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//# Copyright (C) 1995,1996,1997,1998,1999,2000,2002,2003
//# Associated Universities, Inc. Washington DC, USA.
//#
//# This library is free software; you can redistribute it and/or modify it
//# under the terms of the GNU Library General Public License as published by
//# the Free Software Foundation; either version 2 of the License, or (at your
//# option) any later version.
//#
//# This library is distributed in the hope that it will be useful, but WITHOUT
//# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
//# FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public
//# License for more details.
//#
//# You should have received a copy of the GNU Library General Public License
//# along with this library; if not, write to the Free Software Foundation,
//# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
//#
//# Correspondence concerning AIPS++ should be addressed as follows:
//# Internet email: aips2-request@nrao.edu.
//# Postal address: AIPS++ Project Office
//# National Radio Astronomy Observatory
//# 520 Edgemont Road
//# Charlottesville, VA 22903-2475 USA
//#
//#
//# $Id$
#ifndef MEASURES_MDOPPLER_H
#define MEASURES_MDOPPLER_H
//# Includes
#include <casacore/casa/aips.h>
#include <casacore/measures/Measures/MeasBase.h>
#include <casacore/measures/Measures/MeasRef.h>
#include <casacore/casa/Quanta/MVDoppler.h>
namespace casacore { //# NAMESPACE CASACORE - BEGIN
//# Forward Declarations
class MDoppler;
class MCDoppler;
template <class M> class MeasConvert;
template <class M> class ArrayMeasColumn;
template <class M> class ScalarMeasColumn;
template <class T> class Vector;
template <class T> class Quantum;
//# Typedefs
// <summary>
// A Measure: Doppler shift
// </summary>
// <use visibility=export>
// <reviewed reviewer="UNKNOWN" date="before2004/08/25" tests="tMeasure" demos="">
// </reviewed>
// <prerequisite>
// <li> <linkto class=Measure>Measure</linkto> class
// </prerequisite>
//
// <etymology>
// From Measure and Doppler
// </etymology>
//
// <synopsis>
// MDoppler forms the derived Measure class for Doppler shifts.<br>
// An MDoppler can be generated from a simple value (or an
// <linkto class=MVDoppler>MVDoppler</linkto>), which is then
// interpreted as a Doppler ratio, and a reference, with a RADIO type
// as default.<br>
// It can also be generated from a Quantity, where the interpretation
// depends on the dimensionality of the Quantity:
// <ul>
// <li> None: a Doppler ratio
// <li> Velocity: Doppler ratio calculated by dividing with c
// </ul>
// The different types of Doppler (with F = f/f0, the frequency ratio),
// are:
// <ul>
// <li> MDoppler::Z (-1 + 1/F)
// <li> MDoppler::RATIO (F) *
// <li> MDoppler::RADIO (1 - F)
// <li> MDoppler::OPTICAL == Z
// <li> MDoppler::BETA ((1 - F<sup>2</sup>)/(1 + F<sup>2</sup>))
// <li> MDoppler::GAMMA ((1 + F<sup>2</sup>)/2F) *
// <li> MDoppler::RELATIVISTIC == BETA (== v/c)
// <li> MDoppler::DEFAULT == RADIO
// </ul>
// Note that the ones with an '*' have no real interpretation (although the
// calculation will proceed) if given as
// a velocity.<br>
// <p>
// Conversion between the different types is done with the standard
// <linkto class=MeasConvert>MeasConvert</linkto> class
// (<src>MDoppler::Convert</src> in this case).<br>
//
// Dopplers can be created from an <linkto class=MFrequency>MFrequency</linkto>
// object, or from an <linkto class=MRadialVelocity>MRadialVelocity</linkto>
// object.<br>
//
// A <em>shiftFrequency()</em> method can shift frequencies.
//
// Dopplers do not need a reference frame.
//
// </synopsis>
//
// <example>
// Conversion of a radio Doppler to an optical
// <srcblock>
// MDoppler radio(0.01); // A radio Doppler value
// cout << "Doppler radio = " << radio << "; optical = " <<
// MDoppler::Convert(radio, MDoppler::OPTICAL)() << // Convert
// endl;
// </srcblock>
// Setting up a conversion
// <srcblock>
// MDoppler::Convert to_opt(MDoppler::RADIO, MDoppler::OPTICAL);
// for (Double d=0; d<0.1; d += 0.005) {
// cout << "radio = " << d << " to optical = " <<
// to_opt(d) << endl;
// </srcblock>
// </example>
//
// <motivation>
// </motivation>
//
// <todo asof="2000/06/15">
// <li>
// </todo>
class MDoppler : public MeasBase<MVDoppler, MeasRef<MDoppler> > {
public:
//# Friends
// Conversion of data
friend class MeasConvert<MDoppler>;
//# Enumerations
// Types of known MDopplers
// <note role=warning> The order defines the order in the translation
// matrix FromTo
// in the getConvert routine. Do not change the order without
// changing the array. Additions should be made before N_types, and
// an additional row and column should be coded in FromTo, and
// in showType().</note>
enum Types {
RADIO,
Z,
RATIO,
BETA,
GAMMA,
N_Types,
OPTICAL=Z,
RELATIVISTIC=BETA,
DEFAULT=RADIO };
//# Typedefs
// Measure value container for this class (i.e. MDoppler::MVType)
typedef MVDoppler MVType;
// Measure conversion routines for this class (i.e. MDoppler::MCType)
typedef MCDoppler MCType;
// Measure reference (i.e. MDoppler::Ref)
typedef MeasRef<MDoppler> Ref;
// Measure Convert (i.e. MDoppler::Convert)
typedef MeasConvert<MDoppler> Convert;
// Measure table Columns (e.g., MDoppler::ScalarColumn)
typedef ScalarMeasColumn<MDoppler> ScalarColumn;
typedef ArrayMeasColumn<MDoppler> ArrayColumn;
// Reference enum Types (included originally for gcc 2.95)
typedef WHATEVER_SUN_TYPEDEF(MDoppler) Types Types;
//# Constructors
// <note role=tip> In the following constructors and other functions, all
// <em>MeasRef</em> can be replaced with simple <src>Measure::TYPE</src>
// where no offsets or frames are needed in the reference. </note>
// Default constructor; generates a zero rest Doppler
MDoppler();
// Create from data and reference
// <group>
MDoppler(const MVDoppler &dt);
MDoppler(const MVDoppler &dt, const MDoppler::Ref &rf);
MDoppler(const MVDoppler &dt, MDoppler::Types rf);
MDoppler(const Quantity &dt);
MDoppler(const Quantity &dt, const MDoppler::Ref &rf);
MDoppler(const Quantity &dt, MDoppler::Types rf);
MDoppler(const Measure *dt);
MDoppler(const MeasValue *dt);
// </group>
//# Destructor
virtual ~MDoppler();
//# Operators
//# General Member Functions
// Tell me your type
// <group>
virtual const String &tellMe() const;
static const String &showMe();
virtual uInt type() const;
static void assure(const Measure &in);
// </group>
// Translate reference code. The uInt version has a check for valid codes
// (i.e. it is a safe cast).
// <thrown>
// <li> AipsError in the uInt interface if illegal code given
// </thrown>
// <group>
static MDoppler::Types castType(uInt tp);
static const String &showType(MDoppler::Types tp);
static const String &showType(uInt tp);
// </group>
// Translate string to reference code
// <group>
static Bool getType(MDoppler::Types &tp, const String &in);
Bool giveMe(MDoppler::Ref &mr, const String &in);
// </group>
// Set the offset in the reference (False if non-matching Measure)
virtual Bool setOffset(const Measure &in);
// Set the reference type to the specified String. False if illegal
// string, reference set to DEFAULT.
virtual Bool setRefString(const String &in);
// Get the default reference type
virtual const String &getDefaultType() const;
// Get a list of all known reference codes. nall returns the number in list,
// nextra the number of specials (like planets) that should be at
// end of list). typ returns the list of corresponding types.
// <group>
virtual const String* allTypes(Int &nall, Int &nextra,
const uInt *&typ) const;
static const String* allMyTypes(Int &nall, Int &nextra,
const uInt *&typ);
// </group>
// Check if all internal tables of types (both enum and String) are
// complete and correct. This function is called automatically if and when
// necessary.
// <thrown>
// <li> AipsError if a (programming) error in the types.
// </thrown>
// <group>
virtual void checkTypes() const;
static void checkMyTypes();
// </group>
// Get the reference type (for records, including codes like R_)
virtual String getRefString() const;
// Get my type (as Register)
static uInt myType();
// Get in specified units
Quantity get(const Unit &un) const;
// Shift the input frequencies to the output frequencies. In the case of
// simple Double inputs, it is assumed that the values are linearly dependent
// on frequency. I.e. frequencies given as wavelength or time cannot be used.
// <group>
Vector<Double> shiftFrequency(const Vector<Double> &freq) const;
Quantum<Vector<Double> >
shiftFrequency(const Quantum<Vector<Double> > &freq) const;
// </group>
// Make a copy
// <group>
virtual Measure *clone() const;
// </group>
private:
//# Enumerations
//# Data
//# Member functions
};
} //# NAMESPACE CASACORE - END
#endif
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