolvedSize, 38 : const GaussianBeam& beam 39 : ) { 40 0 : Unit radians(String("rad")); 41 0 : Unit positionAngleModelUnit = deconvolvedSize.getPA(false).getFullUnit(); 42 0 : Unit majorAxisModelUnit = deconvolvedSize.getMajor().getFullUnit(); 43 0 : Unit minorAxisModelUnit = deconvolvedSize.getMinor().getFullUnit(); 44 : 45 : // Get values in radians 46 0 : Double majorSource = convolvedSize.getMajor().getValue(radians); 47 0 : Double minorSource = convolvedSize.getMinor().getValue(radians); 48 0 : Double thetaSource = convolvedSize.getPA(true).getValue(radians); 49 0 : Double majorBeam = beam.getMajor().getValue(radians); 50 0 : Double minorBeam = beam.getMinor().getValue(radians); 51 0 : Double thetaBeam = beam.getPA(true).getValue(radians); 52 : // Do the sums 53 : 54 0 : Double alpha = square(majorSource*cos(thetaSource)) + 55 0 : square(minorSource*sin(thetaSource)) - 56 0 : square(majorBeam*cos(thetaBeam)) - 57 0 : square(minorBeam*sin(thetaBeam)); 58 0 : Double beta = square(majorSource*sin(thetaSource)) + 59 0 : square(minorSource*cos(thetaSource)) - 60 0 : square(majorBeam*sin(thetaBeam)) - 61 0 : square(minorBeam*cos(thetaBeam)); 62 0 : Double gamma = 2 * ( (square(minorSource)-square(majorSource))*sin(thetaSource)*cos(thetaSource) - 63 0 : (square(minorBeam)-square(majorBeam))*sin(thetaBeam)*cos(thetaBeam) ); 64 : // Set result in radians 65 : 66 0 : Double s = alpha + beta; 67 0 : Double t = sqrt(square(alpha-beta) + square(gamma)); 68 0 : Double limit = min(majorSource,minorSource); 69 0 : limit = min(limit,majorBeam); 70 0 : limit = min(limit,minorBeam); 71 0 : limit = 0.1*limit*limit; 72 : 73 0 : if(alpha<0.0 || beta<0.0 || s<t) { 74 0 : if(0.5*(s-t)<limit && alpha>-limit && beta>-limit) { 75 : // Point source. Fill in values of beam 76 0 : deconvolvedSize = GaussianBeam( 77 0 : Quantity(beam.getMajor().get(majorAxisModelUnit)), 78 0 : Quantity(beam.getMinor().get(minorAxisModelUnit)), 79 0 : Quantity(beam.getPA(true).get(positionAngleModelUnit)) 80 0 : ); 81 : // unwrap 82 0 : deconvolvedSize.setPA(deconvolvedSize.getPA(true)); 83 0 : return true; 84 : } 85 : else { 86 0 : throw AipsError("Source may be only (slightly) resolved in one direction"); 87 : } 88 : } 89 0 : Quantity majax(sqrt(0.5*(s+t)), radians); 90 0 : majax.convert(majorAxisModelUnit); 91 0 : Quantity minax(sqrt(0.5*(s-t)), radians); 92 0 : minax.convert(minorAxisModelUnit); 93 : Quantity pa( 94 0 : abs(gamma)+abs(alpha-beta) == 0.0 95 0 : ? 0.0 96 0 : : 0.5*atan2(-gamma,alpha-beta), 97 0 : radians); 98 0 : pa.convert(positionAngleModelUnit); 99 0 : deconvolvedSize = GaussianBeam(majax, minax, pa); 100 : // unwrap 101 0 : deconvolvedSize.setPA(deconvolvedSize.getPA(true)); 102 0 : return false; 103 : } 104 : 105 : 106 : 107 : } //# NAMESPACE CASA - END 108 :